CN110624758A

CN110624758A - Production process of green environment-friendly waterproof structural plate

Info

Publication number: CN110624758A
Application number: CN201910761388.XA
Authority: CN
Inventors: 查焰林
Original assignee: Hangzhou Zhonglu New Material Co Ltd
Current assignee: Taizhou Yuanda Leisure Products Co.,Ltd.
Priority date: 2019-08-18
Filing date: 2019-08-18
Publication date: 2019-12-31
Anticipated expiration: 2039-08-18
Also published as: CN110624758B

Abstract

The invention discloses a production process of a green environment-friendly waterproof structural plate, which comprises an inner layer and two outer layers which are respectively bonded with the upper surface and the lower surface of the inner layer through bonding layers, wherein the bonding layers are glue layers, the inner layer is a metal grid layer, and the outer layers are centrifugal glass wool layers; the production process comprises the following steps: a. the outer layer at the bottom is conveyed to a processing unit through a first conveying unit of an automatic production line, and the outer layer is conveyed to a discharging unit by the processing unit; b. the processing unit carries out rubber coating and flattening operation to the skin to the discharge unit conveying in-process with the skin, and the second conveying unit of automatic production line is carried the inlayer to the processing unit simultaneously, and the corresponding is placed on the skin. The invention does not need to carry out compound operation on different equipment and different stations, and has high processing efficiency, small equipment investment and low investment cost.

Description

Production process of green environment-friendly waterproof structural plate

Technical Field

The invention belongs to the technical field of green building material processing, and particularly relates to a production process of a green environment-friendly waterproof structural plate.

Background

The existing waterproof structural plate is usually formed by compounding a plurality of layers of plates made of different materials, and has a stable structure and good waterproof and fireproof performances. This panel is adding man-hour, and the mode that adopts usually bonds panel for through glue or other bonding material, but under the above-mentioned structure, panel is in coating glue and bonds each other and all go on equipment and the station of difference, and not only equipment input cost is big, and holistic machining efficiency is low, and the place of equipment occupies also greatly.

Disclosure of Invention

The invention provides a production process of a green environment-friendly waterproof structural plate, which overcomes the defects of the prior art and has low equipment investment cost and high processing efficiency.

In order to achieve the purpose, the invention adopts the following technical scheme: a production process of a green environment-friendly waterproof structural plate comprises an inner layer and two outer layers which are respectively bonded with the upper surface and the lower surface of the inner layer through bonding layers, wherein the bonding layers are glue layers, the inner layer is a metal grid layer, and the outer layer is a centrifugal glass wool layer;

the production process comprises the following steps:

a. the outer layer at the bottom is conveyed to a processing unit through a first conveying unit of an automatic production line, and the outer layer is conveyed to a discharging unit by the processing unit;

b. the processing unit carries out gluing and leveling operation on the outer layer in the process of conveying the outer layer to the discharging unit, and the second conveying unit of the automatic production line simultaneously conveys the inner layer to the processing unit and correspondingly places the inner layer on the outer layer;

c. then the processing unit conveys the bonded inner and outer layers to a discharging unit together, the inner layer is coated with glue and leveled in the conveying process, and the third conveying unit of the automatic production line simultaneously conveys the outer layer to the processing unit and correspondingly places the outer layer on the inner layer;

d. and then the processing unit conveys the plate to the discharging unit, the plate is simultaneously compressed in the conveying process, and the plate is conveyed to the discharging unit and then is discharged outwards by the discharging unit.

In the process of conveying the plates by the processing unit, the first conveying unit, the second conveying unit and the third conveying unit can convey different plates to the processing unit at the same time, so that the composite operation can be completed in the process of conveying the plates on the processing unit, the composite operation on different equipment and different stations is not needed, the processing efficiency is high, the equipment investment is small, and the investment cost is low; and the devices are integrated and overlapped with each other, so that the space occupation of the devices is greatly reduced, and the space utilization rate of a factory building is improved.

The automatic production line comprises the processing unit, a first conveying unit, a second conveying unit, a third conveying unit and a discharging unit, wherein the processing unit comprises a left conveying belt, a right conveying belt arranged opposite to the left conveying belt, a plurality of left clamping assemblies uniformly distributed at intervals in the length direction of the left conveying belt, a plurality of right clamping assemblies uniformly distributed at intervals in the length direction of the right conveying belt and a driving part for driving the left conveying belt and the right conveying belt to synchronously rotate; firmly fix a position panel through the centre gripping subassembly, can not take place the position when guaranteeing that panel compounds simultaneously in the data send process and remove, promote the performance and the quality of the panel that processing obtained.

The left clamping assembly comprises a first fixed rod fixedly connected to the left conveying belt, a first moving rod capable of stretching relative to the first fixed rod and penetrating through the first fixed rod, a first spring connected with the moving rod, a first clamping plate fixedly connected to the end part of the first moving rod, a first limiting plate arranged at the right lower corner of the first clamping plate, a second fixed rod fixedly connected to the left conveying belt, a second moving rod capable of stretching relative to the second fixed rod and penetrating through the second fixed rod, a second spring connected with the moving rod, a second clamping plate fixedly connected to the end part of the second moving rod and a second limiting plate arranged at the left lower corner of the second clamping plate; the first fixing rod and the second fixing rod are spaced, and the first limiting plate and the second limiting plate are arranged in an L-shaped structure and are symmetrically arranged; with the structure, the clamping plate can move in the front-back direction relative to the fixing rod, so that when the plate is fed and clamped, a certain distance can be opened in advance, and the possibility of blocking the plate during feeding is reduced; after the feeding is finished, the clamping plates can clamp the plate, so that the plate is prevented from excessive position movement, the accuracy in gluing is improved, and the quality of the processed plate is improved; the limiting plate of L type can carry out the position to four end angles of panel spacing, and simple structure is nevertheless spacing respond well, and processing is convenient.

The processing unit further comprises a plurality of pressing and gluing devices for gluing the plates, and the first conveying unit, the second conveying unit and the third conveying unit respectively correspond to one pressing and gluing device; the compressing and gluing device comprises a floor frame, a connecting pin arranged on the floor frame, a telescopic rod capable of stretching relative to the connecting pin, a spring acting on the telescopic rod, a glue spreader connected with the telescopic rod and a deviation correcting component positioned on the front side of the glue spreader; the deviation rectifying component can ensure that four end angles of the plate are completely limited by the limiting plates when the plate reaches the position of the gluing roller, so that the plate is completely aligned to the position below the plate, the surface of the plate can be completely coated with glue during gluing, the situation that partial positions are omitted is avoided, and the quality of the processed plate is enhanced; the telescopic rod is connected with the spring, so that the telescopic device can adapt to the processing of plates with different heights, and has a wide application range; and the spring still can make the glue spreader possess the pressure of extrusion downwards to make the glue spreader when carrying out the rubber coating to panel surface, still will exert decurrent pressure to panel, and then the bonding effect between the inlayer panel in the reinforcing front portion operation, guarantee to bond firmly.

The deviation rectifying part comprises an L-shaped positioning frame fixedly arranged on the floor frame, an L-shaped movable frame capable of moving up and down relative to the positioning frame, a first leveling plate capable of moving back and forth relative to the movable frame, a bending section arranged on the end part of the first leveling plate, a second leveling plate arranged at the middle part of the leveling plate close to the rear position, a driving block arranged at the rear side of the second leveling plate, a chamfering surface arranged on the driving block, a touch block arranged on a first limiting plate, an inclined surface arranged on the touch block and matched with the chamfering surface, a first elastic part arranged on the positioning frame and used for supporting the movable frame, and a second elastic part arranged between the movable frame and the first leveling plate; the inclined plane is arranged from top to bottom in an inclined way; if the end angle or the side edge of the plate extends out of the limiting plate when the plate is fed, the plate is firstly contacted with the bending section and moves to the first leveling plate along the bending section in the process that the clamping assembly drives the plate to move forwards, and the plate moves inwards under the pushing of the bending section and the first leveling plate, so that the side edge of the plate cannot extend out of the clamping plate; then the clamping assembly drives the plate to move forward continuously, the part of the plate extending out of the limiting plate props against a second leveling plate, the plate retracts into the limiting plate under the pushing of the second leveling plate, the clamping assembly drives the plate to move forward continuously, a contact block on the limiting plate and a driving block mutually contact with each other, the driving block moves upwards along an inclined plane on the contact block, the second leveling plate leaves the position of the limiting plate, the second leveling plate does not contact the clamping assembly any more, the clamping assembly drives the plate to move forward continuously to the position of the glue coating roller for glue coating, and the position of the plate is corrected to be completely aligned with the glue coating roller; the position of the plate is directly adjusted in the moving process of the plate, and the working efficiency is high; the adjustment is realized in a mechanical matching mode, the structure is simple, the matching is stable, and compared with an electric control mode, the input cost and the failure rate are low; and through the cooperation of drive block, contact block, bending segment, spring for the in-process that centre gripping subassembly moved forward can drive the flattening board and remove, whole smooth operation, and equipment work efficiency is high.

A feeding device for driving the left clamping assembly and the right clamping assembly to be away from each other so as to convey the plates to the left clamping assembly and the right clamping assembly is arranged at the joint of the processing unit and the first conveying unit; under this kind of structure, the distance between the centre gripping subassembly will great degree be greater than the width of panel when panel is in the material loading, even when panel places the centre gripping subassembly with the degree of slightly squinting on, the centre gripping subassembly also can carry out position adjustment and firm centre gripping to panel at the in-process that replies.

The feeding device comprises a support frame, a cross rod arranged on the support frame, two vertical rods respectively arranged at the left end and the right end of the cross rod, a material guide rod fixedly arranged at the upper part of each vertical rod and a contact push rod fixedly arranged at the lower part of each vertical rod, wherein the contact push rods are obliquely arranged from bottom to top and from outside to inside; when the clamping assembly moves from the inner end position to the outer end position of the abutting push rod, the abutting push rod pushes the left clamping assembly and the right clamping assembly to be away from each other; the structure is simple, the effect can be realized only by the abutting of the inclined rods which are obliquely arranged, the processing is simple and convenient, and the investment of parts is less; and the position of the clamping assembly is moved by adopting a rigid interference fit mode, so that the structure is simple and convenient to realize, the fault condition is avoided, the clamping assembly is not easy to damage, and the service life is long.

The second conveying unit comprises a plate conveying belt, a plurality of openings, a turning plate, a blocking edge, a left support rod, a right support rod, a first inclined rod and a second inclined rod, wherein at least part of the plate conveying belt is positioned above the left conveying belt and the right conveying belt, the plurality of openings are formed in the plate conveying belt, the turning plate can be arranged on the openings in a turning mode, the blocking edge is arranged on the openings and matched with the turning plate, the left support rod and the right support rod are arranged below the plate conveying belt, the first inclined rod is arranged on the left support rod in an inclined mode from top to bottom, the end portion of the right support rod is arranged in an inclined mode from top to bottom, a distance is reserved between the end portions; with the structure, when the turning plate moves to a position between the first inclined rod and the second inclined rod, the turning plate is completely turned downwards, so that the plate placed on the turning plate falls downwards and leaves the turning plate, the plate is transferred onto the clamping assembly, and the automatic feeding of the plate is realized; the notches are transited by the inclined rods, so that when the turning plate is turned downwards, the turning plate is turned downwards at a slow speed, the plate slides to the original plate of the clamping piece in an inclined manner, and the plate is not easy to shift; the turning plate is also turned upwards by the inclined rod, and when the turning plate abuts against the second inclined rod, the turning plate is turned upwards under the action of the second inclined rod and is closed to an initial state, so that a power source does not need to be independently arranged to drive the turning plate to be turned, and energy consumption is saved; the arrangement of the blocking edge enables the turning plate to be turned downwards but not upwards, so that when the turning plate on the plate conveying belt moves to the position where the rolling shafts at the two ends are located, the turning plate cannot be bounced outwards, and the normal operation of equipment is guaranteed.

Drawings

FIG. 1 is a schematic structural diagram of the sheet material of the present invention.

FIG. 2 is a schematic view of an automatic production line according to the present invention.

FIG. 3 is a schematic view of a portion of an automated manufacturing line according to the present invention.

Fig. 4 is a side view of the present invention.

Fig. 5 is a cross-sectional view taken along line a-a of fig. 4.

Fig. 6 is a cross-sectional view taken along line D-D of fig. 4.

Fig. 7 is a partial schematic view of fig. 6.

Fig. 8 is a partially enlarged view of fig. 7.

FIG. 9 is a schematic structural diagram of a deviation rectifying component according to the present invention.

Detailed Description

A production process of a green environment-friendly waterproof structural plate comprises the following steps of as shown in figure 1, wherein the plate comprises an inner layer 11 and two outer layers 12 which are respectively bonded with the upper surface and the lower surface of the inner layer through bonding layers 13, wherein the bonding layers 13 are glue layers, the inner layer 11 is a metal grid layer, and the outer layers 12 are centrifugal glass wool layers; wherein the metal grid layer is a stainless steel grid, the centrifugal glass wool layer is a plate-like shape formed by pressing centrifugal glass wool, and the glue layer is glue; preferably, a PVC film can be adhered to the outer surface of the centrifugal glass wool layer in the sea, so that the waterproof performance of the centrifugal glass wool layer is enhanced;

the production process of the plate comprises the following steps:

As shown in fig. 2-9, the automatic production line includes the processing unit, the first conveying unit, the second conveying unit, the third conveying unit and the discharging unit, the processing unit includes a left conveying belt 21, a right conveying belt 22 opposite to the left conveying belt, a plurality of left clamping assemblies evenly distributed at intervals along the length direction of the left conveying belt, a plurality of right clamping assemblies evenly distributed at intervals along the length direction of the right conveying belt, and a driving component for driving the left and right conveying belts to rotate synchronously; specifically, the left clamping assembly comprises a first fixed rod 31 fixedly connected to the left conveying belt, a first moving rod 32 capable of stretching relative to the first fixed rod and penetrating into the first fixed rod, a first spring 33 connected with the moving rod, a first clamping plate 34 fixedly connected to the end part of the first moving rod, a first limiting plate 35 arranged at the right lower corner of the first clamping plate, a second fixed rod 36 fixedly connected to the left conveying belt, a second moving rod 37 capable of stretching relative to the second fixed rod and penetrating into the second fixed rod, a second spring 38 connected with the moving rod, a second clamping plate 39 fixedly connected to the end part of the second moving rod, and a second limiting plate 40 arranged at the left lower corner of the second clamping plate; a space is reserved between the first fixing rod 31 and the second fixing rod 36, and the first limiting plate 35 and the second limiting plate 40 are both arranged in an L-shaped structure and are symmetrically arranged; the left conveying belt and the right conveying belt are directly purchased in the market, and the first fixing rod and the second fixing rod are fixedly connected with a belt of the conveying belt and move along with the belt when the belt rotates; the first limiting plate and the second limiting plate are fixedly connected with the first clamping plate and the second clamping plate respectively and can be fixedly connected through welding; the structure of the right clamping assembly is the same as that of the left clamping assembly, and thus the description is omitted.

Furthermore, a feeding device for driving the left clamping assembly and the right clamping assembly to be away from each other so as to convey the plates to the left clamping assembly and the right clamping assembly is arranged at the joint of the processing unit and the first conveying unit; specifically, the feeding device comprises a support frame 71, a cross rod 72 arranged on the support frame, two vertical rods 73 respectively arranged at the left end and the right end of the cross rod, a material guide rod 74 fixedly arranged at the upper part of the vertical rod, and an abutting push rod 75 fixedly arranged at the lower part of the vertical rod, wherein the abutting push rod 75 is obliquely arranged from bottom to top and from outside to inside; when the clamping assembly moves from the inner end position to the outer end position of the abutting push rod, the abutting push rod 75 pushes the left and right clamping assemblies to move away from each other; the support frame is directly placed subaerial, and horizontal pole, montant, guide pole, conflict push rod are the metal and make, have great hardness.

The processing unit further comprises a plurality of pressing and gluing devices for gluing the plates, and the first conveying unit, the second conveying unit and the third conveying unit respectively correspond to one pressing and gluing device; the compressing and gluing device comprises a floor frame 51, a connecting pin 52 arranged on the floor frame, a telescopic rod 53 capable of stretching relative to the connecting pin, a spring 54 acting on the telescopic rod, a glue spreader 55 connected with the telescopic rod and a deviation correcting component positioned on the front side of the glue spreader; the floor stand is placed on the ground, and the connecting feet are fixedly connected with the floor stand and can be fixedly connected in a welding mode; the connecting foot is of a cylindrical structure, the spring is arranged in the connecting foot, the telescopic rod is a metal rod, one end of the spring is connected with the landing frame, and the other end of the spring is connected with the telescopic rod, so that the telescopic rod can move up and down relative to the connecting foot; the glue spreader is a hollow metal roller and a sponge sleeved outside the metal roller, the metal roller is connected with a hose, and glue is conveyed into the metal roller through the hose; the connecting foot and the telescopic link that mention above-mentioned set up to two, and the both ends of metal roller link to each other with two telescopic links respectively, and the metal roller can take place to rotate by telescopic link relatively.

Specifically, the deviation correcting part comprises an L-shaped positioning frame 61 fixedly arranged on the floor frame, an L-shaped movable frame 62 capable of moving up and down relative to the positioning frame, a first leveling plate 63 capable of moving back and forth relative to the movable frame, a bending section 64 arranged on the end part of the first leveling plate, a second leveling plate 65 arranged on the middle part of the leveling plate and close to the rear position, a driving block 66 arranged on the rear side of the second leveling plate, a chamfer surface 67 arranged on the driving block, a contact block 68 arranged on the first limiting plate, an inclined surface 69 arranged on the contact block and matched with the chamfer surface, a first elastic member 610 arranged on the positioning frame and used for supporting the movable frame, and a second elastic member 611 arranged between the movable frame and the first leveling plate; the inclined surface 69 is inclined from top to bottom; the bending section is formed by directly bending the end part of the first leveling plate, and the first elastic piece and the second elastic piece are both springs.

The second conveying unit comprises a plate conveying belt 81, a plurality of openings 82, a turning plate 83, a blocking edge 84, a left support rod 85 and a right support rod 86, a first inclined rod 87 and a second inclined rod 88, wherein at least part of the plate conveying belt 81 is positioned above the left conveying belt and the right conveying belt, the plurality of openings 82 are formed in the plate conveying belt, the turning plate 83 can be turned over and is arranged on the openings, the blocking edge 84 is arranged on the openings and is matched with the turning plate, the left support rod 85 and the right support rod 86 are arranged below the plate conveying belt, the first inclined rod 87 is arranged on the left support rod in an inclined mode from top to bottom, the second inclined rod 88 is arranged at the end part of the right support rod in an inclined mode from top to; the plate conveying belt can adopt a belt conveyor directly purchased from the market, the opening is arranged on the belt, and the turning plate is a rubber plate directly cut from the belt after the opening is cut, so that the plate conveying belt has large deformation capacity and cannot influence the normal operation of the conveying belt; the structure of the third conveying unit is the same as that of the second conveying unit, so that the description is omitted; the first conveying unit 10 is a belt conveyor directly purchased from the market, and is not described in detail.

The discharging device comprises a belt conveyor 91 arranged at the tail part of the left and right conveying belts and two guide rail rods 92 arranged at the side part of the belt conveyor, and the processed plates can be conveyed to the belt conveyor through the guide rail rods under the pushing action of the plates at the rear side.

Claims

1. A production process of a green environment-friendly waterproof structural plate is characterized by comprising the following steps: the plate comprises an inner layer (11) and two outer layers (12) which are respectively bonded with the upper surface and the lower surface of the inner layer through bonding layers (13), wherein the bonding layers (13) are glue layers, the inner layer (11) is a metal grid layer, and the outer layers (12) are centrifugal glass wool layers;

the production process comprises the following steps:

the outer layer at the bottom is conveyed to a processing unit through a first conveying unit of an automatic production line, and the outer layer is conveyed to a discharging unit by the processing unit;

the processing unit carries out gluing and leveling operation on the outer layer in the process of conveying the outer layer to the discharging unit, and the second conveying unit of the automatic production line simultaneously conveys the inner layer to the processing unit and correspondingly places the inner layer on the outer layer;

then the processing unit conveys the bonded inner and outer layers to a discharging unit together, the inner layer is coated with glue and leveled in the conveying process, and the third conveying unit of the automatic production line simultaneously conveys the outer layer to the processing unit and correspondingly places the outer layer on the inner layer;

and then the processing unit conveys the plate to the discharging unit, the plate is simultaneously compressed in the conveying process, and the plate is conveyed to the discharging unit and then is discharged outwards by the discharging unit.

2. The production process of the green environment-friendly waterproof structural plate as claimed in claim 1, wherein the production process comprises the following steps: the automatic production line comprises the processing unit, a first conveying unit, a second conveying unit, a third conveying unit and a discharging unit, wherein the processing unit comprises a left conveying belt (21), a right conveying belt (22) arranged opposite to the left conveying belt, a plurality of left clamping assemblies evenly distributed at intervals along the length direction of the left conveying belt, a plurality of right clamping assemblies evenly distributed at intervals along the length direction of the right conveying belt and a driving part used for driving the left conveying belt and the right conveying belt to synchronously rotate.

3. The production process of the green environment-friendly waterproof structural plate as claimed in claim 2, wherein the production process comprises the following steps: the left clamping assembly comprises a first fixed rod (31) fixedly connected to the left conveying belt, a first moving rod (32) capable of stretching relative to the first fixed rod and penetrating into the first fixed rod, a first spring (33) connected with the moving rod, a first clamping plate (34) fixedly connected to the end part of the first moving rod, a first limiting plate (35) arranged at the right lower corner of the first clamping plate, a second fixed rod (36) fixedly connected to the left conveying belt, a second moving rod (37) capable of stretching relative to the second fixed rod and penetrating into the second fixed rod, a second spring (38) connected with the moving rod, a second clamping plate (39) fixedly connected to the end part of the second moving rod and a second limiting plate (40) arranged at the left lower corner of the second clamping plate; a distance is reserved between the first fixing rod (31) and the second fixing rod (36), and the first limiting plate (35) and the second limiting plate (40) are both arranged in an L-shaped structure and are symmetrically arranged.

4. The production process of the green environment-friendly waterproof structural plate as claimed in claim 3, wherein the production process comprises the following steps: the processing unit further comprises a plurality of pressing and gluing devices for gluing the plates, and the first conveying unit, the second conveying unit and the third conveying unit respectively correspond to one pressing and gluing device; the compressing and gluing device comprises a floor frame (51), connecting pins (52) arranged on the floor frame, a telescopic rod (53) capable of stretching relative to the connecting pins, a spring (54) acting on the telescopic rod, a glue spreader (55) connected with the telescopic rod and a deviation rectifying part positioned on the front side of the glue spreader.

5. The production process of the green environment-friendly waterproof structural plate as claimed in claim 4, wherein the production process comprises the following steps: the deviation rectifying component comprises an L-shaped positioning frame (61) fixedly arranged on the floor frame, an L-shaped movable frame (62) capable of moving up and down relative to the positioning frame, a first leveling plate (63) capable of moving back and forth relative to the movable frame, a bending section (64) arranged on the end part of the first leveling plate, a second leveling plate (65) arranged at the position close to the back of the middle part of the leveling plate, a driving block (66) arranged at the back side of the second leveling plate, a chamfering surface (67) arranged on the driving block, a contact block (68) arranged on the first limiting plate, an inclined surface (69) arranged on the contact block and matched with the chamfering surface, a first elastic piece (610) arranged on the positioning frame and used for supporting the movable frame, and a second elastic piece (611) arranged between the movable frame and the first leveling plate; the inclined surface (69) is inclined from top to bottom.

6. The production process of the green environment-friendly waterproof structural plate as claimed in claim 2, wherein the production process comprises the following steps: and a feeding device for driving the left clamping assembly and the right clamping assembly to be away from each other so as to convey the plates to the left clamping member and the right clamping member is arranged at the joint of the processing unit and the first conveying unit.

7. The production process of the green environment-friendly waterproof structural plate as claimed in claim 6, wherein the production process comprises the following steps: the feeding device comprises a support frame (71), a cross rod (72) arranged on the support frame, two vertical rods (73) respectively arranged at the left end and the right end of the cross rod, a material guide rod (74) fixedly arranged at the upper parts of the vertical rods and a contact push rod (75) fixedly arranged at the lower parts of the vertical rods, wherein the contact push rod (75) is obliquely arranged from bottom to top and from outside to inside; when the clamping components move from the inner end position to the outer end position of the abutting push rod, the abutting push rod (75) pushes the left clamping component and the right clamping component to be away from each other.

8. The production process of the green environment-friendly waterproof structural plate as claimed in claim 1, wherein the production process comprises the following steps: the second conveying unit comprises a plate conveying belt (81) which is at least partially positioned above the left conveying belt and the right conveying belt, a plurality of openings (82) formed in the plate conveying belt, turning plates (83) which can be turned over and are arranged on the openings, blocking edges (84) which are arranged on the openings and matched with the turning plates, a left support rod (85) and a right support rod (86) which are arranged below the plate conveying belt, first inclined rods (87) which are arranged on the left support rod in an inclined mode from top to bottom, and second inclined rods (88) which are arranged at the end parts of the right support rod in an inclined mode from top to bottom, wherein distances are formed between the end parts of the second inclined rods, and gaps are formed between the upper surfaces of the left support rod (85) and the right support rod (86) and the plate conveying belt (.