CN210012329U

CN210012329U - Stacking glass sheet material separating and positioning device

Info

Publication number: CN210012329U
Application number: CN201920331169.3U
Authority: CN
Inventors: 李凤阳; 张慧; 廖釜立; 廖�燕
Original assignee: Shenzhen Shenglida Cnc Equipment Co Ltd
Current assignee: Shenzhen Chuangling intelligence Co.,Ltd.
Priority date: 2019-03-15
Filing date: 2019-03-15
Publication date: 2020-02-04
Anticipated expiration: 2029-03-15

Abstract

The utility model discloses a pile up glass sheet material separation and positioning device relates to the glass processing field, has solved current glass sheet material separation material loading technique influence the beat and has leaded to the automatic feeding device artifical man-hour to save unobvious problem, and its technical essential is: the glass sheet conveying and separating device comprises a feeding lifting table for lifting and separating glass sheets, a transfer device for transferring the glass sheets and a conveying and separating device for positioning and separating the glass sheets, wherein the feeding lifting table is fixedly connected with the conveying and separating device, and the transfer device is fixedly connected with one end of the conveying and separating device connected with the feeding lifting table; the utility model discloses a manual separation work of glass tablet among the traditional art is accomplished to material loading elevating platform, transfer device and transport separator, has improved the separation efficiency of glass tablet to improve the production efficiency of whole automation line, saved the cost of labor moreover.

Description

Stacking glass sheet material separating and positioning device

Technical Field

The utility model relates to a glass processing field especially relates to a pile up glass sheet material separation and positioning device.

Background

The adoption cnc engraving and milling machine processing of cell-phone toughened glass screening glass, the problem that the blank sheet stock supplies to put the difficulty has always existed in the process of realizing automatic unloading, the automatic unloading in-process need be arranged blank sheet stock in and is fixed the material level of getting, get the material and put into the inside location processing of machine tool by unloader, traditional processing mode adopts the manual work earlier and inserts the material frame, again with material frame global positioning, get the material in the material frame by unloader voluntarily.

Because glass before processing has not carried out tempering yet, the glass that just opened the material and come out is thin, and is fragile, breakable, and the easy breach of collision, and the machine tool often is many main shafts synchronous processing, and single process time is shorter, and machine tool machining efficiency is high, and in order to guarantee the efficiency of lathe, the pre-installation before processing presss from both sides the material and extremely takes the manual work, also leads to current automatic unloader's artifical man-hour to save and is not obvious simultaneously, and the price/performance ratio is low.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to above-mentioned defect, provide a pile up glass sheet material separation and positioning device, adopt and to pile up glass sheet material arrangement, location, separation and the separation and positioning device that the multistation was arranged to solve current glass sheet material separation material loading technique influence the production beat and lead to the automatic feeding device artifical man-hour to save unobvious problem.

In order to achieve the above object, the utility model provides a following technical scheme:

a separation and positioning device for stacked glass sheets comprises a feeding lifting table, a transfer device and a conveying and separating device, wherein the feeding lifting table is used for lifting and separating the glass sheets, the transfer device is used for transferring the glass sheets, the conveying and separating device is used for positioning and separating the glass sheets, the feeding lifting table is fixedly connected with the conveying and separating device, and the transfer device is fixedly connected with one end, connected with the feeding lifting table, of the conveying and separating device; and a detection sensor for detecting the height of the glass material sheet is arranged on the feeding lifting platform.

As a further scheme of the utility model, the loading elevating platform comprises an elevating platform main body, a wide-edge guide plate is arranged on the left side of the elevating platform main body, the front side of the elevating platform main body is connected with the narrow-edge guide plate through a narrow-edge guide connecting plate, a lifting motor is fixedly installed below the left side of the main body, linear bearings are installed on the wide-edge guide plate and the narrow-edge guide plate respectively, guide rods are arranged in the linear bearings, one ends of the guide rods are fixedly connected through the guide rod connecting plate, a narrow-edge clapper plate is fixedly installed on the guide rods on the narrow-edge guide plate, and a wide-edge clapper plate is fixedly installed on the guide rods on; the top end of the wide-side flat-beating plate is fixedly provided with a front air-floating plate and a brush head needle type cylinder;

the right side top fixed mounting of elevating platform main part has detection sensor and back air supporting plate, the passive synchronizing wheel of lift and lift initiative synchronizing wheel are still installed on the right side of elevating platform main part, lift initiative synchronizing wheel fixed mounting is on elevator motor's output shaft, be equipped with the hold-in range on the passive synchronizing wheel of lift and the lift initiative synchronizing wheel, one side fixed mounting of hold-in range has linear slide rail, sliding connection has the lift drive plate on the linear slide rail, the lift drive plate passes hold-in range clamp plate and hold-in range fixed connection, still fixed mounting has the elevating platform layer board on the lift drive plate, fixed mounting lift push pedal on the elevating platform layer board, the guide hole that the lift push pedal passed in the middle of the elevating platform main.

As a further scheme of the utility model, the elevating platform main part includes the elevating platform mounting panel, the elevating platform bottom plate, broadside deflector and elevating platform mounting plate, the bottom of elevating platform mounting panel is equipped with the motor mount pad, the elevating platform bottom plate, broadside deflector and elevating platform mounting plate fixed connection, the centre at elevating platform bottom plate and elevating platform mounting plate is established to the broadside deflector, the elevating platform bottom plate, broadside deflector and elevating platform mounting plate constitute box fixed mounting on the elevating platform mounting panel, elevator motor, detect the sensor, back air supporting plate, the passive synchronizing wheel of lift and the equal fixed mounting of linear slide rail are at the elevating platform mounting panel.

As a further proposal of the utility model, positioning hand-screwed bolts are also arranged on the wide-side guide plate and the narrow-side guide plate, and the positioning hand-screwed bolts pass through the wide-side guide plate and the narrow-side guide plate to contact with the guide rods; an induction device is further fixedly installed on the lifting drive plate, and an original point limit switch is fixedly installed at the initial position of the lifting drive plate on the lifting platform installation plate.

As a further proposal of the utility model, the transfer device comprises an adjusting mechanism, a rotary cylinder and a linear cylinder; the linear air cylinder is fixedly connected with the adjusting mechanism, the extension shaft of the linear air cylinder is fixedly connected with the rotary air cylinder through a connecting plate, the connecting plate is arranged between the linear air cylinder and the rotary air cylinder, the rotary shaft of the connecting plate is provided with a rotary disk, the two ends of the rotary disk are respectively provided with vacuum suckers controlled by different electromagnetic valves, the number of the vacuum suckers is four, and each end of each of the two ends of the rotary disk is provided with two.

As a further scheme of the utility model, guiding mechanism includes adjustment guide arm, adjustment seat and adjusting screw, and the adjustment guide arm is equipped with two, and the adjustment guide arm passes through mounting panel fixed mounting in one side of automatic unloader that goes up, and the other end of two adjustment guide arms passes through horizontal adjusting plate to be connected, and the adjustment seat cover is established on the adjustment guide arm, and adjusting screw passes through threaded connection with the adjustment seat, and adjusting screw establishes in the adjustment hole on horizontal adjusting plate, adjustment seat fixed connection straight line cylinder.

As a further scheme of the utility model, conveying side plates are arranged on two sides of the conveying and separating device, the left end of each conveying side plate is fixedly arranged on the main body of the lifting platform, the right end of each conveying side plate is fixedly connected with a conveying belt supporting leg, two ends of each conveying side plate are fixedly connected with a conveying belt driving belt wheel and a conveying belt driven belt wheel through bearings, conveying belts are arranged on the conveying belt driving belt wheel and the conveying belt driven belt wheel, a positioning plate is arranged on each conveying belt, a conveying motor base is fixedly arranged below each conveying side plate, a conveying belt motor is fixedly arranged on each conveying motor base, a conveying belt wheel is fixedly connected to an output shaft of each conveying belt motor, a conveying belt wheel is; the conveying motor base is also provided with a tensioning block.

To sum up, compared with the prior art, the utility model has the following beneficial effects:

the utility model discloses a manual separation work of glass tablet among the traditional art is accomplished to material loading elevating platform, transfer device and transport separator, has improved the separation efficiency of glass tablet to improve the production efficiency of whole automation line, saved the cost of labor moreover.

Drawings

FIG. 1 is a schematic view showing a structure of a stacked glass sheet separation positioning device.

FIG. 2 is an isometric view of a stacked glass sheet separation positioning apparatus.

FIG. 3 is a front view of the stacked glass sheet separation positioning device.

FIG. 4 is a plan view of the stacked glass sheet separation positioning device.

FIG. 5 is a left side view of the stacked glass sheet separation positioning device.

FIG. 6 is a right side view of the stacked glass sheet separation positioning device.

FIG. 7 is a schematic view showing the structure of a lift table main body in the stacked glass sheet separation positioning apparatus.

Reference numerals: 1-a lifter mounting plate, 2-a lifter base plate, 3-a broadside guide plate, 4-a lifter mounting base plate, 5-a broadside guide link plate, 6-a broadside guide plate, 7-a broadside flap plate, 8-a brush head needle cylinder, 9-a broadside flap plate, 10-a linear bearing, 11-a guide rod, 12-a guide rod link plate, 13-a lifter motor, 14-a conveyor belt driving pulley, 15-a conveyor side plate, 16-a conveyor belt, 17-a positioning plate, 18-a conveyor belt driven pulley, 19-a tensioning block, 20-a conveyor motor seat, 21-an adjusting guide rod, 22-an adjusting seat, 23-an adjusting screw, 24-a transverse adjusting plate, 25-a connecting plate, 26-a rotary cylinder, 27-a vacuum chuck, 28-front air floating plate, 29-detection sensor, 30-rear air floating plate, 31-lifting driven synchronizing wheel, 32-synchronous belt, 33-lifting platform supporting plate, 34-lifting pushing plate, 35-origin limit switch, 36-linear sliding rail, 37-lifting driving plate, 38-synchronous belt pressing plate, 39-lifting driving synchronizing wheel, 40-positioning hand screw bolt, 41-linear air cylinder, 42-conveying synchronous belt, 43-conveying belt wheel, 44-conveying belt motor, 45-mounting plate and 46-conveying belt supporting foot.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, rather than all embodiments, and all other embodiments obtained by a person of ordinary skill in the art without creative work belong to the protection scope of the present invention based on the embodiments of the present invention.

In the description of the present invention, it should be understood that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, and are only for the convenience of describing the invention and for the convenience of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the invention. Furthermore, the terms "first", "second", etc. are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first," "second," etc. may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

As shown in fig. 1 to 7, a separation and positioning device for stacked glass sheets comprises a feeding lifting table, a transfer device and a conveying and separating device;

the material loading lifting platform comprises a lifting platform main body, the lifting platform main body is fixedly installed on the left side of the automatic material loading and unloading device and used for supporting other accessories of the lifting platform, the lifting platform main body comprises a lifting platform installation plate 1, a lifting platform bottom plate 2, a wide-edge guide plate 3, a lifting platform installation bottom plate 4, a narrow-edge guide connecting plate 5 and a narrow-edge guide plate 6, the lifting platform installation plate 1 plays a role of a main body installation plate, a motor installation seat is arranged at the bottom of the lifting platform installation plate 1, the lifting platform bottom plate 2, the wide-edge guide plate 3 and the lifting platform installation bottom plate 4 are fixedly connected, the wide-edge guide plate 3 is arranged between the lifting platform bottom plate 2 and the lifting platform installation bottom plate 4, the lifting platform bottom plate 2, the wide-edge guide plate 3 and the lifting platform installation bottom plate 4 form a box body which is arranged on the lifting platform installation plate 1 and used for installing other components, and the narrow-edge guide plate 6, The wide-edge guide plate 3 and the lifting platform mounting bottom plate 4 form a box body, and the narrow-edge guide plate 6 is arranged on one side of the lifting platform mounting plate 1;

a lifting motor 13 is fixedly installed below the left side of the lifting platform installation plate 1 and used for driving a conveying belt on the lifting platform installation plate 1, linear bearings 10 are installed on the wide-edge guide plate 3 and the narrow-edge guide plate 6 respectively, guide rods 11 are arranged in the linear bearings 10, the guide rods 11 are fixedly connected through guide rod connecting plates 12, narrow-edge clappers 7 are fixedly installed on the guide rods 11 on the narrow-edge guide plate 6, wide-edge clappers 9 are fixedly installed on the guide rods 11 on the wide-edge guide plate 3, the narrow-edge clappers 7 and the wide-edge clappers 9 are used for flattening the placed glass sheets, positioning hand screwing bolts 40 are further arranged on the wide-edge guide plate 3 and the narrow-edge guide plate 6 and penetrate through the wide-edge guide plate 3 and the narrow-edge guide plate 6 to be in contact with the guide rods 11 so as to lock the guide rods; the top end of the broadside clapper plate 9 is fixedly provided with a front air floating plate 28 and a brush head needle type cylinder 8; the top end of the lifting platform mounting plate 1 is also fixedly provided with a detection sensor 29 and a rear air floating plate 30, the front air floating plate 28 and the rear air floating plate 30 blow air to separate stacked glass sheets, then brushes on the brush head needle type air cylinders 8 are inserted into a floating space to layer the glass sheets, and the height of the floating glass sheets is confirmed through the detection sensor 29, so that whether the glass sheets absorbed by the transfer device are single sheets or not is confirmed, and the fact that the number of the glass sheets absorbed by the transfer device once is single sheets is guaranteed;

a lifting driven synchronizing wheel 31 and a lifting driving synchronizing wheel 39 are arranged at the upper end and the lower end of the right side of the lifting platform mounting plate 1, a synchronous belt 32 is arranged on the lifting driven synchronizing wheel 31 and the lifting driving synchronizing wheel 39, the lifting driving synchronizing wheel 39 is fixedly arranged on an output shaft of the lifting motor 13, a linear slide rail 36 is fixedly arranged at one side of the synchronous belt 32, a lifting drive plate 37 is slidably connected on the linear slide rail 36, the lifting drive plate 37 is fixedly connected with the synchronous belt 32 through a synchronous belt press plate 38, a lifting platform supporting plate 33 is also fixedly arranged on the lifting drive plate 37, a lifting push plate 34 is fixedly arranged on the lifting platform supporting plate 33, the lifting push plate 34 passes through a guide hole in the middle of the lifting platform mounting plate 1 and is arranged at the left side of the lifting platform mounting plate 1 and is used for pushing a glass sheet to ascend, the lifting motor, thereby driving the glass material sheet to be fed,

preferably, the lifting drive plate 37 is further fixedly provided with a sensing device, the lifting table mounting plate 1 is fixedly provided with an origin limit switch 35 at an initial position of the lifting drive plate 37, and the origin limit switch 35 is matched with the sensing device and used for positioning the initial position of the lifting drive plate 37;

the transfer device comprises two adjusting guide rods 21, two adjusting seats 22, two adjusting screws 23, a transverse adjusting plate 24, a rotary cylinder 26 and a linear cylinder 41, the adjusting guide rods 21 are fixedly arranged on one side of the automatic loading and unloading device through a mounting plate 45, the adjusting guide rods 21 are sleeved with the adjusting seats 22, the adjusting screws 23 are in threaded connection with the adjusting seats 22, the adjusting screws 23 are arranged in adjusting holes in the transverse adjusting plate 24, the transverse adjusting plate 24 is fixedly connected to the adjusting guide rods 21, and the purpose of adjusting the positions of the adjusting seats 22 on the adjusting guide rods 21 is achieved by rotating the adjusting screws 23; the linear cylinder 41 is fixedly connected to the adjusting seat 22, an extension shaft of the linear cylinder 41 is fixedly connected with the rotary cylinder 26 through a connecting plate 25, the connecting plate 25 is arranged between the linear cylinder 41 and the rotary cylinder 26, a rotary disk is arranged on a rotary shaft of the connecting plate 25, two vacuum suckers 27 are respectively arranged at two ends of the rotary disk, the vacuum suckers 27 at two ends of the rotary disk are controlled by different electromagnetic valves, so that the rotary disk can simultaneously complete sucking and releasing actions, the vacuum suckers 27 move downwards through the linear cylinder 41 to suck glass sheets and then leave the material taking position upwards, and the glass sheets are transferred to a conveying line through the rotary cylinder 26 to complete the transferring action;

the conveying and separating device comprises a conveying belt driving belt wheel 14, a conveying side plate 15, a conveying belt 16, a positioning plate 17, a conveying belt driven belt wheel 18, a conveying motor base 20, a conveying synchronous belt 42, a conveying belt wheel 43 and a conveying belt motor 44, wherein the conveying side plate 15 is provided with two pieces, the left end of the conveying side plate 15 is fixedly arranged on the lifting platform mounting plate 1, the right end of the conveying side plate 15 is fixedly connected with a conveying belt supporting leg 46 for supporting the conveying side plate 15, the left end and the right end of the conveying side plate 15 are fixedly provided with the conveying belt driving belt wheel 14 and the conveying belt driven belt wheel 18 through bearings, the conveying belt 16 is arranged on the conveying belt driving belt wheel 14 and the conveying belt driven belt wheel 18 and used for conveying glass plates, the positioning plate 17 is arranged on the conveying belt 16 and used for isolating, a conveying belt motor 44 is fixedly installed on the conveying motor base 20, the conveying belt motor 44 plays a role of driving the conveying belt 16 to transmit, a conveying belt wheel 43 is arranged on the conveying belt driving belt wheel 14, the conveying belt wheel 43 is arranged on the outer side of the conveying side plate 15, a conveying belt wheel 43 is arranged on an output shaft of the conveying belt motor 44, and the conveying belt wheel 43 on the conveying belt motor 44 is connected with the conveying belt wheel 43 on the conveying belt driving belt wheel 14 through a conveying synchronous belt 42;

preferably, a tensioning block 19 is further provided on the conveyor motor base 20 for tensioning the conveyor belt 16.

To sum up, the utility model discloses a theory of operation is:

the glass sheets are stacked on a lift pallet 33. The lifting platform supporting plate 33 lifts the glass sheets one by one, the glass sheets are separated through the combined action of the front air floating plate 28, the rear air floating plate 30 and the brush head needle type cylinder 8, and after single sheet detection, the glass sheets are taken by the transfer device and transferred to a conveying line. After the conveying line pulls the glass sheet materials to be processed by the machine tool for a fixed distance each time, the glass sheet materials are sucked by the automatic loading and unloading device and are supplied to the machine tool at one time. Then the conveyer belt resets, positions next group glass sheet material.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. A separation and positioning device for stacked glass sheets is characterized by comprising a feeding lifting table, a transfer device and a conveying and separating device, wherein the feeding lifting table is used for lifting and separating glass sheets; and a detection sensor (29) for detecting the height of the glass material sheet is arranged on the feeding lifting platform.

2. The stacked glass sheet separating and positioning device as claimed in claim 1, wherein the feeding lifting platform comprises a lifting platform main body, a wide-edge guide plate (3) is arranged on the left side of the lifting platform main body, the front side of the lifting platform main body is connected with a narrow-edge guide plate (6) through a narrow-edge guide connecting plate (5), a lifting motor (13) is fixedly arranged below the left side of the main body, linear bearings (10) are respectively arranged on the wide-edge guide plate (3) and the narrow-edge guide plate (6), a guide rod (11) is arranged in each linear bearing (10), one end of each guide rod (11) is fixedly connected through a guide rod connecting plate (12), a narrow-edge beating plate (7) is fixedly arranged on each guide rod (11) on the narrow-edge guide plate (6), and a wide-edge beating plate (9) is fixedly arranged on each guide rod (11) on the wide-edge; the top end of the broadside clapper plate (9) is fixedly provided with a front air floating plate (28) and a brush head needle type cylinder (8); a positioning hand-screwed bolt (40) for locking the guide rod (11) is further arranged on the narrow-side guide plate (6), and the positioning hand-screwed bolt (40) penetrates through the narrow-side guide plate (6) to be in contact with the guide rod (11);

a rear air bearing plate (30) is fixedly installed at the top end of the right side of the lifting platform main body, a lifting driven synchronizing wheel (31) and a lifting driving synchronizing wheel (39) are further installed on the right side of the lifting platform main body, the lifting driving synchronizing wheel (39) is fixedly installed on an output shaft of a lifting motor (13), a synchronous belt (32) is arranged on the lifting driven synchronizing wheel (31) and the lifting driving synchronizing wheel (39), a linear slide rail (36) is fixedly installed on one side of the synchronous belt (32), a lifting driving plate (37) is connected onto the linear slide rail (36) in a sliding manner, the lifting driving plate (37) is fixedly connected with the synchronous belt (32) through a synchronous belt pressing plate (38), a lifting platform supporting plate (33) is further fixedly installed on the lifting driving plate (37), a lifting push plate (34) is fixedly installed on the lifting platform supporting plate (33), and the lifting push plate (34), an induction device is further fixedly installed on the lifting drive plate (37), and an original point limit switch (35) is fixedly installed at the initial position of the lifting drive plate (37) on the lifting platform installation plate (1).

3. The separation and positioning device for stacked glass sheets according to claim 2, wherein the lifting platform body comprises a lifting platform mounting plate (1), a lifting platform bottom plate (2), a wide edge guide plate (3) and a lifting platform mounting bottom plate (4), the bottom of the lifting platform mounting plate (1) is provided with a motor mounting seat, the lifting platform bottom plate (2), the wide edge guide plate (3) and the lifting platform mounting bottom plate (4) are fixedly connected, the wide edge guide plate (3) is arranged between the lifting platform bottom plate (2) and the lifting platform mounting bottom plate (4), the lifting platform bottom plate (2), the wide edge guide plate (3) and the lifting platform mounting bottom plate (4) form a box body and are fixedly mounted on the lifting platform mounting plate (1), the lifting motor (13), the detection sensor (29), the rear air floating plate (30), the lifting driven synchronizing wheel (31) and the linear slide rail (36) are all fixedly arranged on the lifting platform mounting plate (1); the broadside guide plate (3) is further provided with a positioning hand screwing bolt (40), and the positioning hand screwing bolt (40) penetrates through the broadside guide plate (3) to be in contact with the guide rod (11).

4. The stacked glass sheet separation positioning device according to claim 3, wherein the transfer device includes an adjusting mechanism, a rotary cylinder (26) and a linear cylinder (41); the linear cylinder (41) is fixedly connected with the adjusting mechanism, an extension shaft of the linear cylinder (41) is fixedly connected with the rotary cylinder (26) through a connecting plate (25), the connecting plate (25) is arranged between the linear cylinder (41) and the rotary cylinder (26), a rotary disk is arranged on a rotary shaft of the connecting plate (25), and vacuum suckers (27) controlled by different electromagnetic valves are respectively arranged at two ends of the rotary disk.

5. The apparatus for separating and positioning stacked glass sheets as defined in claim 4, wherein there are four vacuum cups (27), and two vacuum cups (27) are provided at each end of both ends of the rotating disk.

6. The separation and positioning device for stacked glass sheets according to any one of claims 2 to 5, wherein the adjusting mechanism comprises two adjusting guide rods (21), two adjusting seats (22) and two adjusting screws (23), the adjusting guide rods (21) are fixedly mounted on one side of the automatic loading and unloading device through mounting plates (45), the other ends of the two adjusting guide rods (21) are connected through a transverse adjusting plate (24), the adjusting seats (22) are sleeved on the adjusting guide rods (21), the adjusting screws (23) are in threaded connection with the adjusting seats (22), the adjusting screws (23) are arranged in adjusting holes in the transverse adjusting plate (24), and the adjusting seats (22) are fixedly connected with the linear cylinders (41).

7. The separation and positioning device for stacked glass sheets according to claim 6, wherein conveying side plates (15) are arranged on two sides of the conveying and separating device, the left ends of the conveying side plates (15) are fixedly mounted on the lifting table main body, conveying belt supporting feet (46) are fixedly connected to the right ends of the conveying side plates (15), conveying belt driving pulleys (14) and conveying belt driven pulleys (18) are fixedly connected to two ends of the conveying side plates (15) through bearings, conveying belts (16) are arranged on the conveying belt driving pulleys (14) and the conveying belt driven pulleys (18), positioning plates (17) are arranged on the conveying belts (16), conveying motor bases (20) are fixedly mounted below the conveying side plates (15), conveying belt motors (44) are fixedly mounted on the conveying motor bases (20), conveying belt pulleys (43) are fixedly connected to output shafts of the conveying belt motors (44), and conveying belt pulleys (43) are fixedly connected to the conveying belt driving pulleys (, the two conveying belt wheels (43) are connected through a conveying synchronous belt (42); the conveying motor base (20) is also provided with a tensioning block (19).