CN214718455U - Automatic sieve material feed mechanism - Google Patents
Automatic sieve material feed mechanism Download PDFInfo
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- CN214718455U CN214718455U CN202120798999.4U CN202120798999U CN214718455U CN 214718455 U CN214718455 U CN 214718455U CN 202120798999 U CN202120798999 U CN 202120798999U CN 214718455 U CN214718455 U CN 214718455U
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Abstract
The application discloses automatic sieve material feed mechanism, including the feed mechanism frame, feed mechanism frame top is equipped with die-pin frame and drive mechanism, the last conveyer belt that takes the separation blade that is equipped with of drive mechanism, the lower part is equipped with the hopper bottom plate in the feed mechanism frame, hopper bottom plate top is equipped with multistage sieve flitch, be equipped with the recess on the multistage sieve flitch, multistage sieve flitch is fixed in feed mechanism frame both sides. Its advantage lies in, this automatic sieve material feed mechanism has realized that material (fishing rod) is screened, is carried the function of predetermined station, and this mechanism material loading is stable, reliable, easy and simple to handle, adjust accurate, production efficiency height.
Description
Technical Field
The application belongs to the field of automatic control, and particularly relates to an automatic screening and feeding mechanism and a using method.
Background
As is well known, a fishing rod is a fishing tool, the shape of the fishing rod is a slender multi-section rod-shaped object, a handle is usually arranged, the fishing rod is gradually thinned and sharpened from the handle to the rear end, a fishing line is used for connecting a fishhook with bait for use, the fishing rod is a tool for human beings to fish and live, the fishing rod is usually used for fishing leisure in outdoor sports and can be used for sports or outdoor competitions of some fishing competition types, the fishing rod needs to be fed with the fishing rod to be processed during processing, subsequent processing production is facilitated, the fishing rod is usually fed by operators one by one rod, the operation is complicated, manpower is consumed, manual feeding is easy to cause untimely feeding, the feeding position is inaccurate, inconvenience is caused for subsequent processing, and the practicability is reduced.
SUMMERY OF THE UTILITY MODEL
Based on the above problem, the application provides a screening precision is high, simple structure, the process is smooth-going, efficient, small to the material loading process receives detection control. The technical proposal is that the method comprises the following steps,
the utility model provides an automatic sieve material feed mechanism, includes the feed mechanism frame, feed mechanism frame top is equipped with die-pin frame and drive mechanism, the last conveyer belt that takes the separation blade that is equipped with of drive mechanism, the lower part is equipped with the hopper bottom plate in the feed mechanism frame, hopper bottom plate top is equipped with multistage sieve flitch, be equipped with the recess on the multistage sieve flitch, multistage sieve flitch is fixed in feed mechanism frame both sides.
Preferably, the grooves on the multi-stage sieve material plate are in a sawtooth shape, and the bottoms of the grooves are positioned between the baffle plates of the conveying belt.
Preferably, one side of the bottom of the hopper bottom plate is fixedly connected with a hopper side plate.
Preferably, the multistage sieve flitch is equipped with the marking to adjust the seat through the sieve pole board and install in conveyer belt bottom, hopper bottom plate top.
Preferably, the feeding mechanism frame is provided with a neat rod baffle which is positioned above the sieve rod plate adjusting seat, and the neat rod baffle and the hopper side plate are positioned at two sides of the feeding mechanism frame.
Preferably, a lifting cylinder is arranged on the feeding mechanism frame and is positioned below the supporting rod frame.
Preferably, the top of the feeding mechanism frame is provided with an in-place stop switch, the in-place stop switch is mounted on the feeding frame through a fixing support and is located at the rear part of the conveying belt and the side edge of the feeding final position and used for detecting that the material rods are in place and transmitting signals to stop the conveying belt, and the position of the position stop switch can also be adjusted on the frame and used for detecting the material rods with different sizes or shapes.
Preferably, a feeding confirmation switch is arranged at the top of the feeding mechanism frame, and the feeding confirmation switch is mounted on the feeding frame and located at the rear part of the conveying belt and the side edge of the feeding final position, and is used for detecting whether the feeding quantity is consistent with the set feeding quantity.
A use method of an automatic screening and feeding mechanism comprises the following steps,
s1, firstly, adjusting a hopper side plate, a multi-stage material screening plate, a rod aligning baffle, an in-place stop switch and a feeding confirmation switch to be suitable for storage, screening and detection of new materials;
s2, starting a switch, starting a conveyer belt to rotate, taking the material rods from a hopper by a vertical plate in a conveyer belt interval section, possibly taking a plurality of material rods in one interval section, screening by a multi-stage screening plate, pulling down redundant material rods in each interval section, only leaving one material rod in each interval section, conveying the material rods backwards along with the conveyer belt, and in the conveying process, contacting the end parts of the material rods with a rod aligning baffle plate, and enabling the conveyed material rods to be arranged regularly by the rod aligning baffle plate and continuing conveying;
s3, when the in-place stop switch detects that the material rods are in place and transmits signals to the control system, the control system instructs the driving mechanism to stop rotating to stop the conveying belt, meanwhile, the feeding confirmation switch detects whether the number of the conveyed material rods is consistent with the set feeding number, if so, the signals are transmitted to the control system, the control system instructs the lifting cylinder to act, the lifting cylinder drives the bracket to ascend, and the material rods are lifted to a fixed position from a conveying time segment; if the two signals are inconsistent, the signals are transmitted to the control system to prevent the lifting cylinder from acting.
Advantageous effects
1. The conveying rod with a plurality of baffle plates for the conveying belt can convey a plurality of fishing rods at one time, which is an innovative application in the industry.
2. The structure and the installation requirement of the multistage sieve flitch are the key of screening, and the high accuracy of sieve pole board adjusting seat area scale-quantization is adjusted, can satisfy the fishing rod of different diameters.
3. The mechanism is provided with a detection in-place stop switch and a detection confirmation feeding switch, so that a control instruction can be provided for subsequent procedures, and the paint pulling accident is avoided.
4. The rod aligning baffle ensures that the positions of all feeding rods are neat after the feeding rods are in place.
5. The hopper side plate, the multistage material sieving plate, the rod aligning baffle, the in-place detection switch and the confirmation feeding switch are all adjustable so as to adapt to different material rods.
6. The mechanism has small volume and stable feeding.
Drawings
FIG. 1 is a perspective view;
FIG. 2 is a front view;
FIG. 3 is a rear view;
FIG. 4 is a top view;
101-hopper side plate, 102-hopper bottom plate, 103-hopper side plate adjusting mechanism, 201-conveying belt, 202-feeding mechanism frame, 203-multi-stage sieve rod plate, 204-sieve rod plate adjusting seat, 205-aligning rod baffle, 206-in-place stop switch, 207-feeding confirmation switch, 208-lifting cylinder, 209-supporting rod frame and 210-driving transmission mechanism.
Detailed Description
The following detailed description is exemplary and is intended to provide further explanation of the invention as claimed. Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs. It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of example embodiments according to the present application.
The utility model provides an automatic sieve material feed mechanism, includes feed mechanism frame 202, feed mechanism frame 202 top is equipped with die-pin frame 209 and drive transmission 210, the last conveyer belt 201 that takes the separation blade that is equipped with of drive transmission 210, the lower part is equipped with hopper bottom plate 102 in the feed mechanism frame 202, hopper bottom plate 102 top is equipped with multistage sieve flitch 203, be equipped with the recess on the multistage sieve flitch 203, the recess becomes the cockscomb structure, and the recess bottom is located between the separation blade of conveyer belt 201. The fishing rods with different diameters are met by adjusting the distance between the grooves formed in the multistage screening plates 203 and the blocking pieces of the conveying belt 201, and the multistage screening plates 203 are fixed on two sides of the feeding mechanism frame 202.
And a hopper side plate 101 is fixedly connected with one side of the bottom of the hopper bottom plate 102. The hopper bottom plate 102 is fixed on the feeding mechanism frame 202, the hopper bottom plate 102 has a certain inclination, so that the material rods can automatically roll to the conveying belt 201 conveniently, the hopper side plates 101 are fixed with the hopper side plate adjusting mechanism 103, and the hopper side plates 101 can laterally move to adapt to the material rods with different lengths by adjusting the hopper side plate adjusting mechanism.
The multistage sieve plate 203 is provided with marked lines and is arranged at the bottom of the conveying belt and above the hopper bottom plate 102 through a sieve plate adjusting seat 204. The sieve rod plate adjusting seat 204 can be adjusted in parallel with the plane direction of the conveying belt, and scales are arranged on the sieve rod plate adjusting seat 204, so that the sieve rod plate adjusting seat is suitable for feeding and screening materials with different rod diameters or tapered material rods. The feeding mechanism frame 202 is provided with a rod aligning baffle 205, the rod aligning baffle 205 is positioned above the sieve rod plate adjusting seat 204, and the rod aligning baffle 205 and the hopper side plate 101 are positioned at two sides of the feeding mechanism frame 202.
The rod aligning baffle 205 is installed on the frame of the feeding mechanism and is positioned on the middle part of the conveying belt and on the side edge of the feeding middle position. The rod aligning baffle plate can be adjusted in parallel with the side direction of the conveying belt, so that the rod aligning baffle plate is suitable for the rod aligning requirements of different material rods.
The feeding mechanism is characterized in that an in-place stop switch is arranged at the top of the feeding mechanism frame, the in-place stop switch is mounted on the feeding frame through a fixing support and is located at the rear part of the conveying belt and the side edge of the feeding final position and used for detecting that the material rods are in place and transmitting signals to stop the conveying belt, and the position stop switch can also be adjusted on the frame and used for detecting the material rods with different sizes or shapes.
The feeding mechanism comprises a feeding mechanism frame, a feeding mechanism and a feeding mechanism, wherein a feeding confirmation switch is arranged at the top of the feeding mechanism frame, is arranged on the feeding frame and is positioned at the rear part of a conveying belt and the side edge of a feeding final position and used for detecting whether the feeding quantity is consistent with the set feeding quantity.
The feeding mechanism frame 202 is provided with a lifting cylinder 208, and the lifting cylinder 208 is positioned below the supporting rod frame 209. When the in-place stop switch 206 detects that the material rod is in place, the conveyor belt stops rotating, and meanwhile, the material loading confirmation switch 207 detects that the material loading quantity is consistent with the set material loading quantity, and then the lifting cylinder 208 drives the bracket 209 to ascend, so that the material rod is lifted to the fixed position.
A use method of an automatic screening and feeding mechanism comprises the following steps,
for a batch of new material rods, the hopper side plate 101, the multi-stage sieve plate 203, the rod aligning baffle plate 205, the in-place stop switch 206 and the feeding confirmation switch 207 are adjusted to be suitable for storage, screening and detection of new materials. Starting a switch, starting the conveyer belt 201 to rotate, taking the material rods from the hopper by the vertical plates in the time intervals of the conveyer belt 201, possibly taking a plurality of material rods in one time interval, then screening by the multistage material screening plate 203, pulling off the redundant material rods in each time interval, only leaving one material rod in each time interval, conveying the material rods backwards along with the conveyer belt 201, in the conveying process, contacting the end parts of the material rods with the aligning baffle plate 205, enabling the conveyed material rods to be orderly arranged by the aligning baffle plate 205, and continuing conveying, when the in-place stop switch 206 detects that the material rods are in place and transmits a signal to the control system 000, the control system 000 instructs the driving transmission mechanism 210 to stop rotating, stopping the conveyer belt, meanwhile, the feeding confirmation switch 207 detects whether the number of the conveyed material rods is consistent with the set feeding number, transmitting a signal to the control system, the control system 000 instructs the lifting cylinder 208 to act, the lifting cylinder 208 drives the bracket 209 to rise, lifting the material rod to a fixed position from the conveying section; if not, a signal is sent to the control system 000 to disable the lift cylinder 208.
The above description is only a preferred embodiment of the present application and is not intended to limit the present application, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present application shall be included in the protection scope of the present application.
Claims (8)
1. The utility model provides an automatic sieve material feed mechanism, its characterized in that, includes the feed mechanism frame, feed mechanism frame top is equipped with die-pin frame and drive mechanism, the last conveyer belt that takes the separation blade that is equipped with of drive mechanism, the lower part is equipped with the hopper bottom plate in the feed mechanism frame, hopper bottom plate top is equipped with multistage sieve flitch, be equipped with the recess on the multistage sieve flitch, multistage sieve flitch is fixed in feed mechanism frame both sides.
2. The automatic screen feeding mechanism of claim 1, wherein the grooves on the multi-stage screen plates are serrated, and the bottoms of the grooves are located between the baffle plates of the conveyor belt.
3. The automatic feeding mechanism for sieving materials of claim 1, wherein one side of the bottom of the hopper bottom plate is fixedly connected with a hopper side plate.
4. The automatic screen feeding mechanism of claim 1, wherein the multi-stage screen plates are provided with marked lines and are arranged at the bottom of the conveying belt and above the hopper bottom plate through screen rod plate adjusting seats.
5. The automatic screen material feeding mechanism of claim 1, wherein the feeding mechanism frame is provided with a level bar baffle which is located above the screen bar plate adjusting seat, and the level bar baffle and the hopper side plate are located at two sides of the feeding mechanism frame.
6. The automatic screen material feeding mechanism of claim 1, wherein a lifting cylinder is arranged on the feeding mechanism frame, and the lifting cylinder is positioned below the supporting rod frame.
7. The automatic feeding mechanism for sieving material of claim 1, wherein the top of the frame of the feeding mechanism is provided with a position stop switch, the position stop switch is mounted on the feeding frame through a fixing bracket and is located at the rear part of the conveyer belt and at the side of the feeding end position for detecting the position of the material rod and transmitting a signal to stop the conveyer belt, or the position stop switch is adjusted on the frame of the feeding mechanism for detecting the material rods with different sizes or shapes.
8. The automatic feeding mechanism for screen material as claimed in claim 1, wherein the top of the frame of the feeding mechanism is provided with a feeding confirmation switch, and the feeding confirmation switch is mounted on the feeding frame and located at the rear of the conveyer belt and at the side of the feeding final position for detecting whether the feeding amount is consistent with the set feeding amount.
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CN202120798999.4U CN214718455U (en) | 2021-04-19 | 2021-04-19 | Automatic sieve material feed mechanism |
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CN202120798999.4U CN214718455U (en) | 2021-04-19 | 2021-04-19 | Automatic sieve material feed mechanism |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN112958459A (en) * | 2021-04-19 | 2021-06-15 | 山东威博锐智能装备有限公司 | Automatic screening and feeding mechanism and using method |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN112958459A (en) * | 2021-04-19 | 2021-06-15 | 山东威博锐智能装备有限公司 | Automatic screening and feeding mechanism and using method |
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