CN117262593B - High-density plate conveyor system and automatic production line - Google Patents

Abstract

The invention discloses a high-density plate conveyor system, which comprises a first conveyor belt and a second conveyor belt arranged above the first conveyor belt, wherein a feeding end is formed between the first conveyor belt and the second conveyor belt, a conveying smoothing component is slidably arranged in the feeding end along the conveying direction of the first conveyor belt, and the smoothing component is provided with a first position and a second position in the conveying direction respectively; and in the first position, the smoothing component smoothes and limits the formed plate conveyed to the second conveying belt, and smoothes and limits the side edge of the formed plate. The high-density plate conveyor system and the automatic production line provided by the invention can smooth and limit the whole surface of the formed plate, not only can integrally improve the stability of plate forming in the conveying process, but also can limit the conveyed formed plate, can extrude and smooth the formed plate, integrally improve the effect of a smoothing component, and are convenient for conveying of the conveyor system.

Description

High-density plate conveyor system and automatic production line

Technical Field

The invention relates to the technical field of conveyors, in particular to a high-density plate conveyor system and an automatic production line.

Background

In the prior art, in various industries, in particular, the transportation of artware, fragile products and precise products is carried out through a high-density foam board, so that the protection effect is achieved, however, when the production of the foam board is carried out, firstly, food-grade LDPE is heated and plasticized, foaming is carried out after probing, then the foam board is formed by a forming machine, finally, the formed foam board is carried to the downstream by a conveyor system, and then, the subsequent processing such as cooling, shaping, curing and the like is carried out.

However, when the product is conveyed by the conveyor system, since the product is just conveyed from the forming device with higher temperature, even after cooling, the foam forming plate has a certain degree of instability, after falling into the conveyor system, various deformations of different degrees can occur in part easily, and the conveying stability is not high.

Disclosure of Invention

The invention aims to provide a high-density plate conveyor system and an automatic production line, which are used for solving the defects in the prior art.

In order to achieve the above object, the present invention provides the following technical solutions:

The high-density plate conveyor system comprises a first conveyor belt and a second conveyor belt arranged above the first conveyor belt, wherein a feeding end is formed between the first conveyor belt and the second conveyor belt, a conveying smoothing component is slidably arranged in the feeding end along the conveying direction of the first conveyor belt, and the smoothing component is provided with a first position and a second position in the conveying direction respectively;

In the first position, the smoothing component performs smoothing limit on the formed plate conveyed to the second conveying belt, and synchronously moves along with the formed plate to a second position;

and in the process that the smoothing component moves from the second position to the first position, the side edge of the formed plate is smoothed and limited.

In a further preferable scheme of the embodiment of the invention, the side edge of the second conveying belt is also provided with a fixing frame, the fixing frame is fixedly arranged on a bracket of the first conveying belt, a reset component is arranged on the bracket, and when the smoothing component moves to the second position, the smoothing component moves to the first position through the reset component.

In a further preferable scheme of the embodiment of the invention, the smoothing component comprises a connecting block which is arranged along the fixing frame in a sliding manner, a side wheel is rotatably arranged on the connecting block, and the side wheel is arranged along the vertical direction.

In a further preferable scheme of the embodiment of the invention, the pressing wheel is rotatably arranged on the connecting block, a limiting channel is formed between the pressing wheel and the first conveying belt, and the formed plate passes through the limiting channel to limit in the vertical direction.

In a further preferred scheme of the embodiment of the invention, the device further comprises a conveying moving part arranged on the first conveying belt, and the conveying moving part can drive the smoothing assembly to synchronously move to the second position.

In a further preferable scheme of the embodiment of the invention, the conveying moving piece comprises a fixed stop block fixedly arranged on the first conveying belt, a sliding stop block is slidably arranged below the side wheel, and in the conveying process, the fixed stop block is blocked on the sliding stop block so as to drive the smoothing component to move.

In a further preferable embodiment of the present invention, the second conveyor belt has a conveying open space 101 and a conveying extrusion space 102, respectively, and a height dimension of the conveying open space 101 is greater than a thickness dimension of the formed sheet material.

In a further preferable scheme of the embodiment of the invention, the first conveyor belt is further provided with a cutting assembly for cutting the formed plate, and the cutting assembly is driven to synchronously move in the process of moving the leveling assembly from the first position to the second position and is driven to cut the end part of the formed plate in the moving process.

In a further preferable scheme of the embodiment of the invention, the cutting assembly comprises a transverse sliding block fixedly connected to the connecting block, the transverse sliding block is arranged in a transverse sliding groove formed in the fixing frame in a sliding manner, a fixing rod is arranged in the transverse direction in a sliding manner along the vertical direction, one end of the fixing rod is fixedly connected with a fixing cross rod, a cutting knife is arranged below the fixing cross rod, and the cutting knife gradually moves downwards under the action of a limiting groove in the synchronous conveying process and cuts the formed plate.

A production line comprises the conveying mechanism.

In the technical scheme, the high-density plate conveyor system and the automatic production line provided by the invention have the beneficial effects that:

According to the conveyor system provided by the invention, the first conveyor belt and the second conveyor belt are arranged, and then the movable smoothing component is arranged between the first conveyor belt and the second conveyor belt, so that after the formed plate is conveyed onto the first conveyor belt, the starting end of the plate can be limited, the deformation of the plate can be greatly reduced, the formed plate can be synchronously conveyed along with the formed plate, the starting end of the formed plate can be continuously limited, then after the smoothing component moves to the second position, the first position of the box moves, namely, in the moving process, the smoothing component and the formed plate can relatively move, namely, the smoothing effect of the device can be greatly improved, the forming stability of the plate in the conveying process can be integrally improved, the conveyed formed plate can be limited, the smoothing component is extruded, the effect of the smoothing component is integrally improved, and the conveying of the conveyor system is facilitated.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the disclosure.

This document provides an overview of various implementations or examples of the technology described in this disclosure, and is not a comprehensive disclosure of the full scope or all of the features of the technology disclosed.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings required for the embodiments will be briefly described below, and it is apparent that the drawings in the following description are only some embodiments described in the present application, and other drawings may be obtained according to these drawings for a person having ordinary skill in the art.

FIG. 1 is a schematic view of the overall structure provided by an embodiment of the present invention;

FIG. 2 is a schematic diagram of a partial structure of a conveyor system according to an embodiment of the present invention;

FIG. 3 is a schematic cross-sectional view of an embodiment of the present invention;

fig. 4 is an enlarged schematic view of a structure at a provided in an embodiment of the present invention;

FIG. 5 is a schematic view of a structure of a fixed cross bar and a cutter according to an embodiment of the present invention;

FIG. 6 is a schematic diagram of a smoothing assembly and a cutting assembly according to an embodiment of the present invention;

FIG. 7 is a schematic view of a smoothing assembly and a cutting assembly according to an embodiment of the present invention;

fig. 8 is a schematic structural view of a tightening frame according to an embodiment of the present invention;

FIG. 9 is a schematic diagram of a pressing wheel and a side wheel according to an embodiment of the present invention;

fig. 10 is a schematic top view of a tightening frame according to an embodiment of the present invention

FIG. 11 is an enlarged schematic view of the structure at B according to an embodiment of the present invention;

Fig. 12 is a schematic view of a partial structure according to an embodiment of the present invention.

Reference numerals illustrate:

1. A second conveyor belt; 11. a fixed stop block; 111. a fixed block; 2. a fixing frame; 3. a first conveyor belt; 4. a molding machine; 5. a transverse slide block; 51. moving the roller; 6. fixing the cross bar; 61. a fixed rod; 62. a cutting knife; 611. a guide post; 7. a connecting block; 71. pressing the wheel; 711. a side wheel; 712. a sliding block; 7121. an inclined plane; 201. a transverse chute; 202. a first chute; 203. a second chute; 8. a tightening frame; 81. a sliding roller; 82. an elastic member; 101. conveying the open space 101; 102. the extrusion space 102 is conveyed.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present disclosure more apparent, the technical solutions of the embodiments of the present disclosure will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present disclosure. It will be apparent that the described embodiments are some, but not all, of the embodiments of the present disclosure. All other embodiments, which can be made by one of ordinary skill in the art without the need for inventive faculty, are within the scope of the present disclosure, based on the described embodiments of the present disclosure.

Referring to fig. 1-12, a high-density board conveyor system includes a first conveyor belt 3 and a second conveyor belt 1 disposed above the first conveyor belt 3, wherein a feeding end is formed between the first conveyor belt 3 and the second conveyor belt 1, a conveying smoothing assembly is slidably disposed in the feeding end along a conveying direction of the first conveyor belt 3, and the smoothing assembly has a first position and a second position in the conveying direction;

In the first position, the smoothing component performs smoothing limit on the formed plate conveyed to the second conveying belt 1, and synchronously moves along with the formed plate to a second position;

And in the process that the smoothing component moves from the second position to the first position, the side edge of the formed plate is smoothed and limited.

According to the conveyor system provided by the invention, the first conveyor belt 3 and the second conveyor belt 1 are arranged, and then the movable smoothing component is arranged between the first conveyor belt 3 and the second conveyor belt 1, so that after the formed plate is conveyed onto the first conveyor belt 3, the starting end of the plate production can be limited, the deformation of the plate can be greatly reduced, the formed plate can be synchronously conveyed and moved, the starting end of the formed plate can be continuously limited, then after the smoothing component moves to the second position, the first position of the box moves, namely, in the moving process, the smoothing component and the formed plate can relatively move, namely, the smoothing effect of the device can be greatly improved, the stability of the plate forming in the conveying process can be integrally improved, the conveyed formed plate can be limited, the effect of the smoothing component is integrally improved, and the conveying of the conveyor system is facilitated.

In a further embodiment of the present invention, the side edge of the second conveyor belt 1 is further provided with a fixing frame 2, the fixing frame 2 is fixedly arranged on a support of the first conveyor belt 3, a reset assembly is arranged on the support, and when the leveling assembly moves to the second position, the leveling assembly moves to the first position through the reset assembly.

In a further embodiment of the present invention, the smoothing assembly includes a connection block 7 slidably disposed along the fixing frame 2, and a side wheel 711 is rotatably disposed on the connection block 7, and the side wheel 711 is disposed in a vertical direction.

In a further embodiment of the present invention, the pressing wheel 71 is rotatably disposed on the connection block 7, a limiting channel is formed between the pressing wheel 71 and the first conveyor belt 3, and the formed plate member passes through the limiting channel to perform limiting in the vertical direction.

Further, the device also comprises a conveying moving part arranged on the first conveying belt 3, and the conveying moving part can drive the smoothing component to synchronously move to the second position

Further, the conveying moving member comprises a fixed stop block 11 fixedly arranged on the first conveying belt 3, a sliding stop block 712 is slidably arranged below the side wheel 711, and in the conveying process, the fixed stop block 11 is blocked on the sliding stop block 712 so as to drive the smoothing assembly to move.

In a further embodiment of the present application, the second conveyor belt 1 has a conveying open space 101 and a conveying extrusion space 102, respectively, and the height dimension of the conveying open space 101 is greater than the thickness dimension of the formed sheet material. The height dimension of the extrusion conveying space is the thickness dimension required by the formed plate, when the formed plate is conveyed onto the first conveying belt 3, the formed plate firstly passes through the conveying open space 101 and then gradually enters the conveying extrusion space 102 along with the conveying of the first conveying belt 3, namely, the formed plate can be conveyed onto the first conveying belt 3 more quickly and stably through the arrangement of the conveying open space 101 and the conveying extrusion space 102, and then in the conveying process, when the formed plate is conveyed onto the conveying extrusion space 102, the formed plate can be limited and shaped through the cooperation of the first conveying belt 3 and the second conveying belt 1, namely, the dimension standard of the formed plate can be greatly improved.

In a further embodiment of the present invention, the first conveyor belt 3 is further provided with a cutting assembly for cutting the formed sheet material, and the cutting assembly is driven to move synchronously in the process of moving the leveling assembly from the first position to the second position, and the cutting assembly is driven to cut the end portion of the formed sheet material in the moving process.

In the prior art, when the foam-molded plate is produced again, the product is extruded by the molding machine 4, namely, when the plate just comes out, the position of the end part of the product does not meet the size requirement, so that the end part of the plate at the position just produced can be used after being cut. Namely, the starting end of the formed plate can be cut in real time in the conveying process, namely, the subsequent cutting of the position of the starting end of the plate can be omitted, namely, a subsequent cutting step can be completely omitted, and the functionality of the conveyor system is greatly improved.

In a further provided embodiment of the invention, the cutting assembly comprises a transverse sliding block 5 fixedly connected to the connecting block 7, the transverse sliding block 5 is slidably arranged in a transverse sliding groove 201 formed in the fixing frame 2, a fixing rod 61 is slidably arranged in the transverse direction along the vertical direction, one end of the fixing rod 61 is fixedly connected with a fixing cross rod 6, a cutting knife 62 is arranged below the fixing cross rod 6, the cutting knife 62 moves downwards gradually under the action of a limiting groove in the synchronous conveying process, the formed plate is cut, in order to facilitate the sliding of the transverse sliding block 5, a moving roller is arranged on the transverse sliding block 5, rolling friction is changed, the movement of the transverse sliding block 5 is greatly facilitated, and a tension spring is arranged between the transverse sliding block 5 and the transverse sliding groove 201, and the elasticity of the tension spring enables the smoothing assembly and the cutting assembly to have a trend of moving towards the direction of the forming machine 4.

The specific limiting groove comprises a first chute 202 and a second chute 203 which are arranged on the fixed frame 2 and are communicated, the first chute 202 and the second chute 203 are respectively communicated with the transverse chute 201, a guide post 611 which is suitable for the limiting groove is elastically arranged on the fixed rod 61 in a sliding manner, namely, when the side wheel 711 is pushed to move, the connecting block 7 and the connected transverse sliding block 5 can be driven to move, then the guide post 611 on the fixed rod 61 is driven to move along the chute, and as the first chute 202 gradually moves downwards, namely, the guide post can be driven to move downwards, namely, the cutting knife 62 can be driven to move downwards, and the formed plate is cut, so that the end part of the formed plate is cut.

Further, as shown in fig. 12, one end of the transverse chute 201 is connected to the first chute 202, the other end is connected to the second chute 203, and the depth of the first chute 202 is deeper than that of the transverse chute 201, and the depth of the second chute 203 is shallower than that of the transverse chute 201, that is, the guide post 611 can be made to move along the first chute 202 without moving into the transverse chute 201 during the process of moving the cutting assembly from the first position to the second position, and the guide post 611 can be made to move along the first chute 202 to the second chute 203 and into the transverse chute 201 during the process of moving the cutting assembly from the second position to the first position, that is, the stability of the cutting knife 62 during the movement can be greatly improved.

Still including sliding setting up the tight frame 8 that supports on first conveyer belt 3 support, and support and be provided with elastic component 82 in the sliding tray of tight frame 8 and first conveyer belt 3 support, support tight frame 8 and move towards the position in the middle of the first conveyer belt 3 under the elasticity of elastic component 82, and support the one end rotation on the tight frame 8 and be provided with sliding roller 81, and support the one end of tight frame 8 and open the setting outwards, as shown in fig. 11, outwards open 2, here design can help shaping panel to get into to two support between the tight frame 8, moreover be convenient for greatly again to shaping of shaping panel.

Specifically, the first conveyor belt 3 is further provided with a fixed block 111, and the fixed block 111 is disposed at a position where the sliding block 712 is conveyed, after the sliding block 712 moves onto the fixed block 111, the fixed block 111 presses against the inclined surface 7121 of the sliding block 712, and then gradually presses the sliding block 712 to move towards the connecting block 7 in the continuous moving process, so that the sliding block 712 is separated from the fixed block 11, and the whole smoothing assembly and the cutting assembly return to the initial positions as shown in fig. 2 under the elastic force of the spring.

When the invention is used, firstly, the plate produced by the forming machine 4 is conveyed to the first conveying belt 3, in the conveying process, the first conveying belt 3 and the second conveying belt 1 start to be driven, then the formed plate is conveyed through the first conveying belt 3, in the continuous conveying process, the fixed stop block 11 arranged on the first conveying belt 3 is abutted against the sliding stop block 712, then in the moving process, the side wheel 711 and the connected connecting block 7 are driven to continuously move along the transverse chute 201, and then in the moving process, the cutting assembly and the smoothing assembly are respectively driven to move specifically:

The connecting block 7 slides along the transverse chute 201 transversely under the sliding of the transverse slide block 5, that is, after the formed sheet falls onto the conveying belt, the formed sheet enters below the pressing wheel 71 and moves to the position of the cutting knife 62, then continuously and synchronously moves, in the moving process, the guide post 611 gradually moves towards the direction of the first chute 202, in the moving process, the fixed cross bar 6 is gradually driven to move downwards, that is, the connected cutting knife 62 also gradually moves downwards, and the movement of the cutting knife 62 is consistent with the movement speed of the formed sheet, then in the conveying process, the blade can be gradually moved downwards, the end of the formed sheet is cut, when the fixed cross bar 6 moves to the bottommost part of the first chute 202, that is, the formed sheet is completely cut, then in the continuous conveying process, the guide post 611 gradually moves into the second chute 203, then in the continuous moving process, the guide post 611 gradually moves along the second chute 203, and drives the cutting knife 62 to gradually move upwards, the end of the cutting knife 62 gradually moves upwards, and the end of the formed sheet moves to the end of the formed sheet is cut at the same time as the end of the first chute 202, and then moves to the elastic piece 201 transversely along the transverse chute 5, and the elastic piece moves along the transverse chute 2, and the elastic piece is connected to the transverse chute 5, and the elastic piece moves along the transverse chute 201 is transversely at the transverse chute). The fixed stop 11 resists the process of the sliding stop 712, the inclined surface 7121 arranged on the sliding stop 712 gradually collides against the fixed block 111 arranged on the first conveying belt 3, then the sliding stop 712 is extruded, so that the sliding stop 712 is contracted to the inside of the side wheel 711, the sliding stop 712 is gradually separated from the fixed stop 11, then the smoothing component and the cutting component are not blocked by the fixed stop 11, and then move to the initial position, namely, move towards the direction of the forming machine 4 under the elasticity of the elastic piece 82, and in the returning process, the connected pressing wheel 71 is driven to move towards the initial direction, namely, the pressing wheel 71 can be driven to roll along the upper surface of the forming plate, namely, the rolling can be gradually carried out in the process of returning the smoothing component to the initial position.

The invention also provides an automatic production line which comprises the conveying mechanism, so the automatic production line also has the effects and is not repeated.

While certain exemplary embodiments of the present invention have been described above by way of illustration only, it will be apparent to those of ordinary skill in the art that modifications may be made to the described embodiments in various different ways without departing from the spirit and scope of the invention. Accordingly, the drawings and description are to be regarded as illustrative in nature and not as restrictive of the scope of the invention, which is defined by the appended claims.

Claims (4)

1. A high density board conveyor system comprising a first conveyor belt (3) and a second conveyor belt (1) arranged above the first conveyor belt (3), characterized in that: a feeding end is formed between the first conveying belt (3) and the second conveying belt (1), a conveying leveling assembly is slidably arranged in the feeding end along the conveying direction of the first conveying belt (3), and the leveling assembly is provided with a first position and a second position in the conveying direction respectively;

in the first position, the smoothing component smoothes and limits the formed plate conveyed to the second conveying belt (1), and synchronously moves along with the formed plate to a second position;

in the process that the smoothing component moves from the second position to the first position, smoothing and limiting are carried out on the side edges of the formed plate;

the side edge of the second conveying belt (1) is also provided with a fixing frame (2), the fixing frame (2) is fixedly arranged on a support of the first conveying belt (3), a reset assembly is arranged on the support, and when the smoothing assembly moves to a second position, the smoothing assembly moves to a first position through the reset assembly;

the smoothing assembly comprises a connecting block (7) which is arranged along the fixing frame (2) in a sliding manner, a side wheel (711) is rotatably arranged on the connecting block (7), and the side wheel (711) is arranged along the vertical direction;

the first conveying belt (3) is also provided with a cutting assembly for cutting the formed plate, and the cutting assembly is driven to synchronously move in the process of moving the leveling assembly from the first position to the second position and is driven to cut the end part of the formed plate in the moving process;

The cutting assembly comprises a transverse sliding block (5) fixedly connected to a connecting block (7), the transverse sliding block (5) is arranged in a transverse sliding groove (201) formed in a fixing frame (2) in a sliding mode, a fixing rod (61) is arranged on the transverse sliding block (5) in a sliding mode along the vertical direction, one end of the fixing rod (61) is fixedly connected with a fixing cross rod (6), a cutting knife (62) is arranged below the fixing cross rod (6), and the cutting knife (62) moves downwards gradually under the action of a limiting groove in the synchronous conveying process and cuts a formed plate;

in the moving process, the fixed cross rod (6) is gradually driven to move downwards, the connected cutting knife (62) also gradually moves downwards, the movement speed of the cutting knife (62) is consistent with that of the formed plate, and then in the conveying process, the cutting knife can gradually move downwards to cut the end part of the formed plate;

The limiting groove comprises a first chute (202) and a second chute (203) which are arranged on the fixed frame (2) and are communicated with each other, the first chute (202) and the second chute (203) are respectively communicated with the transverse chute (201), a guide post (611) which is matched with the limiting groove is arranged on the fixed rod (61) in a sliding manner, when the side wheel (711) is pushed to move, the connecting block (7) and the connected transverse sliding block (5) can be driven to move, then the guide post (611) on the fixed rod (61) is driven to move along the chute, and as the first chute (202) gradually moves downwards, the guide post can be driven to move downwards, the cutting knife (62) can be driven to move downwards, and the formed plate is cut, so that the end part of the formed plate is cut;

One end of the transverse chute (201) is connected with the first chute (202), the other end of the transverse chute is connected with the second chute (203), the depth of the first chute (202) is deeper than that of the transverse chute (201), and the depth of the second chute (203) is shallower than that of the transverse chute (201);

a pressing wheel (71) is rotatably arranged on the connecting block (7), a limiting channel is formed between the pressing wheel (71) and the first conveying belt (3), and the formed plate passes through the limiting channel to limit in the vertical direction;

The device further comprises a conveying moving part arranged on the first conveying belt (3), and the conveying moving part can drive the smoothing assembly to synchronously move to a second position.

2. A high-density board conveyor system according to claim 1, characterized in that the conveying movement comprises a fixed stop (11) fixedly arranged on the first conveyor belt (3), and that a sliding stop (712) is slidingly arranged below the side wheel (711), and that the fixed stop (11) abuts against the sliding stop (712) during conveying to move the smoothing assembly.

3. A high-density board conveyor system according to claim 1, characterized in that the second conveyor belt (1) has a conveying open space (101) and a conveying press space (102), respectively, the height dimension of the conveying open space (101) being larger than the thickness dimension of the formed board.

4. An automated production line comprising the high density board conveyor system of any one of claims 1-3.