JPH06255816A - Sheet feeder - Google Patents

Abstract

PURPOSE:To separate and convey various types of sheets with a uniform minimum required force in a sheet feeder using air suction force. CONSTITUTION:A sheet sucking/conveying means 101 is provided with suction opening areas 8a and suction opening areas 4a so that they are variably expanded as they are separated from an air suction blower 2 in the direction almost perpendicular to the conveying direction of sheets. The minimum required suction force is used, the suction pressure loss in the depth direction of sheets is unified, the suction force to sheets can be made constant, and sheets can be surely sucked and conveyed by a conveyor belt 4 regardless of the types of sheets.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a sheet feeding device particularly in an image forming apparatus of an electrophotographic copying machine, and more specifically, it utilizes a suction force of air to remove sheets from a sheet bundle stacked on a sheet tray. The present invention relates to an air feeding device that separates and conveys sheets one by one.

[0002]

[Prior art]

<Prior Art 1> Conventionally, a sheet feeding device in an image forming apparatus such as an electrophotographic copying machine is a so-called roller sheet feeding device that conveys sheets stacked on a sheet tray to the downstream side by rotation of a sheet feeding roller. It is common.

In this conventional roller feeding device, the roller surface is made of an elastic material such as rubber, and its performance is largely dependent on the friction coefficient of the roller surface. Therefore, the feeding performance may not be stable due to changes in the outer diameter of the roller due to wear, changes in the roller material over time, changes in the friction coefficient on the roller surface due to paper dust adhesion, etc. There was a drawback that I could not cut it.

In view of the above problems, there has been proposed an air sheet feeding device which sucks and conveys a sheet by utilizing the suction force of air, and a typical example has been conventionally proposed with reference to FIGS. 4 to 6. The configuration of a simple air feeding device will be described.

Reference numeral 100 denotes a sheet tray on which a plurality of sheets P can be stacked, and the sheets P are stacked so that their leading ends abut against the sheet alignment guide plate 100a. Reference numeral 101 denotes a sheet suction conveyance means arranged above the sheet tray. The sheet suction conveyance means 101 is
The air suction chamber 1, the air suction blower 2 connected to the air suction chamber 1, and the air suction chamber 1 and the air suction blower 2 are arranged between the air suction chamber 1 and the air suction chamber 1 to turn on / off the suction. A suction valve 3 to
The conveyor belt 4 is stretched over the lower surface of the air suction chamber 1 and has a plurality of suction openings 4a on its surface, and the conveyor belt 4 is intermittently moved in the direction of arrow A by a driving means (not shown). It is constituted by belt drive rollers 5 and 6 that are driven to convey the sheet P and support and rotate the sheet P with a predetermined tension.

Further, the air suction chamber 1 has a substantially flat bottom surface 7 facing the sheet bundle stacked on the sheet tray 100, and a direction substantially orthogonal to the sheet conveying direction of the substantially flat bottom surface 7 in FIG. A sheet P having the suction openings 4a of the respective conveyor belts 4 as shown and a plurality of suction openings 8 of the same shape formed at positions corresponding to the suction openings 4a, and the suction force of the air suction blower 2 is conveyed. It has a function of transmitting to a predetermined area in a direction substantially orthogonal to the conveyance direction of.

Further, 102 is the sheet suction and conveyance means 1
01 is arranged on the downstream side of 01 and is a pair of conveying rollers for conveying the sheet P conveyed by the conveying belt 4 to the next step, and 103 is a levitation device for ejecting air to float the sheet P in the vicinity of the leading end of the sheet S. Nozzles 104 are separation nozzles for blowing air between the first and second and subsequent sheets to separate only one sheet P, which are connected to the air discharge blower 105, respectively. Reference numeral 106 denotes a wind direction plate which is rotatably arranged at the discharge port of the air discharge blower 105 and which alternately distributes a predetermined amount of air to each nozzle, and 107 is arranged on the downstream side of the sheet suction conveyance means 101. A sheet conveyance guide for guiding the sheet P conveyed by the conveyance belt 4 to the pair of conveyance rollers 102.

In such a structure, the air feeding device operates as follows.

First, the wind direction plate 106 is switched to the position of a indicated by the solid line by a switching means such as a solenoid (not shown), the air discharge blower 105 is operated, and air is ejected from the floating nozzle 103 toward the front end of the sheet. Then, several sheets P are blown up and float up. Then, the suction valve 3 is switched from the d position shown by the broken line to the c position shown by the solid line by a switching means such as a solenoid (not shown), the air suction blower 2 is operated, and the sheet is passed through the feeding opening 8 and the suction opening 4a. P is sucked and several sheets P are adsorbed to the conveyor belt 4.

Next, the conveyor belt 4 is driven to convey the sheet P to the downstream side. At this time, the separation nozzle 104 is switched by switching the wind direction plate 106 to a position b that closes the opening on the floating nozzle 103 side. The air is blown to the front end of the sheet P from the above, and the sheet P that has been double-fed is blown back and separated, and only one sheet P is conveyed to the conveying roller pair 102 via the next sheet conveying guide 107. <Prior Art 2> Conventionally, a sheet feeding device in an image forming apparatus of an electrophotographic copying machine uses a roller feeding device that conveys sheets stacked on a sheet tray to a downstream side by rotation of a sheet feeding roller such as a rubber roller. Paper devices are generally known. Further, this roller sheet feeding device is unstable in sheet feeding performance due to change in outer shape of roller due to abrasion, change in material of roller with time, change in friction coefficient of roller surface due to adhesion of paper powder, and various surface properties. Since there are drawbacks such as not being able to deal with sheets, there have been proposed air feeding devices and the like that convey sheets using the suction force or blowing force of air.

[0011]

[Problems to be Solved by the Invention]

<Problem of the First Invention> In the air suction chamber 1 provided in the air feeding device having the configuration of <Prior Art 1> described above, the suction opening 8 is in a direction substantially orthogonal to the sheet conveying direction. Since it is formed with a uniform width in
The difference in the suction pressure loss of air becomes remarkable in the direction substantially orthogonal to the air suction chamber 1, and the sheet suction force of the air suction chamber 1 becomes stronger as it approaches the air suction blower 2 side and weakens as it moves away from it. That is, a phenomenon occurs in which the suction force is not constant in the substantially orthogonal direction, that is, the depth direction of the sheet.

As a result, when the thickest sheet or the like is conveyed, suction failure occurs on the conveying belt 4 on the side facing the air suction blower 2, and the sheet end surface is slackened or inclined (see FIG. 6)), a conveyance jam caused by being caught at the inlet of the sheet conveyance guide 107 disposed on the downstream side, or air from the separation nozzle 104 is evenly distributed to the slackly adhered portion of the sheet end. It did not enter and caused separation failure.

On the contrary, when the suction force of the air suction blower 2 is made strong and the suction force to the conveyor belt 4 is strengthened even on the side facing the air suction blower 2, the air suction blower 2 side is approached. The adsorption force at the portion where it is formed is too strong, and further separation failure is likely to occur.

In particular, when the suction force of the air suction blower 2 becomes strong, noise becomes louder and the size of the air feeding apparatus becomes large.

As described above, it has been difficult for the conventional sheet feeding device to support wide and stable sheet feeding from the smallest sheet to the largest sheet.

It is an object of the first invention to provide a sheet feeding apparatus capable of separating and conveying various types of sheets with a minimum required uniform suction force. <Problem of Second Invention> In the paper feeding device of <Prior Art 2>, depending on the environment in which the image forming apparatus is used,
The sheet bundle stacked on the sheet tray often absorbs moisture. In this case, since moisture absorption in the stacked sheet bundle occurs from the outside of the sheet bundle, a large amount of moisture is absorbed in a portion of the sheet bundle that is in contact with the outside air, and conversely, little moisture is absorbed inside the sheet bundle. Therefore, the non-uniform moisture absorption state occurs in one sheet, and the non-uniform moisture absorption state also results in the non-uniform electric resistance of the sheet.

When an image is formed on such a sheet, non-uniform image deletion occurs in the formed image. Further, since the moisture absorption state is different in one sheet, when the sheet passes through the fixing device of the image forming apparatus, the contraction differs depending on the part of the sheet, and a large and uneven curl occurs in the sheet itself. Poor sheet conveyance, misalignment at the time of ejection alignment, and the like occurred, and the performance of the image forming apparatus was significantly deteriorated.

In the above-described roller sheet feeding device, the performance is significantly deteriorated due to the non-uniform moisture absorption, and in the above-described air sheet feeding device, air is blown onto the sheet at the time of sheet feeding, or suction is performed. Although it is not as remarkable as the roller sheet feeding device for performing the operation, when the image forming apparatus is not used for a long time, the sheet also absorbs moisture unevenly because air is not blown to the sheet, and The image forming performance was deteriorated. <Problem of the Third Invention> In the air suction chamber 1 arranged in the sheet suction / conveyance means 101 having the configuration of <Conventional technique 1> described above, the suction opening 8 is substantially orthogonal to the sheet conveyance direction. The air suction chamber 1 is formed to have a uniform width in the direction in which the air is sucked and is engaged with the air suction blower 2 at one end side substantially orthogonal to the sheet conveying direction. The difference in suction pressure loss becomes remarkable, and the suction force of the air suction chamber 1 to the sheet P becomes stronger as the air suction chamber 2 is closer to the air suction blower 2 side, and becomes weaker as it is farther away. That is, a phenomenon occurs that the suction force is not constant in the substantially orthogonal direction, that is, the depth direction of the sheet.

As a result, when the thickest sheet or the like is conveyed, a suction failure occurs on the conveying belt 4 at the portion farthest from the air suction blower 2, and the sheet is conveyed with its end face sagging or inclined. (Fig. 6).

This is especially true of the central reference conveyance, in which the area away from the air suction blower 2 from the center of the conveyance system is always used, as compared with the one-side reference device having the conveyance system reference on the air suction blower 2 side. This is conspicuously shown in an apparatus having a system. Therefore, a conveyance jam caused by being caught at the inlet of the sheet conveyance guide 107 arranged on the downstream side, or air from the separation nozzle 104 sticks to the sheet end portion by sagging. It did not uniformly enter into the part where it was made, resulting in double feeding due to poor separation.

On the contrary, the suction force of the air suction blower 2 is increased, and the suction force to the conveyor belt 4 is strengthened even on the suction opening 8 side farthest from the air suction blower 2. If this is done, the viscous cycle is such that the suction force at the portion close to the side of the air suction blower 2 is too strong, and further separation defects are likely to occur.

In particular, the fact that the suction force of the air suction blower 2 becomes large causes various problems such as noise and vibration becoming more and more and the size of the air feeding apparatus as a whole becoming larger.

According to a third aspect of the invention, air is sucked by the sheet suction / conveyance means from both ends in the direction orthogonal to the sheet conveyance direction,
An object of the present invention is to provide a sheet feeding device capable of separating and conveying various types of sheets with a minimum required uniform suction force.

[0024]

[Means for Solving the Problems]

<Means of the First Invention> The present invention has been made in view of <Prior art 1>, and a plurality of air blowing means for blowing air to the vicinity of the leading end of a sheet bundle (P) in which a large number of sheets are stacked ( 103, 104) and the air blowing means (1
03, 104) sucks the uppermost surface of the sheet floated up, lifts the sheet (P) to a predetermined position, and transfers it to the next step. Adsorption transport means (10
1), an air suction opening area (8a /) which faces the sheet (P) and adsorbs the sheet (P).
4b) is provided so as to be substantially continuously variable in a direction substantially orthogonal to the sheet conveying direction.

Further, the air suction opening area (8a / 4b) closest to the air suction blower that acts on the sheet suction and conveyance means is located farthest from the air suction blower (2). Air suction opening area (8a
/ 4b), and the air suction opening area (8a / 4b) is variably enlarged as it moves away from the air suction blower (2). <Means of Second Invention> The present invention relates to a sheet tray (21) for stacking a sheet bundle (S), and the sheet tray (21).
A sheet feeding unit (24, 28) that faces the uppermost sheet (S ₁ ) of the sheet bundle stacked above and performs a sheet feeding operation for separately conveying the uppermost sheet (S ₁ ) of the sheet bundle one by one. ，
34), at least one air blowing unit (39, 40) for blowing air to the sheet bundle (S) stacked on the sheet tray (21), and the air blowing unit (3).
And a heat source (42) for providing a predetermined amount of heat to the air ejected by the air blowing means (39, 40), the sheet feeding device comprising:
The air blowing means (39, 40) blows warmed air near the tip of the uppermost sheet (S) of the sheet bundle (S) facing the paper feeding means (24, 28, 34), Is characterized by.

Further, the humidity detecting means (51) for detecting the humidity in the vicinity of the sheet bundle (S) and the humidity detecting means (51).
The heat source (42) is turned on / of by a signal from
and a control means (20) for controlling f, the heat source (42) is turned on when the humidity detected by the humidity detecting means (51) is higher than a predetermined value, and the heat source (42) is turned on when the humidity is lower than the predetermined value. Controlling the heat source (42) to turn off,
It is characterized by <Means of Third Invention> A third invention is to provide a plurality of air blowing means (103, 104) for blowing air to the vicinity of the leading end of a sheet bundle (S) in which a large number of sheets are stacked, and the air blowing means (103, The sheet suction conveyance means (10) which sucks the uppermost surface (S ₁ ) of the sheet floated by 104), lifts the sheet (S ₁ ) to a predetermined position, and transfers it to the next step.
In the sheet feeding apparatus having 1) and, the, the sheet suction conveyance device (provided on 101) facing the sheet (S ₁₎ the sheet (S ₁₎ air suction opening for sucking the ( The sheet suction member (1) having 8)
Air is sucked from both ends of the sheet (S ₁ ) which are substantially orthogonal to the conveying direction of the sheet (S ₁ ).

[0027]

[Action]

<Operation of the First Invention> In the air feeding device utilizing the suction force of air, the suction provided on the surface of the air suction chamber (1) provided in the sheet suction / conveyance means (101) facing the sheet surface. Opening area (8a) or the suction opening area (4b) arranged on the conveyor belt (4) is
The sheet (P) is variably provided in a direction substantially orthogonal to the conveying direction.

Further, the opening area (S ₁ ) on the side close to the air suction blower (2) engaged with the air suction chamber (1) is the opening farthest from the air suction blower (2). The area is smaller than the area (S ₆ ), and the predetermined opening area (8 a / 4 b) is variably expanded as the distance from the air suction blower (2) increases.

As a result, the attraction force to the sheet (P) can be made uniform in the depth direction (sheet width direction) of the sheet (P), and the sheet (P) is separated by the minimum required attraction force. Can be transported. <Operation of the second invention> Air blowing means (39, 40)
When air is ejected from one of the air blowing means (39) to the sheet bundle (S), several sheets (S) are blown up and floated. Next, air blowing means (3
When the air blowing from 9) is stopped and the air is jetted from the other air blowing means (40), the uppermost one sheet (S ₁ ) is adsorbed by the paper feeding means (24, 28, 34). Be transported.

When the feeding of the sheets (S) by the sheet feeding means (24, 28, 34) is stopped, the air heated by the heat source (42) blows the sheet bundle (39) by the air blowing means (39). It is possible to float several sheets of the sheet bundle (S) that have been blown onto the sheet S) and to pass heated air to both sides of the sheet.

As a result, the moisture absorption of the sheet (S) can be reduced, the moisture absorption of the sheet (S) can be made uniform, and a high-performance image forming apparatus with less image deletion and curl of the sheet itself can be obtained.

Further, in the air feeding device using air as the separating means, the air blowing means (39, 40) of the air feeding device and the air blowing means (39, 40) for removing humidity according to the present invention. Therefore, it is not necessary to provide a new member for air blowing means. <Operation of Third Invention> In the air feeding device utilizing the suction force of air, the uppermost sheet (S ₁ ) is sucked by the sheet suction member (1) sucked by the air suction blower (2). Sheet suction and conveyance means (101)
Is carried to the next process on the downstream side.

The plurality of air suction blowers (2) for sucking air in the air suction chamber, which is the sheet suction member (1), are arranged from both ends of the sheet suction member (1) orthogonal to the sheet conveying direction. The above suction action is performed.

As a result, the suction pressure loss in the entire depth direction of the sheet is made uniform by the suction action of the minimum necessary limit,
In addition, it is possible to make the suction force to the sheet at both ends in the depth direction of the sheet the same, and to ensure reliable suction and conveyance by the conveyor belt regardless of the type of sheet and reference position for conveyance, and a reliable separation action especially by blowing air. This helps to reduce paper feed problems such as double feeds and conveyance jams, and enables stable paper feed for all paper qualities.

[0035]

【Example】

<Embodiment 1 of the first invention> The present invention will be described in detail below based on embodiments.

The cross-sectional structure and schematic function of the air feeding apparatus to which the present invention can be applied are the same as those of the conventional example (FIG. 4), and therefore the detailed description is omitted and the features of the present invention of FIG. 1 are most represented. The present invention will be described in detail with reference to the bottom view showing the conveyance surface of the sheet suction conveyance means as viewed from the sheet side.

The suction opening 8a formed in the substantially flat bottom surface 7 of the air suction chamber 1 arranged in the sheet suction / transport means 101 has a uniform width in the conventional example, but the present invention Then, the area of the suction opening on the side close to the air suction blower 2 is smaller than the area of the suction opening on the side facing the side of the air suction blower 2, and the predetermined opening is from the air suction blower 2. It is provided so that it expands continuously as it goes away.

In FIG. 1, the same conveyor belt 4 is stretched over the air suction chamber 1 at a plurality of positions, and one end thereof, that is, one end in a direction substantially orthogonal to the sheet conveying direction (sheet width direction). At the air suction blower 2
And the air suction chamber 1 are engaged with each other, and the air suction flow in the air suction chamber 1 is set so as to flow in a direction substantially orthogonal to the sheet conveying direction.

Further, on the substantially flat bottom surface 7 formed in a part of the air suction chamber 1, a plurality of suction holes having different opening areas are provided at positions corresponding to the suction openings 4a of the respective conveyor belts 4. The openings 8a are provided so as to have the same shape in each row with respect to the depth direction of the sheet, and the opening area S is provided so as to be variably enlarged as the distance from the side close to the air suction blower 2 increases. ing.

That is, the opening area closest to the air suction blower 2 is S1, and the adjacent opening area is S2.
.. Then, S1 <S2 <S3 <S4 <S5 <S6 <
... <Sn, and the predetermined opening area is set so that the air suction pressure loss at each opening is uniform.

The air feeding apparatus provided with the air suction chamber 1 constructed as described above operates as follows.

As in the above-described conventional example, the air discharge blower 105 is operated by a predetermined operation, air is ejected from the floating nozzle 103 toward the leading edge of the sheet, and several sheets P are blown up and floated. The suction valve 3 is indicated by a broken line d by a switching means such as a solenoid (not shown).
Is switched to the position of c indicated by the solid line, the air suction blower 2 operates, and the suction opening 8a and the suction opening 4
The sheet P is sucked through the sheet a, and the sheet P is attracted to the conveyor belt 4.

At this time, even if the conveyed sheet P is thick and thick, since the suction force to the conveying belt 4 is almost constant in the depth direction of the sheet P, the sheet P is
There is no sagging or inclination of the end portion of the sheet, and only the uppermost sheet is surely brought into close contact with the conveyor belt 4 by the reliable separating action of the separating nozzle 104, and the belt driving rollers 5 and 6 are rotated to distribute the sheet to the downstream side. The sheet is reliably conveyed into the provided sheet conveyance guide 107.

In the above embodiment, the suction opening has a plurality of circular shapes. However, for example, S1 and S2, S3 and S are used.
4, a plurality of trapezoidal shapes that are in contact with the respective circles represented by S5 and S6, or an integral and substantially continuously variable trapezoidal shape that is in contact with the respective circles represented by S1 and S6 It may be an opening. <Embodiment 2 of the first invention> Next, another embodiment will be described. The same parts as those in the first embodiment have the same symbols and their explanations are omitted.

FIG. 2 shows a second embodiment of the present invention, and is a bottom view showing the conveying surface of the sheet suction conveying means to which the present invention is applied, as seen from the sheet side.

In the figure, in the first embodiment, the air suction blower 2 and the air suction chamber 1 are engaged with each other at one end in the direction substantially orthogonal to the sheet conveying direction, but the second embodiment In the example, the air suction blower 2 is engaged at the center of the transfer surface of the air suction chamber 1, and the suction opening 8b is moved away from the center closest to the air suction blower 2. It is provided so as to enlarge the opening area of and has the same function as that of the first embodiment. <Embodiment 3 of the First Invention> FIG. 3 is a third embodiment of the present invention, and is a bottom view showing a conveyance belt as seen from the sheet side of a sheet suction conveyance means to which the present invention is applied.

In the figure, in the first embodiment, suction openings 8a having different opening areas are provided on the substantially flat bottom surface 7 formed in the air suction chamber 1, but in the third embodiment, The opening area of the suction opening 8 corresponding to the width of each conveyor belt on the substantially flat bottom surface 7 is uniform as in the conventional example,
Instead, even if the plurality of suction openings 4b provided in the conveyor belt 4 are provided so that their opening areas increase as the distance from the air suction blower 2 increases, as in the first embodiment, the same function is provided. Is what you get. <Embodiment 1 of the second invention> Hereinafter, the present invention will be described in detail based on embodiments.

FIG. 7 shows an air feeding device to which the present invention can be applied.

Reference numeral 21 denotes a sheet tray on which a plurality of sheets can be stacked, and the sheets are stacked so that the leading ends of the sheets abut against the sheet alignment guide plate 22.

Reference numeral 23 is a sheet conveying section. Reference numeral 24 denotes a first sheet suction portion, which is a substantially flat bottom surface 25 and a substantially flat bottom surface 2 facing the sheet bundle stacked on the sheet tray 21.
5, air suction opening 26, suction chamber 27
It is composed by. Reference numeral 28 denotes a second sheet suction portion, which is arranged on the downstream side in the sheet conveying direction with respect to the first substantially flat bottom surface 25 and forms a predetermined angle θ above the first substantially flat bottom surface 25. The second substantially planar bottom surface 29 displaced to
Air suction opening 3 formed in the second substantially planar bottom surface 29
0, a suction chamber 31.

The first sheet suction section 24 and the second sheet suction section 28 are connected to an air suction blower 32. The suction of the blower 32 is turned on / of by the valve 33.
f is possible. A conveyor belt 34 is stretched around the surfaces of the first sheet suction section 24 and the second sheet suction section 28 so as to cover the surfaces thereof. The transport belt 34 has a plurality of suction holes 34a. The conveyor belt 34 is supported by rollers 35, 36, 37, and 38 with a predetermined tension, and is intermittently driven in the direction of arrow A by a driving unit (not shown) to convey the sheet. The roller 35 is arranged at a position where the first substantially flat bottom surface 25 and the second substantially flat bottom surface 29 intersect, and functions as a displacement fulcrum portion 35a for displacing the sheet so as to be convex downward. .

Reference numeral 39 is a nozzle for ejecting air to float the sheet, and 40 is a nozzle for ejecting air to separate only one sheet. The nozzles 39 and 40 are connected to a blower 41 for jetting air. Nozzle 39,
Air ejection from 40 can be selectively switched by a valve 42.

Reference numeral 43 is a pair of conveying rollers for conveying the conveyed sheet further downstream. 50 is a blower 41
It is a heater that heats the air so that the air sent from the air is warm air. Reference numeral 51 denotes a humidity sensor that detects the humidity in the vicinity of the sheet bundle stacked on the sheet tray 21.

Next, the operation of the above air feeding device will be described.

First, the sheet feeding operation will be described. The valve 42 is switched to the position a by a switching means such as a solenoid (not shown), the blower 41 is operated, and air is ejected from the nozzle 39 toward the front end of the sheet. Then, several sheets are blown up and float up. And
The valve 3 is provided by a switching means such as a solenoid (not shown).
3 is switched to the position of c, the blower 32 is operated, and air is sucked through the suction openings 26, 30 and the suction hole 34a. Then, the uppermost sheet S1 is sucked by the first and second sheet suction portions 24 and 28 and adheres to the transport belt 34.

More specifically, as shown in FIG. 7, the vicinity of the central portion of the sheet is adsorbed by the first sheet adsorbing portion 24, and the vicinity of the leading end of the sheet is adsorbed by the second sheet adsorbing portion 28. At this time, since the suction force of the first and second sheet suction portions is set to be sufficiently strong, the sheet bends against the stiffness of the sheet with the displacement fulcrum portion 35a as a fulcrum, and the tip and center of the sheet move. Both parts are in close contact with the conveyor belt 34. That is, the sheet S
1 is a displacement fulcrum portion 3 following the substantially flat bottom surfaces 25 and 29.
It has a downward convex V shape with 5a as a fulcrum.

At this time, the second sheet S2 is the sheet S
Suppose it was in close contact with 1. In this case, the vicinity of the central portion of the sheet S2 substantially conforms to the sheet S1. However, since the surface of the second sheet suction portion 28 is covered with the sheet S1, the suction force does not work near the tip of the sheet S2. Therefore, the elasticity of the sheet is predominant, and the sheet S2 maintains the planar shape without being bent with the displacement fulcrum portion 35a as the fulcrum,
The leading ends of the sheets are separated, and a gap e is formed between the sheets.

After that, the conveying belt 34 is driven by the driving means (not shown), and the sheet S1 is conveyed in the direction of arrow A. At the same time, the valve 42 is switched to the position of b, air is blown from the nozzle 40 into the gap e between the sheet S1 and the sheet S2, and the sheet S2 is stably separated. Therefore, only the sheet S1 is conveyed downstream and passed to the pair of conveying rollers 43.

Next, when the present air feeding device is not performing the paper feeding operation, the valve 42 is switched to the position a, and it is not possible that the nozzle 39 blows air weaker than the air volume at the time of paper feeding. It is controlled by the controller shown. Even in this state, several sheets are blown up and levitated, and air is passed between the levitated sheets. The operation of the other constituent members of the air feeding device is stopped.

Note that the heater 50 is always energized and generating heat whether the paper feeding operation is being performed or not. Therefore, warm air always flows between the several sheets above the sheet bundle (arrow K in FIG. 7). FIG. 8 shows a timing chart showing details of driving in this embodiment. The blower 32 does not rotate during the non-paper feeding operation, but rotates during the paper feeding operation and stops when the paper feeding operation ends. The blower 41 rotates at a rotational speed p1 smaller than that during the paper feeding operation during the non-paper feeding operation, and rotates at p2 (> p1) during the paper feeding operation, and the rotational speed returns to p1 when the paper feeding operation ends. do.

The position of the valve 33 is d during non-feeding operation.
Position, the position changes to the position c during the paper feeding operation, and returns to the position d immediately before the end of the paper feeding operation. The position of the valve 42 changes to the position a during the non-paper feeding operation and to the position b during the paper feeding operation, and returns to the position a immediately before the end of the paper feeding operation.

The conveying belt 34 is driven off during the non-paper feeding operation, the feeding operation is started, and the sheet is conveyed.
After sucking in the sheet, the drive is turned on to perform the sheet conveying operation, and the drive is turned off to the non-paper feeding operation. By driving the blower 41 and the valve 42, the air volume of the nozzle 39 becomes as shown in FIG. 8, and the air is ejected at the air volume q2 which is weaker than the air volume q1 during the paper feeding operation during the non-paper feeding operation. The heater 50 is turned on during the paper feeding operation and during the non-paper feeding operation.

As described above, by sending warm air to several sheets even when the sheet feeding operation is stopped, the stacked sheet bundle can be floated and warm air can be passed to both sides of the sheet, so that the sheets absorb moisture. Since the sheet can be reduced and the sheet can be evenly absorbed, it is possible to obtain a high-performance image forming apparatus with less image deletion and curl of the sheet itself. Further, particularly in the present embodiment, the air feeding device is used as the paper feeding device, and the air blowing means for reducing the moisture absorption of the sheet and for the uniform moisture absorption state is provided by the blower 41 and the nozzle 39. Since it also serves as an air blowing unit for floating the sheet of the paper device, it is possible to realize a paper feed device at a low cost without increasing the size of the device itself.

In the present embodiment, the air volume from the nozzles is made weaker than the air volume at the time of sheet feeding when the sheet feeding operation is stopped, but the noise reduction effect is obtained, but these may be the same. Further, when the image forming apparatus is used in a humid environment, by increasing the air volume when not feeding than the air volume when feeding, it is possible to further reduce the moisture absorption of the sheet and to even out the moisture absorption of the sheet. Can be increased.

Further, in the present embodiment, the present invention is particularly applied to the air feeding device, but the present invention is not limited to this, and for example, a roller feeding device provided with air blowing means may be selected, and the feeding device is selected. There is no such thing.

Further, in the present embodiment, air is constantly ejected from the nozzle 39 during the non-feeding operation, but in order to save power or reduce noise, for example, when the user does not use the image forming apparatus for a long time, Manual air ejection of
A function that can be performed may be added. <Embodiment 2 of the second invention> In the first embodiment, warm air is always blown to the seat, but hot air and cold air may be switched depending on the surrounding environment, for example, humidity. In that case, the humidity sensor 51 is arranged near the sheet bundle (FIG. 7). When the humidity detected by the humidity sensor is equal to or higher than a predetermined value, the heater 50 is turned on to send warm air to the sheet bundle. When the humidity is below a predetermined value, the heater 50 is turned off and the cool air is sent. According to this structure, the sheet can be effectively dehumidified only when the sheet easily absorbs moisture at high humidity, that is, when the image deletion and the sheet curl easily occur, and the power can be saved. <Embodiment 3 of the Second Invention> FIG. 9 shows a second embodiment of an air feeding apparatus to which the present invention can be applied. The air-feeding device according to the second embodiment is one in which the configuration of the first embodiment is turned upside down, and separates and conveys the sheets one by one from the lower side of the sheet bundle. In particular, it is mainly used for an automatic document feeder such as a copying machine, or a sheet tray of a sheet reversing unit during double-sided image formation in an image forming apparatus.

The numbers of the constituent elements in FIG. 9 which are the same as those of the constituent elements in FIG. 7 indicate the same constituent elements, and the operation thereof is also the same, and therefore the description thereof is omitted here. Also in this embodiment, as in the first embodiment, by sending warm air to several sheets in this way at the time of stop, the stacked sheet bundle is floated and hot air is passed through both sides of the sheet. As a result, the moisture absorption of the sheet can be reduced and the moisture absorption of the sheet can be made uniform, so that a high-performance image forming apparatus with less image deletion and curl of the sheet itself can be obtained. <Embodiment 1 of the third invention> Hereinafter, the present invention will be described in detail based on embodiments.

The cross-sectional structure and schematic function of the air feeding apparatus to which the present invention can be applied are the same as those of the conventional example (FIG. 4), and therefore detailed description thereof will be omitted, and the sheet suctioning which is the most characteristic of the present invention of FIG. The present invention will be described in detail with reference to the bottom view showing the conveying surface of the conveying means as seen from the sheet side.

In the figure, air suction blowers 2 having the same suction action force are engaged with both ends of the air suction chamber 1 in a direction substantially orthogonal to the sheet conveying direction. The air suction flow in the chamber 1 is arranged so as to flow from the center of the air suction chamber 1 to both ends, as indicated by arrow B.

Further, the suction opening 8 is provided at a position corresponding to each suction opening 4a provided on each conveyor belt 4 on the substantially flat bottom surface 7 formed in a part of the air suction chamber 1.
a, 8b, 8c are provided. In particular, the opening areas of the air suction blowers 2 at the suction openings 8a and 8c are substantially equal to each other, and the air suction pressure loss at the suction openings 8a and 8b is minimized. Is set.

For example, the distances of the air suction flows between the air suction blowers 2 and the suction openings 8a and 8c provided at both ends in the direction substantially orthogonal to the sheet conveying direction are L1 and L2, respectively. If the opening areas of the suction openings 8a and 8c are S11 and S12, L1 =
When L2, S11 = S12, and when L1> L2, S11
When 11> S12 and L1> L2, the opening areas are adjusted according to the distance of each air suction flow so that S1> S2, and the suction force to the sheet at both ends in the depth direction is made constant. It is what

The air sheet feeding device having the above-mentioned sheet sucking and conveying means arranged as described above operates as follows.

As in the above-mentioned conventional example, the air discharge blower 105 is operated by a predetermined operation, air is ejected from the floating nozzle 103 toward the front end of the sheet, and several sheets P are blown up and floated. Then, each suction valve 3 is simultaneously switched from the position d indicated by the broken line to the position c indicated by the solid line by a switching means such as a solenoid (not shown),
Each air suction blower 2 operates, and the suction openings 8a, 8
Air is sucked through b and 8c and the suction openings 4a, and the sheet P is sucked onto the conveyance belt 4.

At this time, even if the conveyed sheet P is thick and thick, since the suction force to the conveying belt 4 is substantially constant in the depth direction of the sheet P, the end portion of the sheet P is Only the uppermost sheet is surely brought into close contact with the conveyor belt 4 without being sagged or inclined and is reliably separated by the separation nozzle 104, and is distributed to the downstream side by the rotation of the belt drive rollers 5 and 6. It is possible to reliably convey the sheet into the sheet conveyance guide 107. Second Embodiment of Third Invention Next, a second embodiment of the third invention will be described. The same parts as those in the first embodiment have the same symbols and their explanations are omitted.

FIG. 11 shows a second embodiment of the present invention,
FIG. 6 is a bottom view showing a conveyance surface of the sheet suction conveyance means to which the present invention is applied, as viewed from the sheet side.

In the figure, in the first embodiment, the air suction blower 2 and the air suction chamber 1 are directly engaged with each other at both ends in the direction substantially orthogonal to the sheet conveying direction. In the embodiment, one or a plurality of the air suction blowers 2 are arranged inside the center of the conveyance belt 4, and the ducts 9 are engaged with both ends of the air suction chamber 1 in a direction substantially orthogonal to the sheet conveyance direction. The same function as that of the first embodiment can be obtained even if the suction action is provided via the.

Although the air suction blower 2 is arranged inside the center of the conveyor belt 4 in the same drawing, it does not matter even if it is outside the center of the conveyor belt.

[0078]

【The invention's effect】

<Effect of the First Invention> As described above, according to the present invention, in the air feeding device utilizing the suction force by the air, the air suction chamber provided in the sheet suction conveyance means faces the sheet surface of the air suction chamber. The arranged suction opening area,
Alternatively, the suction opening area of the sheet arranged on the conveying belt is provided so as to variably expand as it moves away from the air suction blower in a direction substantially orthogonal to the sheet conveying direction, and the sheet is drawn with the minimum necessary suction force. The uniform suction pressure loss in the depth direction and the constant suction force on the sheet ensure reliable suction and conveyance by the conveyor belt regardless of the type of sheet and reliable separation by air blowing. This helps to reduce the number of sheet feeding problems such as double-feeding of sheets and conveyance jams, and enables stable sheet feeding that supports all types of paper quality. It is possible to realize an air feeding device with low noise. <Effect of the Second Invention> As described above, according to the present invention, it is possible to reduce the moisture absorption of the sheet in the sheet feeding device of the image forming apparatus and to make the moisture absorption of the sheet uniform. A high-performance image forming apparatus with less curling can be obtained.

Further, in the air feeding device, since the air blowing means of the air feeding device can also serve as the air blowing means of the present invention, it is not necessary to provide a new member. <Effect of the Third Invention> As described above, according to the present invention, in the air sheet feeding device utilizing the suction force of the air, the sheet suction conveyance means is provided to face the sheet and suck the sheet. The air suction chamber having the sheet suction opening is provided with an air suction blower that suctions the air suction chamber so that the suction action is supplied from both end directions substantially orthogonal to the sheet conveying direction. By arranging so as to engage with each other at both ends in the direction substantially orthogonal to the sheet conveying direction, the suction pressure loss in the entire depth direction of the sheet is made uniform by the suction action of the minimum necessary limit, and It is possible to make the suction force to the sheet at both ends of the sheet in the depth direction the same. And wearing transport, particularly reliable conducive to separating action to reduce the sheet feeding failure such as double feeding or paper jam caused by blowing air, stable sheet feeding to accommodate any paper quality is possible.

Further, it is possible to provide a compact, low-noise, low-vibration air feeding device without enlarging the device such as the air suction blower.

[Brief description of drawings]

FIG. 1 is a bottom view of a sheet suction conveyance means portion of a sheet feeding device according to a first embodiment of the first invention.

FIG. 2 is a bottom view of the sheet suction / conveyance unit of the sheet feeding device according to the second embodiment.

FIG. 3 is a bottom view of the sheet suction / conveyance means of the sheet feeding device according to the third embodiment.

FIG. 4 is a vertical sectional side view showing an example of a general sheet feeding device.

FIG. 5 is a bottom view showing a conveyance surface of the sheet suction conveyance means portion of the conventional sheet feeding device as seen from the sheet side.

FIG. 6 is a front view showing a sheet conveyance state of the sheet suction conveyance means seen from the downstream side in the sheet conveyance direction.

FIG. 7 is a vertical sectional side view of the sheet feeding device according to the first embodiment of the second invention.

FIG. 8 is a timing chart for driving the sheet feeding device.

FIG. 9 is a vertical sectional side view of the sheet feeding device according to the second embodiment.

FIG. 10 is a bottom view of the sheet suction / conveyance means of the sheet feeding device according to the first embodiment of the third invention.

FIG. 11 is a bottom view of the sheet suction / conveyance unit of the sheet feeding device according to the second embodiment.

[Explanation of symbols]

P sheet 1 air suction chamber 2 air suction blower 4 conveyor belt 4b air suction opening area 5, 6 belt drive roller 7 substantially flat bottom surface of air suction chamber 8a air suction opening area 9 ducts S _{1 to} S ₆ air suction Opening area of the opening area for use S Sheet (sheet bundle) 20 Control unit (control means) 21 Sheet tray 23 Sheet suction conveyance device 24, 28, 34 Paper feeding means 24 First sheet suction section (first air suction means) 27 Suction Chamber 28 Second Sheet Adsorption Part (Second Air Suction Means) 31 Suction Chamber 34 Conveyor Belt 39 Sheet Floating Nozzle (Air Blowing Means) 40 Sheet Separation Nozzle (Air Blowing Means) 42 Heat Source 51 Humidity Detecting means S11 Air suction opening S12 Air suction opening 100 Sheet tray 100a Sheet alignment guide Plate 101 sheet suction conveyance device 102 conveying rollers 103 floating nozzle 104 separating nozzle 105 air discharge nozzle 106 louvers

Claims (15)

[Claims] 1. A plurality of air blowing means for blowing air to the vicinity of the leading end of a stack of a large number of sheets, and the uppermost surface of the sheet floated by the air blowing means is sucked, and the sheet is lifted to a predetermined position and then moved. In a sheet feeding device having a sheet adsorbing and conveying means for delivering in a stroke, an air suction opening area provided in the sheet adsorbing and conveying means for facing the sheet and adsorbing the sheet is a sheet conveying direction. A sheet feeding device, wherein the sheet feeding device is provided so as to be substantially continuously variable in a direction substantially orthogonal to the above. 2. The suction opening area on the side closest to the air suction blower that acts on the sheet suction conveying means is smaller than the suction opening area on the side farthest from the air suction blower, and 2. The sheet feeding device according to claim 1, wherein the air suction opening area is formed so as to variably expand as it moves away from the air suction blower. 3. The sheet feeding apparatus according to claim 2, wherein the air suction opening area is an air suction chamber disposed in the sheet suction / conveyance unit. 4. The sheet feeding apparatus according to claim 2, wherein the air suction opening area is provided on a conveyor belt that conveys the sheet, which is arranged in the sheet suction conveying means. 5. A sheet tray for stacking a sheet bundle, and a sheet feeding operation for facing the uppermost sheet of the sheet bundle stacked on the sheet tray and separating and conveying the uppermost sheet of the sheet bundle one by one. Sheet feeding means for performing the above, at least one air blowing means for blowing air to the sheet bundle stacked on the sheet tray, and the air blown by the air blowing means disposed in the vicinity of the air blowing means. A sheet feeding device comprising: a heat source that gives a predetermined amount of heat; wherein the air blowing unit blows warmed air near the leading end of the uppermost sheet of the sheet bundle that faces the sheet feeding unit. , A sheet feeding device. 6. The sheet feeding apparatus according to claim 1, wherein the blowing unit blows air at least when the sheet feeding unit stops the sheet feeding operation. 7. The sheet feeding device according to claim 1, wherein the air blowing unit floats at least one sheet of the sheet bundle from another sheet bundle. 8. The sheet feeding apparatus according to claim 1, wherein the air blowing unit is located downstream of the sheet bundle in the sheet conveying direction. 9. The air volume from the air blowing means when the paper feeding operation is stopped by the paper feeding means is different from the air volume from the air blowing means when the paper feeding operation is performed. Sheet feeding device. 10. The sheet feeding means comprises an air suction means for sucking the uppermost sheet facing the sheet feeding means and adsorbing the sheet to the sheet feeding means, and a conveying means for conveying the sucked sheet. The sheet according to claim 1, wherein the sheet is a sheet feeding unit, and the air blowing unit is an air blowing unit for adsorbing the uppermost sheet Z facing the air blowing unit to the sheet feeding unit. Paper feeder. 11. A humidity detecting means for detecting humidity in the vicinity of the sheet, and a heat source for turning on the heat source according to a signal from the humidity detecting means.
Control means for controlling / off control is provided, and when the humidity detected by the humidity detecting means is above a predetermined humidity, the heat source is turned on, and when the humidity is below a predetermined humidity, the heat source is turned off. The sheet feeding device according to claim 1, wherein: 12. A plurality of air blowing means for blowing air to the vicinity of the tip of a stack of a number of stacked sheets, and the uppermost surface of the sheet floated by the air blowing means is sucked to lift the sheet to a predetermined position and then In a sheet feeding device having a sheet adsorbing and conveying means for delivering in a stroke, a sheet adsorbing member provided in the sheet adsorbing and conveying means and having an air suction opening facing the sheet and adsorbing the sheet is provided. The sheet feeding device is characterized in that air is sucked from both end directions that are substantially orthogonal to the sheet conveying direction. 13. Air is sucked into each of the sheet suction members such that the suction forces to the sheet act in a substantially equal manner in the vicinity of both end portions of the sheet suction member which are substantially orthogonal to the conveying direction. The sheet feeding device according to claim 1. 14. A blower for sucking air, which sucks the sheet suction member, is engaged with both ends of the sheet in a direction orthogonal to the conveying direction of the sheet. The sheet feeding device described in 1. 15. The sheet feeding device according to claim 3, wherein the plurality of air suction blowers each have an equivalent suction force action.