CN218857213U - Bamboo sawing device - Google Patents

Abstract

The utility model relates to a bamboo processing technology field, in particular to saw bamboo device. The outer circumferential surface of the raw bamboo is clamped by the clamping conveying piece, the raw bamboo is driven to axially extend the conveying direction to be conveyed by the clamping conveying piece through the movement of the clamping conveying piece, the buffering and the speed reduction of the elastic piece are firstly obtained when the raw bamboo is conveyed to a fixed length by utilizing the mutual matching of the specific position relations of the movable material blocking piece, the movable seat and the rack, the raw bamboo is stopped at the fixed length position, the positioning mechanism with a specific structure is used in a matching manner, the raw bamboo is conveyed to be close to a cutting point position, the speed reduction and the buffering can be firstly carried out, then the conveying is accurately stopped, and the accuracy of the cutting point position of the raw bamboo is ensured.

Description

Bamboo sawing device

Technical Field

The utility model relates to a bamboo processing technology field, in particular to saw bamboo device.

Background

Patent No. CN217256867U discloses a conveying mechanism that raw bamboo saw cut, utilizes first centre gripping subassembly roll centre gripping raw bamboo's outer peripheral face, utilizes the linear motion mechanism of second centre gripping subassembly to drive the holder with raw bamboo one end centre gripping and pull out to direction of delivery, after pulling out to fixed length point position, saw through saw cutting device and cut, the holder of second centre gripping subassembly loosens after the saw cuts, makes the raw bamboo of fixed length saw cut fall naturally and collect.

In the above patent scheme, the second clamping assembly is required to be movably connected to the linear motion mechanism (such as the screw rod guide rail mechanism), and the second clamping assembly is required to return after the second clamping assembly moves along the linear motion mechanism so as to pull out the original bamboo to a fixed-length point position and saw off the original bamboo in a fixed-length manner, so that the original bamboo is pulled out to the fixed-length point position again and then sawed off in a fixed-length manner.

Therefore, in the above patent scheme, because the return of second centre gripping subassembly needs a waste short period of time, the former bamboo just can continue to carry forward after every section saw cuts, need pause a short period of time promptly, if can practice thrift this short period of time, then when former bamboo saw cuts in batches, can improve work efficiency.

Therefore, how to ensure the accurate fixed-length cutting of the original bamboo and improve the working efficiency of the fixed-length cutting becomes a technical problem which needs to be solved urgently.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that: how to guarantee that former bamboo can improve the work efficiency of fixed length dissection again accurately fixed length dissection becomes the technical problem that needs to solve urgently.

In order to solve the technical problem, the utility model discloses a technical scheme be:

the utility model provides a saw bamboo device, includes centre gripping conveying member, saw cutting mechanism and the positioning mechanism who arranges in proper order along former bamboo direction of delivery:

the clamping conveying piece is used for clamping the peripheral surface of the raw bamboo and driving the raw bamboo to convey along the conveying direction;

the sawing mechanism is used for cutting off the raw bamboo;

the positioning mechanism comprises a buffering material blocking part, a sliding seat, a driving part, an elastic part and a fixed frame, the buffering material blocking part is movably connected to the sliding seat through the elastic part, the sliding seat is movably connected with the fixed frame, and the driving part is used for driving the sliding seat to slide relative to the fixed frame;

the buffering material blocking part is provided with a first position for buffering and positioning the original bamboo and a second position separated from the original bamboo;

in the first position, the buffering material blocking part has a first state of contacting with the raw bamboo and compressing the elastic part;

in the second position, the buffering material blocking part is in a second state of being separated from the original bamboo and the elastic part is reset.

The device further comprises a controller and a sensor, wherein the sensor is connected to the sliding seat and used for sensing signal changes generated by the movement of the buffer material blocking part relative to the sliding seat;

the controller is respectively and electrically connected with the sensor, the sawing mechanism, the clamping conveying piece and the driving piece.

Further, the clamping and conveying piece comprises more than 2 roller bodies capable of moving in opposite directions and a driving motor for driving the roller bodies to rotate, the rotating directions of the 2 roller bodies are opposite, and the axes of the roller bodies are perpendicular to the conveying direction.

Further, still include the support mesa, support the mesa, the support mesa is used for supporting the raw bamboo.

The bamboo cutting machine further comprises a discharging mechanism, wherein the discharging mechanism is arranged between the sawing mechanism and the positioning mechanism, and is used for conveying the cut bamboo sections to the direction perpendicular to the conveying direction.

Further, the discharging mechanism comprises a platform and conveying chains symmetrically arranged in the front and back directions of the platform, the rotating direction of the chains is perpendicular to the conveying direction, shift levers are distributed on the chains at intervals, and the discharging mechanism further comprises a driving part which is used for driving the chains to rotate forwards or reversely.

Further, still include the clout and saw cut the device, the clout saw cuts the device and sets up in the back that the piece is carried for the direction of transportation to the centre gripping.

The device further comprises a lateral limiting mechanism, wherein the lateral limiting mechanism is arranged behind the clamping conveying piece relative to the conveying direction and is used for laterally limiting the raw bamboo.

Further, lateral limiting mechanism comprises two limiting rollers, and the axes of the limiting rollers are perpendicular to the conveying direction.

Further, the two limiting rollers can move oppositely.

The beneficial effects of the utility model reside in that: the peripheral face of the raw bamboo is clamped by a clamping conveying piece, the raw bamboo is conveyed in the axial extension conveying direction by the action of the clamping conveying piece, the buffering material blocking piece is utilized, the movable seat and the fixed frame are mutually matched in specific position relation, the raw bamboo is conveyed to a fixed length, the buffering and deceleration of the elastic piece are firstly obtained, the raw bamboo is stopped at the fixed length position, the sawing point position of the accurately positioned raw bamboo is located at the position of the sawing mechanism, the buffering material blocking piece is driven by the driving piece to be separated from the end part of the raw bamboo, the raw bamboo is sawed by the sawing mechanism, the fixed length cutting of the whole raw bamboo is achieved through the reciprocating circulation, the driving piece drives the buffering material blocking piece to be separated from the end part of the raw bamboo, the rebound of the raw bamboo caused by the resilience force of the elastic piece is avoided, the flatness of the section of the bamboo is ensured, in the structure, the clamping conveying piece is utilized to replace an original linear motion mechanism, the time required for the rebound of the linear motion mechanism is saved, the fixed length cutting of the raw bamboo can reduce the interval time, the working efficiency is improved, the positioning mechanism with the utilization of the specific structure, the raw bamboo is enabled to be close to the conveying of the raw bamboo, the conveying of the raw bamboo can be close to the accurate deceleration, the accurate deceleration of the stopping of the accurate cutting when the raw bamboo can be ensured, and the accurate cutting point position of the accurate cutting.

Drawings

Fig. 1 is a schematic structural view of a bamboo sawing device according to an embodiment of the present invention;

fig. 2 is a schematic structural view of a bamboo sawing device according to an embodiment of the present invention;

FIG. 3 is an enlarged view of portion A of FIG. 2;

description of reference numerals:

1. a clamping conveying member; 11. a roller body; 12. a drive motor; 13. a third guide rail;

2. a sawing mechanism;

3. a positioning mechanism; 31. a buffer material blocking part; 32. a sliding seat; 321. a first guide rail; 33. a drive member; 34. an elastic member; 35. a fixed mount; 351. a second guide rail;

4. a sensor; 41. a transmitting end; 42. a receiving end;

5. supporting the table top;

6. a remainder sawing device;

7. a lateral limiting mechanism; 71. a limiting roller; 72. a telescopic rod; 73. swinging arms;

8. a discharge mechanism; 81. a platform; 82. a conveying chain; 83. a deflector rod;

91. a compression roller; 92. a connecting rod.

Detailed Description

In order to explain the technical content, the objects and the effects of the present invention in detail, the following description is made with reference to the accompanying drawings in combination with the embodiments.

Referring to fig. 1 to 3, the present invention relates to a bamboo sawing device, including a clamping conveying member 1, a sawing mechanism 2 and a positioning mechanism 3 arranged in sequence along the direction of conveying raw bamboo:

the clamping conveying piece 1 is used for clamping the peripheral surface of the raw bamboo and driving the raw bamboo to convey along the conveying direction;

the sawing mechanism 2 is used for cutting off raw bamboos;

the positioning mechanism 3 comprises a buffering material blocking part 31, a sliding seat 32, a driving part 33, an elastic part 34 and a fixed frame 35, the buffering material blocking part 31 is movably connected to the sliding seat 32 through the elastic part 34, the sliding seat 32 is movably connected with the fixed frame 35, and the driving part 33 is used for driving the sliding seat 32 to slide relative to the fixed frame 35;

the buffering material blocking part 31 is provided with a first position for buffering and positioning the original bamboo and a second position separated from the original bamboo;

in the first position, the buffering material blocking part 31 has a first state of contacting with the raw bamboo and compressing the elastic part 34;

in the second position, the buffering material blocking member 31 has a second state of being separated from the raw bamboo and the elastic member 34 is reset.

In the above embodiment, the positions of the first position and the second position may be adaptively adjusted according to the length of the bamboo segment obtained by actually cutting the raw bamboo to a fixed length, so as to meet the requirements of bamboo segments with different lengths.

In the above embodiment, the clamping conveying member 1 may be a conveying belt, a conveying roller, or any other mechanism capable of clamping the outer peripheral surface of the raw bamboo, and by rotating the clamping conveying member 1, the friction force on the surface of the clamping conveying member drives the raw bamboo to move in the conveying direction, the buffering material blocking member 31 may include a material blocking plate and a sliding block, the material blocking plate is fixedly connected to the sliding block, the sliding seat 32 is provided with a first guide rail 321 parallel to the conveying direction, the sliding block is slidably connected to the first guide rail 321, the elastic member 34 is a spring, the elastic direction of the spring is parallel to the conveying direction, one end of the spring is connected to the sliding block, the other end of the spring is connected to the sliding seat 32, and in order to limit the elastic direction of the spring, a guide post may be inserted through the center of the spring; a second guide rail 351 parallel to the conveying direction is arranged at the upper part of the fixed frame 35, and the sliding seat 32 is connected with the second guide rail 351 in a sliding manner; the driving member 33 may be an air cylinder, a hydraulic cylinder, or an electric push rod, one end of the driving member 33 is connected to the fixed frame 35, and the other end of the driving member 33 is connected to the sliding seat 32, and the driving member 33 is configured to drive the sliding seat 32 to move along the second guide rail 351.

According to the working principle of the above embodiment, the clamping conveying member 1 clamps the peripheral surface of the raw bamboo, the friction force between the clamping conveying member 1 and the raw bamboo is utilized to drive the raw bamboo to axially extend the conveying direction for conveying until the end of the raw bamboo contacts the buffering material blocking member 31, the material blocking member is pushed to move along the first guide rail 321 to the conveying direction, the elastic member 34 is compressed, after the material blocking member is pushed to move for a preset stroke, the clamping conveying member 1 stops conveying the raw bamboo, the driving member 33 drives the sliding seat 32 to move along the second guide rail 351 to the conveying direction, the buffering material blocking member 31 is separated from the end of the raw bamboo, at the moment, the buffering material blocking member 31 returns to the original position in the reverse direction of the conveying direction under the action of the elastic member 34, the sawing mechanism 2 cuts the raw bamboo, and the cut bamboo sections fall between the sawing mechanism 2 and the positioning mechanism 3 for collection or are conveyed and collected to the side through the conveying mechanism; at this time, the driving member 33 drives the sliding seat 32 to move back to the initial position along the second guide rail 351 in the reverse direction of the conveying direction; thus circulating.

In the above embodiment, the peripheral surface of the raw bamboo is clamped by the clamping conveying piece 1, the raw bamboo is conveyed along the axial conveying direction by the movement of the clamping conveying piece 1, the raw bamboo is conveyed to a fixed length by the mutual matching of the specific position relation of the buffering material blocking piece 31, the movable seat and the fixed frame 35, the buffering and deceleration of the elastic piece 34 are firstly obtained when the raw bamboo is conveyed to the fixed length, the raw bamboo is stopped at the fixed length position, at the moment, the sawing point of the raw bamboo is accurately positioned at the position of the sawing mechanism 2, the driving piece 33 drives the buffering material blocking piece 31 to be separated from the end part of the raw bamboo, the sawing mechanism 2 is used for sawing the raw bamboo, the reciprocating cycle is used for achieving the fixed-length cutting of the whole raw bamboo, the effect of driving the buffering material blocking piece 31 to be separated from the end part of the raw bamboo by the driving piece 33 is used for avoiding the rebound of the raw bamboo caused by the resilience force of the elastic piece 34, so as to ensure the flatness of the bamboo section, in the above structure, the clamping conveying piece 1 is used for replacing the original linear motion mechanism, the time required for the rebound of the linear motion mechanism, the cutting of the raw bamboo can be reduced, the stopping of the raw bamboo, the bamboo can be used for improving the working efficiency, the efficiency of the bamboo, the accurate cutting of the raw bamboo can be close to the fixed-length of the raw bamboo, the accurate positioning of the raw bamboo can be ensured, and the accurate cutting of the raw bamboo can be matched structure, and the accurate cutting of the raw bamboo can be ensured, and the accurate cutting point of the raw bamboo can be stopped when the raw bamboo can be ensured when the raw bamboo.

As an optional embodiment, the device further comprises a controller and a sensor 4, wherein the sensor 4 is connected to the sliding seat 32, and the sensor 4 is used for sensing a signal change generated by the movement of the buffer material blocking piece 31 relative to the sliding seat 32;

the controller is respectively and electrically connected with the sensor 4, the sawing mechanism 2, the clamping conveying member 1 and the driving member 33.

In the above embodiment, the form of the sensor 4 may be various, and any type of sensor 4 that can generate an induction signal after the buffer material blocking member 31 moves to a specific stroke can be used in this scheme, as a preferred embodiment, the sensor 4 is selected from a proximity switch, that is, the transmitting end 41 of the proximity switch is disposed on the movable seat, and the receiving end 42 of the proximity switch is disposed on the buffer material blocking member 31, when the buffer material blocking member 31 moves to the specific stroke, the optical signal transmitted by the transmitting end 41 of the proximity switch is received by the receiving end 42 to generate the induction signal, the controller receives the induction signal, and according to a preset program, the clamping conveying member 1 is controlled to stop conveying the raw bamboos, the driving member 33 is controlled to drive the movable seat to move, and the sawing mechanism 2 is controlled to saw off the raw bamboos at a fixed length, and then the clamping conveying member 1 is controlled to continue to drive the raw bamboos to convey the raw bamboos in the conveying direction. The controller can be a PLC or a single chip microcomputer, and the PLC is preferably selected.

As an alternative embodiment, the holding conveyor 1 includes more than 2 roller bodies 11 that can move toward each other and a driving motor 12 for driving the roller bodies 11 to rotate, and 2 of the roller bodies 11 rotate in opposite directions, and the axes of the roller bodies 11 are perpendicular to the conveying direction.

In the above embodiment, the two roller bodies 11 may be distributed in a shape like a Chinese character 'ba', or a plurality of (3 or more) roller bodies 11 may be distributed around the circumference of the raw bamboo, or vertically and symmetrically arranged on both sides of the periphery of the raw bamboo, and the roller bodies 11 may be cylindrical, or arc-shaped or funnel-shaped with a narrow middle and wide ends.

In the above embodiment, a third guide rail 13 perpendicular to the conveying direction may be disposed below the roller bodies 11, each roller body 11 is connected to one driving motor 12, an output shaft of each driving motor 12 is directly and coaxially connected to a rotating shaft of the roller body 11, and the two roller bodies 11 are driven to rotate in opposite directions in synchronization, so as to drive the raw bamboo to be conveyed in the conveying direction, and the driving motors 12 are connected to the guide rails in a sliding manner through sliding blocks, and drive the two roller bodies 11 to move in opposite directions in synchronization through driving cylinders or other driving devices (not shown in the figure), so as to clamp the periphery of the raw bamboo.

As an optional embodiment, the bamboo-making machine further comprises a supporting table 5, wherein the supporting table 5 is used for supporting the raw bamboo.

In the above embodiment, the supporting table 5 is parallel to the horizontal plane and is used for supporting the raw bamboo, so that the raw bamboo is conveyed along the horizontal direction, and the stability and precision of the raw bamboo conveying and fixed-length cutting are further improved. Preferably, the axial direction of the roller body 11 is a vertical direction.

In the above embodiment, preferably, a press roller 91 may be disposed above the supporting platform 81, the press roller 91 may be rotatably connected to the connecting rod 92, the upper end of the connecting rod 92 is pivoted to the fixing frame 35, so that the raw bamboo is conveyed in the conveying direction, and the press roller 91 can be pressed against the upper part of the periphery of the raw bamboo under the action of gravity to perform auxiliary positioning, thereby preventing the raw bamboo from jumping.

As an optional embodiment, the bamboo cutting device further comprises a discharging mechanism 8, the discharging mechanism 8 is disposed between the sawing mechanism 2 and the positioning mechanism 3, and the discharging mechanism 8 is used for conveying the cut bamboo segments in a direction perpendicular to the conveying direction.

In the above embodiment, the unloading direction of the unloading mechanism 8 can be any side perpendicular to the conveying direction, that is, the bamboo sections cut by the sawing mechanism 2 in a fixed length can be accumulated and collected on the left or right side of the mechanism through the conveying of the unloading mechanism 8, and compared with a direct blanking mode, the quantity of the bamboo sections stored around the bamboo sawing device can be increased, so that the production efficiency is further improved.

As an optional implementation manner, the discharging mechanism 8 includes a platform 81 and conveying chains 82 symmetrically disposed in front and rear directions of the platform 81, a rotation direction of the chains is perpendicular to the conveying direction, shift levers 83 are spaced on the chains, and the discharging mechanism 8 further includes a driving component for driving the chains to rotate forward or backward.

In the above embodiment, the bamboo segments sawn by the sawing mechanism 2 fall to the platform 81, and the driving part drives the chain to rotate, so that the driving rod 83 on the chain pushes the raw bamboo to one side of the conveying direction, and the raw bamboo drops to one side of the discharging mechanism 8 for collection.

As an alternative embodiment, the device further comprises a residue sawing device 6, and the residue sawing device 6 is arranged behind the clamping conveying member 1 relative to the conveying direction.

In the embodiment above, the effect that the clout saw cut device 6 is used for the fixed length of former bamboo end section to saw cut, and the end section of the former bamboo of hypothesis relies on sawing and cutting mechanism 2 to cut off, and the transport stationarity that relies on the centre gripping to carry piece 1 can descend by a wide margin, and the back end of former bamboo can't obtain sufficient support promptly, can lead to former bamboo in the transportation process to take place the skew to be difficult to guarantee the planarization and the accuracy nature of cutting point position, because the former bamboo end section utilizes the clout to saw cut device 6 and saw cuts, its theory of particularity is: the distance between the excess material sawing device 6 and the sawing mechanism 2 is smaller than or equal to the length of a fixed-length bamboo section, namely, when the fixed-length cutting of the tail section of the raw bamboo is carried out, only a small section of the clamping conveying piece 1 needs to be extended from the front end of the raw bamboo, namely, the sum of the conveying direction distance between the front end of the raw bamboo and the sawing mechanism 2 and the conveying direction distance between the sawing mechanism 2 and the excess material sawing device 6 is equal to the length of the fixed-length cutting of the raw bamboo, so that the tail end of the raw bamboo can be fully utilized.

As an optional embodiment, the bamboo cutting machine further comprises a lateral limiting mechanism 7, the lateral limiting mechanism 7 is arranged behind the clamping conveying member 1 relative to the conveying direction, and the lateral limiting mechanism 7 is used for laterally limiting the raw bamboo.

In the above embodiment, the lateral limiting mechanism 7 is used for realizing two-point positioning in cooperation with the clamping conveying member 1, so that axial conveying of the raw bamboos along the conveying direction is ensured, and the accuracy of fixed-length cutting of the raw bamboos is further improved.

As an alternative embodiment, the lateral limiting mechanism 7 comprises two limiting rollers 71, and the axes of the limiting rollers 71 are perpendicular to the conveying direction.

As an alternative embodiment, the two limit rollers 71 can be moved towards each other.

In the above embodiment, the two limiting rollers 71 preferably move synchronously in opposite directions to ensure centering in the raw bamboo conveying process and stable conveying of the raw bamboo in the conveying direction, and specifically, the telescopic rod 72 can drive the swing arm 73 to drive the limiting rollers 71 to move. Preferably, the axial direction of the limiting roller 71 is the vertical direction.

The above mentioned is only the embodiment of the present invention, and not the limitation of the patent scope of the present invention, all the equivalent transformations made by the contents of the specification and the drawings, or the direct or indirect application in the related technical field, are included in the patent protection scope of the present invention.

Claims (10)

1. Saw bamboo device, its characterized in that includes the centre gripping conveying piece, saw cutting mechanism and the positioning mechanism who arranges in proper order along former bamboo direction of delivery:

the clamping conveying piece is used for clamping the peripheral surface of the raw bamboo and driving the raw bamboo to convey along the conveying direction;

the sawing mechanism is used for cutting off the raw bamboo;

the positioning mechanism comprises a buffering material blocking part, a sliding seat, a driving part, an elastic part and a fixed frame, the buffering material blocking part is movably connected to the sliding seat through the elastic part, the sliding seat is movably connected with the fixed frame, and the driving part is used for driving the sliding seat to slide relative to the fixed frame;

the buffering material blocking part is provided with a first position for buffering and positioning the raw bamboo and a second position separated from the raw bamboo;

in the first position, the buffering material blocking part has a first state of contacting with the raw bamboo and compressing the elastic part;

in the second position, the buffering material blocking part is in a second state of being separated from the original bamboo and the elastic part is reset.

2. The sawbamboo device according to claim 1, further comprising a controller and a sensor, wherein the sensor is connected to the sliding seat, and the sensor is used for sensing a signal change generated by the movement of the buffer material blocking member relative to the sliding seat;

the controller is respectively and electrically connected with the sensor, the sawing mechanism, the clamping conveying piece and the driving piece.

3. The bamboo sawing device according to claim 1, wherein the holding conveyor comprises more than 2 roller bodies movable in opposite directions and a drive motor for driving the roller bodies to rotate, the rotation directions of the 2 roller bodies being opposite, and the axes of the roller bodies being perpendicular to the conveying direction.

4. The sawbamboo device of claim 3, further comprising a support table for supporting raw bamboo.

5. The bamboo sawing device according to claim 1, further comprising a discharge mechanism disposed between the sawing mechanism and the positioning mechanism, the discharge mechanism being configured to convey the severed bamboo segments in a direction perpendicular to the conveying direction.

6. The bamboo sawing device according to claim 5, wherein the discharging mechanism comprises a platform and conveying chains symmetrically arranged in the front and rear directions of the platform, the rotating direction of the chains is perpendicular to the conveying direction, deflector rods are distributed on the chains at intervals, and the discharging mechanism further comprises a driving part for driving the chains to rotate forwards or backwards.

7. The bamboo sawing device according to claim 1, further comprising a surplus material sawing device disposed behind the clamping conveyor with respect to the conveying direction.

8. The bamboo sawing device according to claim 1, further comprising a lateral limiting mechanism disposed behind the clamping conveyor with respect to the conveying direction, the lateral limiting mechanism being configured to limit the lateral position of the raw bamboo.

9. The sawbamboo device according to claim 8, wherein the lateral limiting mechanism comprises two limiting rollers, the axes of which are perpendicular to the conveying direction.

10. The sawbamboo device according to claim 9, wherein the two stop rollers are movable towards each other.

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