CN210754849U - Feeding device of automatic straightening machine - Google Patents

Abstract

The utility model discloses an automatic loading attachment of straightener, relate to the technical field of straightener, including the straightener, straightener one side is equipped with the pay-off platform, the pay-off bench is equipped with the conveyer belt, conveyer belt advancing direction is towards the feed inlet department of straightener, the pay-off platform upside is the slope setting, the conveyer belt is in the highly minimum border department of pay-off platform, and the upside of conveyer belt is less than the upside of pay-off platform, the vertical one side that the conveyer belt was kept away from to the pay-off platform is equipped with the pay-off case, it is provided with the delivery sheet to slide from top to bottom in the pay-off case, the vertical one side setting that the pay-off platform was pasted to the delivery sheet, the upside slope setting of delivery sheet, the border department that the pay-off platform was kept away from to the delivery sheet is. The utility model discloses a pay-off board sends branch to the pay-off bench, and the rethread conveyer belt sends branch to the straightener in to reduce manual operation, reduced the possibility that the robot hindered the people, improved the machining efficiency of straightener.

Description

Feeding device of automatic straightening machine

Technical Field

The utility model belongs to the technical field of the technique of straightener and specifically relates to a loading attachment of automatic straightener is related to.

Background

Generally, an electric vehicle or a motorcycle is required to be equipped with a rear view mirror, which is a tool for directly acquiring external information such as rear, side, and lower directions when a driver drives the vehicle. The occurrence of traffic safety accidents is reduced, and the personal safety is guaranteed.

The rear-view mirror comprises branch and mirror, and branch is obtained by longer reinforcing bar hair cutting, and reinforcing bar hair probably has the condition of self buckling when transporting and making, but when carrying out the shearing processing to reinforcing bar hair, reinforcing bar hair also probably produces and buckles to there is the condition of buckling by the branch that reinforcing bar hair sheared and obtained. When the bent supporting rod is processed in the next step, the bent supporting rod needs to be straightened, so that the next step of processing the supporting rod is facilitated, and the processing quality of the supporting rod is improved.

Current bar straightening in-process is through utilizing the manual work to grip branch, places branch in the straightener to carry out the alignment operation to branch, when through artifical towards straightener material loading, the distance of staff apart from the straightener is less, thereby probably hurts the staff at the straightener during operation, and artifical material loading efficiency is lower.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a replace artifical alignment machine material loading of orientation to improve the loading attachment of an automatic straightener of branch alignment efficiency.

The utility model discloses a can realize through following technical scheme:

the feeding device of the automatic straightener comprises the straightener, a feeding table is arranged on one side of the straightener, a conveying belt is arranged on the feeding table, the advancing direction of the conveying belt faces to the feeding port of the straightener, the upper side of the feeding table is in inclined arrangement, the conveying belt is located at the edge with the lowest height of the upper side of the feeding table, the upper side of the conveying belt is lower than the upper side of the feeding table, a feeding box is arranged on one vertical side, away from the conveying belt, of the feeding table, a feeding plate is arranged in the feeding box in a vertically sliding mode, the feeding plate is arranged in a mode of being attached to one vertical side of the feeding table, the upper side of the feeding plate is in inclined arrangement, the edge, away from the feeding table, of the feeding plate is higher, and a sliding assembly for driving the feeding plate to slide up and down is arranged between the feeding.

By adopting the technical scheme, when the support rod is straightened, the support rod is firstly placed in the feeding box, when the feeding plate is at the lowest position, the upper side of the feeding plate is flush with the inner bottom side of the feeding box, at the moment, the support rod is slidingly accumulated on the upper side of the feeding plate, the sliding assembly drives the feeding plate to slide upwards so as to drive the support rod on the feeding plate to ascend, when the feeding plate ascends to be flush with the upper side of the feeding table, the support rod slides to the feeding table due to the inclined plane on the upper side of the feeding plate and slides to the conveying belt along the inclined plane of the feeding table, and the support rod enters the straightening machine for processing along with the conveying belt, so that the feeding operation of the straightening;

the upper side of the feeding plate is obliquely arranged, so that when the upper side of the feeding plate rises, the supporting rod continuously props against the side wall of the feeding table, the supporting rod is not easy to fall off, and the feeding efficiency of the feeding plate is ensured; the feeding table is used for feeding the support rods through the feeding plate, the support rods are located on the conveying belt along with rolling of the support rods and are conveyed into the straightening machine through the conveying belt, manual operation is reduced, manpower is saved, the possibility that a robot hurts a person is reduced, and the machining efficiency of the straightening machine is improved.

Further setting the following steps: the sliding assembly comprises a threaded screw rod, a connecting plate and a driving motor, the threaded screw rod is vertical in axis and is rotatably installed on the outer side of the feeding box, the connecting plate is fixed to one vertical side of the feeding plate, the connecting plate extends to the outer side of the feeding box, the threaded screw rod vertically penetrates through the connecting plate and is in threaded connection with the connecting plate, and the driving motor is in transmission connection with the threaded screw rod.

Through adopting above-mentioned technical scheme, driving motor drives the screw lead screw and rotates, because connecting plate and screw lead screw threaded connection to connecting plate and delivery sheet slide from top to bottom, with this make things convenient for the delivery sheet to deliver to the pay-off platform upside with branch, wherein the screw lead screw rotates and drives the delivery sheet and slide from top to bottom, and the delivery sheet slides from top to bottom smoothly, and difficult production is rocked, thereby branch on the delivery sheet is difficult for being shaken off.

Further setting the following steps: the feeding box is internally provided with a baffle plate, a gap is reserved between the baffle plate and the inner bottom wall of the feeding box, and the feeding box is divided into a material storage area and a feeding area by the baffle plate.

Through adopting above-mentioned technical scheme, branch leaves the storage area in advance, and the baffle has restricted the quantity that branch got into the feeding area to branch quantity in the feeding area is controlled and can not pile up the height, thereby the delivery sheet is difficult for driving a plurality of branches simultaneously and arrives on the pay-off bench, with this quality of having improved branch processing, and through depositing a large amount of branches in the storage area, has reduced the material loading number of times, thereby has saved the manpower.

Further setting the following steps: the baffle is characterized in that an adjusting plate slides up and down on one side of the baffle, and the adjusting plate and the baffle are provided with limiting assemblies for limiting the sliding of the adjusting plate.

Through adopting above-mentioned technical scheme, through the slip regulating plate to this clearance of adjusting the baffle and pay-off case bottom side, thereby adjust the flow that branch passed through the baffle, with the content of this control material loading district inner support rod, thereby reduced many spinal branchs branch and taken to the possibility of pay-off platform simultaneously.

Further setting the following steps: the limiting assembly comprises two locking bolts, the two locking bolts penetrate through the adjusting plate perpendicularly, two through locking grooves are formed in one side of the baffle, the two locking bolts are arranged in the two locking grooves in a sliding mode respectively, and the two locking bolts penetrate through the nuts in threaded connection with one ends of the baffle.

Through adopting above-mentioned technical scheme, according to the branch quantity in the storage area to slide adjusting plate and the clearance of bottom side in adjustable fender and the pay-off case, locking bolt slides in locking this moment, accomplishes the back when adjusting, can accomplish the locking to the adjusting plate through screwing up lock nut, has made things convenient for the height of adjusting plate.

Further setting the following steps: the width of the upper side of the feeding plate is consistent with the diameter of the support rod.

Through adopting above-mentioned technical scheme, when delivery sheet bearing branch rose, be difficult for having a plurality of branches by the bearing simultaneously to reduced a plurality of branches and be in the possibility of pay-off platform upside simultaneously, in order to this processing that makes the bar straightener.

Further setting the following steps: the conveyer belt is close to the one end of straightener extends to the outside of pay-off platform, the conveyer belt extends one section upside in the conveyer belt outside is equipped with the protective housing, the protective housing cross-section is "Contraband" shape setting.

Through adopting above-mentioned technical scheme, branch marchs to the processing in the alignment machine on the conveyer belt, and branch probably appears violent vibration in the course of working, for reducing branch and break away from the possibility of conveyer belt because the vibration, the protective housing has restricted branch and has rocked in the protective housing to the possibility that branch left the conveyer belt has been reduced.

Further setting the following steps: an anti-falling plate is fixed on the upper side of the feeding table, the length direction of the anti-falling plate is consistent with the advancing direction of the conveying belt, and the anti-falling plate is positioned at the edge with the lowest height on the upper side of the feeding table.

Through adopting above-mentioned technical scheme, the pay-off board is sent branch to the pay-off bench back, and branch rolls towards the low department of pay-off bench upside at self action of gravity, and branch probably rolls through the conveyer belt, prevents that the board that falls blocks rolling branch to reduce the branch and roll the possibility of leaving the pay-off platform.

To sum up, the utility model discloses a beneficial technological effect does:

(1) when the support rod is straightened, the support rod is firstly placed in the feeding box, the support rod is sequentially lifted and conveyed to the feeding table through the feeding plate, and the support rod on the feeding table enters the straightening machine for processing through the conveying of the conveying belt, so that the phenomenon that the manual work is close to the straightening machine is reduced, the labor is saved, and the straightening processing efficiency of the support rod is improved;

(2) baffle and regulating plate have restricted the branch quantity in the material loading district to when the pay-off board rises the pay-off, be difficult for having a plurality of branches stack at the pay-off board upside, thereby the pay-off bench is difficult for having a plurality of branches simultaneously, makes the straightening machine processing orderly with this, has improved the efficiency of branch processing.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the present invention showing the construction of the de-straightener;

FIG. 3 is a cross-sectional view taken along line A-A of FIG. 2;

fig. 4 is a partial schematic structural view of the material pushing plate and the material pushing assembly of the present invention;

fig. 5 is a schematic view of a partial structure of the material pushing plate and the return assembly of the present invention.

Reference numerals: 1. straightening machine; 2. a feeding table; 3. a conveyor belt; 4. a feeding box; 5. a feeding plate; 6. a threaded lead screw; 7. a connecting plate; 8. a drive motor; 9. a baffle plate; 10. a material storage area; 11. a feeding area; 12. an adjusting plate; 13. locking the bolt; 14. a locking groove; 15. a protective shell; 16. a falling prevention plate; 17. a material pushing plate; 18. mounting a plate; 19. a driven gear; 20. a half gear; 21. a material pushing motor; 22. a return spring; 23. and a return plate.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1 and 2, for the utility model discloses an automatic loading attachment of straightener, including straightener 1, straightener 1 one side is equipped with pay-off platform 2, is equipped with conveyer belt 3 on the pay-off platform 2, and pay-off platform 2 one side is fixed with the conveying motor that is used for driving conveyer belt 3 and marchs. The advancing direction of the conveyor belt 3 is consistent with the length direction of the feeding table 2 and faces to the feeding port of the straightener 1. The upper side of the feeding table 2 is obliquely arranged and gradually inclines along the width direction of the feeding table 2, and the conveyor belt 3 is positioned at the edge with the lowest height on the upper side of the feeding table 2. The conveying groove with the length direction being consistent with the length direction of the feeding table 2 is formed in the upper side of the feeding table 2, and the conveying belt 3 is arranged in the conveying groove, so that the upper side of the conveying belt 3 is lower than the upper side of the feeding table 2. An anti-falling plate 16 which is consistent with the length direction of the feeding table 2 is fixed on the upper side of the feeding table 2, and the anti-falling plate 16 is positioned at the edge with the lowest height on the upper side of the feeding table 2. Thereby place branch on feeding table 2, branch rolls to conveyer belt 3 along the inclined plane of feeding table 2 on to branch gets into straightener 1 along advancing of conveyer belt 3 in, with this processing to completion to branch.

Referring to fig. 2 and 3, one end of the conveyor belt 3 close to the straightener 1 extends to the outer side of the feeding table 2, a conveying plate is arranged on the lower side of one section of the conveyor belt 3 extending out of the feeding table 2, and the conveying plate is fixed on one side of the feeding table 2. Protective housing 15 is equipped with to one section upside that conveyer belt 3 extended the conveyer belt 3 outside, and protective housing 15 cross-section of conveyer belt 3 is "Contraband" shape setting, and protective housing 15 erects and just fixes in conveying board upside with conveyer belt 3 top. 3 one end of conveyer belt extends the feed inlet department of straightener 1, and branch is by conveyer belt 3 in the straightener 1 that form advancing gradually, and branch is by the alignment processing gradually, and branch adds man-hour, and protective housing 15 has alleviateed rocking of branch on the conveyer belt 3 to branch is difficult to break away from conveyer belt 3 when adding man-hour.

Referring to fig. 2 and 3, vertical one side that conveyer belt 3 was kept away from to pay-off platform 2 is equipped with pay-off box 4, and pay-off box 4 is upside open form, and pay-off box 4 pastes and leans on pay-off platform 2 to set up, and pay-off box 4 pastes and leans on one side of pay-off platform 2 to be the opening setting. The inner bottom side of the feeding box 4 is obliquely arranged, and the inner bottom wall of the feeding box 4 is lowest at the edge close to the feeding platform 2. The feeding plate 5 is arranged in the feeding box 4 in a sliding mode up and down, and the feeding plate 5 is arranged on one vertical side, away from the conveying belt 3, of the feeding table 2 in a clinging mode. The upside slope of delivery sheet 5 sets up, and delivery sheet 5 keeps away from the border department of pay-off platform 2 higher. The width of the upper side of the feeding plate 5 is consistent with the diameter of the support rods, so that the feeding plate 5 is not easy to support a plurality of support rods at one time. A sliding component for driving the feeding plate 5 to slide up and down is arranged between the feeding box 4 and the feeding plate 5. When feed plate 5 was in the minimum, the highest point of feed plate 5 upside and the interior bottom side parallel and level of pay-off case 4 this moment, when feed plate 5 droops under the high point, the lowest border of the upside of feed plate 5 and the highest border coincidence of pay-off platform 2 upside, and the downside of feed plate 5 was less than the interior bottom side of pay-off case 4 this moment. When branch in the pay-off case 4 rolled 5 upsides of delivery sheet, the subassembly that slides this moment drove delivery sheet 5 and rises to branch is driven and rises to 2 upsides of pay-off platform, and branch rolls on the inclined plane of delivery sheet 5 and pay-off platform 2 and moves to conveyer belt 3 on, thereby accomplish the material loading to straightener 1 completion.

Referring to fig. 2 and 3, the slide assembly includes a screw 6, a connection plate 7, and a driving motor 8. Two horizontal and opposite lug plates are fixed on the outer wall of the feeding box 4, and the axis of the threaded screw rod 6 is vertical and is rotatably installed between the two lug plates. Connecting plate 7 is fixed with the vertical one side of delivery sheet 5, and connecting plate 7 extends the outside of pay-off case 4, and threaded screw 6 wears to locate connecting plate 7 perpendicularly and with connecting plate 7 threaded connection. The driving motor 8 is a servo motor capable of rotating forwards and backwards, the driving motor 8 is fixed on an ear plate, and an output shaft of the driving motor is coaxially and fixedly connected with the threaded screw rod 6. The driving motor 8 drives the threaded screw rod 6 to rotate, and the connecting plate 7 is in threaded connection with the threaded screw rod 6, so that the connecting plate 7 and the feeding plate 5 slide up and down along with the rotation of the threaded screw rod 6.

Referring to fig. 2 and 4, when the support rod is not easy to roll, the upper side of the feeding table 2 is provided with a material pushing plate 17 for pushing the support rod on the upper side of the feeding plate 5, two opposite and vertical mounting plates 18 are fixed on the upper side of the feeding table 2, the two mounting plates 18 are respectively located on two opposite edges of the feeding table 2, and the two mounting plates 18 are located on the edge with the highest height on the upper side of the feeding table 2. The material pushing plate 17 is rotatably mounted between two mounting plates 18, and one of the mounting plates 18 is provided with a material pushing assembly for driving the material pushing plate 17 to rotate. When the material pushing plate 17 is vertical, the lower side of the material pushing plate 17 abuts against the upper side of the feeding table 2, when the material pushing plate 17 is driven to rotate, the material pushing plate 17 rotates towards the side departing from the feeding table 2, and a space for placing the rods on the feeding plate 5 and the feeding plate 5 is reserved between the material pushing plate 17 and the feeding table 2. Thereby scraping wings 17 rotates to the tilt state, and the delivery sheet 5 drives branch and rises to the delivery table 2 upside this moment, and the pushing equipment drives scraping wings 17 and rotates to vertical state this moment, and scraping wings 17 rotates and pushes away branch and moves to the delivery sheet 5 from the delivery sheet 5 on to supplementary branch rolls on delivery table 2.

Referring to fig. 2 and 4, the pushing assembly comprises a driven gear 19, a half gear 20 and a pushing motor 21, wherein the driven gear 19 and the rotating shaft of the pushing plate 17 are coaxially fixed, the half gear 20 is rotatably installed on one side of the mounting plate 18, which is far away from the pushing plate 17, and the half gear 20 is meshed with the driven gear 19. An L-shaped motor plate is fixed on one side, away from the material pushing plate 17, of the mounting plate 18 provided with the half gear 20, one end of the motor plate is fixed on the mounting plate 18, one side of the motor plate is parallel to the mounting plate 18, the material pushing motor 21 is fixed on one side, away from the mounting plate 18, of the motor plate, and an output shaft of the material pushing motor 21 is coaxially fixed with the half gear 20. Pushing material motor 21 semi-gear 20 rotates, and semi-gear 20 drives driven gear 19 and rotates and drive scraping wings 17 and rotate to the tilt state, and feeding plate 5 drives branch and rises to the 2 upside of pay-off platform this moment, and semi-gear 20 loses the meshing with driven gear 19 this moment, and scraping wings 17 rotates to vertical under the effect of gravity this moment to this scraping wings 17 plays the pushing action to the branch of feeding plate 5 upside.

Referring to fig. 2 and 5, in order to return the material pushing plate 17 from the inclined state to the vertical state in time, a return spring 22 is fixed on one side of the material pushing plate 17, a return plate 23 is fixed on one side of the mounting plate 18 opposite to the material pushing plate 17, and one end of the return spring 22 far away from the material pushing plate 17 is fixed on the return plate 23. So that when the material pushing plate 17 rotates, the return spring 22 is stretched, and when the half gear 20 and the driven gear 19 lose the engagement, the elastic force of the return spring 22 drives the material pushing plate 17 to rotate to the vertical position.

Referring to fig. 2 and 3, baffle 9 is arranged in feeding box 4, baffle 9 is parallel to feeding plate 5, a gap is left between baffle 9 and the inner bottom wall of feeding box 4, and feeding box 4 is divided into material storage area 10 and material loading area 11 by baffle 9. An adjusting plate 12 slides up and down on one side of the baffle plate 9, and a limiting component used for limiting the sliding of the adjusting plate 12 is arranged on the adjusting plate 12 and the baffle plate 9. Branch is placed and is stored in storage area 10, through baffle 9 and regulating plate 12 restriction branch get into the quantity of material loading district 11 to branch in the unloading department is difficult for piling up too high, thereby 5 upsides of delivery sheet are difficult for piling up a plurality of branches, and when the delivery sheet 5 was slided upward, be difficult for having a plurality of branches simultaneously and transported to pay-off platform 2 on, thereby guaranteed straightening machine 1's normal operating. And a plurality of struts are placed at one time in the material storage area 10, so that the number of times of feeding the struts into the feeding box 4 is reduced, and the machining efficiency of the struts is improved.

Referring to fig. 2 and 3, the limiting assembly comprises two locking bolts 13, the two locking bolts 13 penetrate through the adjusting plate 12 perpendicularly, two penetrating locking grooves 14 are formed in one side of the baffle plate 9, and the length directions of the two locking grooves 14 are vertically arranged. The two locking bolts 13 are respectively arranged in the two locking grooves 14 in a sliding manner, and nuts are connected to one ends of the two locking bolts 13 penetrating through the baffle 9 in a threaded manner. The height of the adjusting plate 12 can be adjusted by loosening the nut, so that the size of the gap between the adjusting plate 12 and the inner bottom side of the feeding box 4 is adjusted, and the number of the support rods in the blanking area is conveniently adjusted. The nut is screwed down, and the position of the adjusting plate 12 can be fixed through the threaded matching of the locking bolt 13 and the nut.

The implementation principle and the beneficial effects of the embodiment are as follows:

when the support rod is straightened, the support rod is firstly placed in the feeding box 4, when the feeding plate 5 is at the lowest position, the upper side of the feeding plate 5 is parallel and level with the inner bottom side of the feeding box 4, at the moment, the support rod is slidingly accumulated on the upper side of the feeding plate 5, the sliding component drives the feeding plate 5 to slide upwards so as to drive the support rod on the feeding plate 5 to ascend, when the feeding plate 5 ascends to be parallel and level with the upper side of the feeding table 2, the pushing component is pushed to push the support rod to the feeding table 2, the support rod slides to the conveying belt 3 along the inclined plane of the feeding table 2, the support rod enters the straightening machine 1 along with the conveying of the conveying belt 3 to be machined, thereby completing the feeding operation of the straightening machine 1, the support rod is conveyed to the feeding table 2 through the feeding plate 5 and is positioned on the conveying belt 3 along with the rolling of the support rod, and is conveyed to the straightening machine 1 by, the possibility of the robot injuring the person is reduced, and the processing efficiency of the straightener 1 is improved.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (8)

1. The utility model provides an automatic loading attachment of bar straightener which characterized in that: comprises a straightener (1), a feeding table (2) is arranged on one side of the straightener (1), a conveying belt (3) is arranged on the feeding table (2), the advancing direction of the conveying belt (3) faces to the feeding port of the straightener (1), the upper side of the feeding table (2) is obliquely arranged, the conveying belt (3) is positioned at the edge with the lowest height of the upper side of the feeding table (2), the upper side of the conveying belt (3) is lower than the upper side of the feeding table (2), a feeding box (4) is arranged on the vertical side of the feeding table (2) far away from the conveying belt (3), a feeding plate (5) is arranged in the feeding box (4) in a vertically sliding manner, the feeding plate (5) is arranged by being attached to the vertical side of the feeding table (2), the upper side of the feeding plate (5) is obliquely arranged, the edge of the feeding plate (5) far away from the feeding table (2) is higher, a sliding component for driving the feeding plate (5) to slide up and down is arranged between the feeding box (4) and the feeding plate (5).

2. The feeding device of the automatic straightening machine according to claim 1, characterized in that: the sliding assembly comprises a threaded screw rod (6), a connecting plate (7) and a driving motor (8), the axis of the threaded screw rod (6) is vertical and is rotatably installed on the outer side of the feeding box (4), the connecting plate (7) is fixed to one vertical side of the feeding plate (5), the connecting plate (7) extends to the outer side of the feeding box (4), the threaded screw rod (6) vertically penetrates through the connecting plate (7) and is in threaded connection with the connecting plate (7), and the driving motor (8) is in transmission connection with the threaded screw rod (6).

3. The feeding device of the automatic straightening machine according to claim 2, characterized in that: the automatic feeding device is characterized in that a baffle (9) is arranged in the feeding box (4), a gap is reserved between the baffle (9) and the inner bottom wall of the feeding box (4), and the feeding box (4) is divided into a material storage area (10) and a feeding area (11) by the baffle (9).

4. The feeding device of the automatic straightening machine according to claim 3, characterized in that: baffle (9) one side slides from top to bottom has regulating plate (12), regulating plate (12) with be equipped with on baffle (9) and be used for the restriction the gliding spacing subassembly of regulating plate (12).

5. The feeding device of the automatic straightening machine according to claim 4, characterized in that: spacing subassembly includes two locking bolt (13), two locking bolt (13) are all worn to locate perpendicularly regulating plate (12), baffle (9) one side is seted up two locking grooves (14) that run through, two locking bolt (13) slide respectively and set up two in locking groove (14), and two locking bolt (13) pass the equal threaded connection of one end of baffle (9) has the nut.

6. The feeding device of the automatic straightening machine according to claim 1, characterized in that: the width of the upper side of the feeding plate (5) is consistent with the diameter of the support rod.

7. The feeding device of the automatic straightening machine according to claim 1, characterized in that: conveyer belt (3) are close to the one end of straightener (1) extends the outside of pay-off platform (2), conveyer belt (3) extend one section upside in conveyer belt (3) outside is equipped with protective housing (15), protective housing (15) cross-section is "Contraband" shape setting.

8. The feeding device of the automatic straightening machine according to claim 1, characterized in that: an anti-falling plate (16) is fixed on the upper side of the feeding table (2), the length direction of the anti-falling plate (16) is consistent with the advancing direction of the conveyor belt (3), and the anti-falling plate (16) is positioned at the edge with the lowest height on the upper side of the feeding table (2).

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