CN116550883A

CN116550883A - Metal surface sandwich panel continuous production line

Info

Publication number: CN116550883A
Application number: CN202310835422.XA
Authority: CN
Inventors: 张建建; 王钢; 吴彬
Original assignee: Nantong Square Energy Saving Technology Co ltd; Square Technology Group Co Ltd
Current assignee: Nantong Square Energy Saving Technology Co ltd; Square Technology Group Co Ltd
Priority date: 2023-07-10
Filing date: 2023-07-10
Publication date: 2023-08-08

Abstract

The invention provides a continuous production line of a metal surface sandwich board, which comprises an unreeling machine, a rolling machine and a rolling machine, wherein the unreeling machine is used for releasing a metal plate; the conveying line is connected with the unreeling machine and is used for conveying the metal plates; the automatic plate receiving device is used for connecting the two metal plates; pinch roll device, is used for controlling the speed that the metal sheet moves; the bending buffer area is arranged between the conveying lines and is used for buffering the metal plates; the metal sheet sets up on the unreeling machine, release the metal sheet through the unreeling machine to carry out the transport of metal sheet through the transfer chain, link together two metal sheets through setting up automatic fishplate bar device, guarantee continuous production, for preventing in the course of working, two metal sheets have not accomplished the connection yet, cause the discontinuity of production, set up crooked buffer between the transfer chain, for the movable speed of two metal sheets of rational control, guarantee that the metal sheet can be in automatic fishplate bar device department connection, set up the pinch roll subassembly.

Description

Metal surface sandwich panel continuous production line

Technical Field

The application relates to the technical field of manufacturing of metal face sandwich panels, in particular to a continuous production line of metal face sandwich panels.

Background

Along with the wider and wider application of the heat-insulating sandwich panel in buildings such as industrial plants and cold chain enclosures, the production unit of the heat-insulating sandwich panel is limited by the length limitation of the metal panel at the outer layer of the sandwich panel in production, when a group of metal panels are produced, the production is stopped, new metal panels are replaced, production is continued, and the operation of starting and stopping for a plurality of times in the production of one shift occurs. Therefore, a device capable of automatically splicing metal panels in continuous production is urgently needed to achieve a state of continuous production without stopping.

Disclosure of Invention

The invention aims to solve the problems and provides a continuous production line of a metal surface sandwich board.

To achieve the above object, the present invention provides a continuous production line for metal-faced sandwich panels, comprising

The unreeling machine is used for releasing the metal plate;

the conveying line is connected with the unreeling machine and is used for conveying the metal plates;

the automatic plate receiving device is used for connecting the tail part of the previous metal plate with the head part of the next metal plate;

pinch roll device, is used for controlling the speed that the metal sheet moves;

the bending buffer area is arranged between the conveying lines and is used for buffering the metal plates;

the unreeling machine releases the metal plate and conveys the metal plate through a conveying line, when the release of the former metal plate is completed and the release of the latter metal plate is started, the pinch roll device controls the moving speed of the metal plate, and the connection between the tail part of the former metal plate and the head part of the latter metal plate is completed at the automatic plate receiving device.

Further specifically, the automatic plate receiving device comprises a processing table, a connecting component arranged above the processing table, a moving component driving the connecting component to move and a rotating component driving the connecting component to rotate.

Further specifically, the moving assembly comprises a guide rail, a sliding block arranged on the connecting assembly and a moving air cylinder for driving the connecting assembly to move, and the moving air cylinder drives the connecting assembly to move towards one side close to or far away from the processing table.

Further specifically, the rotating assembly comprises a rack, a gear arranged on the connecting assembly and a driving cylinder for driving the rack to move, wherein the driving cylinder drives the rack to move up and down, and the gear drives the connecting assembly to rotate.

Further specifically, an electromagnet assembly is disposed on the processing table.

Further specifically, the connecting component comprises a placing support and a placing table capable of rotating on the placing support, and the sliding block is arranged on the placing support.

Further specifically, an adsorption assembly is provided on the placement table.

Further specifically, a visual detection device is arranged on the automatic plate receiving device.

Further specifically, the unreeling machine is provided with a metering device.

Further specifically, two unreeling machines are arranged.

The continuous production line of the metal surface sandwich board can realize the following technical effects that the metal plate is arranged on the unreeling machine, and the metal plate is released through the unreeling machine to process the metal plate; conveying the metal plate through a conveying line; the automatic plate receiving device is arranged to connect the former metal plate and the latter metal plate together, so that continuous production is ensured; in order to prevent the production discontinuity caused by the fact that the previous metal plate and the next metal plate are still subjected to the connection operation in the processing process, the redundant metal plates are conveyed, a bending buffer area is arranged between conveying lines, and the metal plates with a certain length are reserved to ensure the connection operation; in order to reasonably control the moving speed of the two metal plates, the former metal plate and the latter metal plate can be connected at the automatic plate connecting device, and a pinch roll assembly is arranged.

Drawings

Exemplary embodiments of the present application will be described in detail below with reference to the attached drawing figures, it being understood that the embodiments described below are only used to explain the present application, and do not limit the scope of the present application, wherein:

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic perspective view of an automatic pallet receiving device according to the present invention;

FIG. 3 is a schematic perspective view of an automatic pallet receiving device according to the present invention;

in the figure: 1. an unreeling machine; 2. pinch roll means; 3. an automatic plate receiving device; 31. a fixed bracket; 32. a processing table; 331. placing a bracket; 332. a placement table; 341. a guide rail; 342. a slide block; 343. a moving cylinder; 351. a rack; 352. a gear; 353. a driving cylinder; 36. a diamond bearing seat; 37. a connecting pipe; 38. a visual detection device; 4. a bending buffer zone; 5. a conveying line; 6. a metal plate.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention become more apparent, the technical solutions in the embodiments of the present invention will be described in more detail below with reference to the accompanying drawings in the embodiments of the present invention. In the drawings, the same or similar reference numerals denote the same or similar elements or elements having the same or similar functions throughout. The described embodiments are some, but not all, embodiments of the invention. The embodiments described below by referring to the drawings are illustrative and intended to explain the present invention and should not be construed as limiting the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In the description of the present invention, it should be understood that the terms "center," "longitudinal," "lateral," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, merely to facilitate describing the present invention and simplify the description, and do not indicate or imply that the devices or elements being referred to must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the scope of the present invention. Embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

It should be understood that the drawings are for illustrative purposes only of the present application.

A metal surface sandwich board continuous production line, as shown in figure 1, comprises an unreeling machine 1 for releasing metal plates 6, a conveying line 5 for conveying the metal plates 6, an automatic plate receiving device 3 for connecting the two metal plates 6, a pinch roll device 2 for controlling the moving speed of the metal plates 6 and a bending buffer zone 4 for buffering the metal plates 6; the unreeling machine 1 releases the metal plates 6 and conveys the metal plates through the conveying line 5, and when the two metal plates 6 need to be connected, the pinch roll device 2 controls the conveying speed of the metal plates 6 and connects the two metal plates 6 through the automatic plate connecting device 3. The metal plate 6 sets up on unreeling machine 1, release metal plate 6 through unreeling machine 1 to carry out metal plate 6's transport through transfer chain 5, through setting up automatic fishplate bar device 3, connect two metal plates 6 together, guarantee serialization production, for preventing in the course of working, two metal plates 6 have not yet accomplished the connection, cause the discontinuity of production, set up crooked buffer 4 between transfer chain 5, for the movable speed of rational control two metal plates 6, guarantee that metal plate 6 can connect in automatic fishplate bar device 3 departments, set up the pinch roll subassembly.

The metal plates 6 are stored in the unreeling machine 1, the unreeling machine 1 automatically unreels the metal plates 6, two unreeling machines 1 are arranged on the same layer of metal plates 6 for convenient reel replacement, automatic production of a production line is guaranteed, and after the metal plates 6 on one unreeling machine 1 are processed, the metal plates 6 on the other unreeling machine 1 start to be processed; of course, the unreeling machine 1 can also be provided with one, after unreeling of the previous metal plate 6 is completed, a new metal plate 6 is supplemented on the unreeling machine 1, and the connection of the two metal plates 6 is completed at the automatic plate collecting device 3. The unreeling machine 1 is provided with a meter device, the meter device calculates the meter number of the metal plate 6 on the unreeling machine 1, information of the rest metal plate 6 on the unreeling machine 1 is transmitted to a control system, and the control system controls the unreeling machine 1 to continue unreeling or cut-off according to signals sent by the meter device. When the meter counting device detects that the meter number of the metal plate 6 on the unreeling machine 1 is smaller than a preset value, the meter counting device sends a signal to a control system, the control system controls the unreeling machine 1 to stop unreeling, and cuts off the metal plate 6, and the unreeling machine 1 starts unreeling. In the scheme, the meter counting device is arranged as an electronic meter counter.

The pinch roll device 2 is used for controlling the moving speed of the metal plate 6, under the normal processing condition, the pinch roll device 2 does not operate the metal plate 6, the metal plate 6 normally operates, when the metal plate 6 is required to perform decelerating operation, the pinch roll device 2 clamps the metal plate 6, the slower the speed of the metal plate 6 operates is required, the tighter the pinch roll device 2 clamps the metal plate 6, the controllable speed is ensured to enable the metal plate 6 to reach the automatic plate connecting device 3, the accurate position of the metal plate 6 reaching the automatic plate connecting device 3 is ensured, and the plate connecting operation is convenient. The pinch roll devices 2 are arranged in two, one pinch roll device 2 clamps the metal plate 6 on the first unreeling machine 1, the other pinch roll device 2 clamps the metal plate 6 on the second unreeling machine 1, the operation is convenient, after unreeling of the metal plate 6 on the first unreeling machine 1 is completed, the second pinch roll device 2 can directly clamp the metal plate 6 on the second unreeling machine 1, the operation of conveying the metal plate 6 into the pinch roll device 2 is not needed to be carried out again, and the operation is convenient and the time is saved. Of course, one pinch roll device 2 may be provided, but after the previous metal plate 6 is unwound, the next metal plate 6 is provided in the pinch roll device 2, which is inconvenient to operate. Both pinch roll units 2 are arranged between the bending buffer zone 4 and the unwinder 1.

Be provided with crooked buffer 4 between transfer chain 5, crooked buffer 4 is a pit about 4 meters, and automated production in-process, metal sheet 6 can have about 10 meters to hang and hang in the buffer pit, has guaranteed like this that there is metal sheet 6 to carry forward simultaneously at the fishplate bar in-process, guarantees automated production line's continuity.

As shown in fig. 2 and 3, the automatic plate-receiving device 3 is disposed between the pinch roll devices 2, a fixed support 31 is disposed on the conveying line, the automatic plate-receiving device 3 is disposed on the fixed support 31, a transverse guide rail is disposed on the fixed support 31, the automatic plate-receiving device 3 and the transverse guide rail are cooperatively disposed, the automatic plate-receiving device can move left and right on the fixed support 31, an adhesive tape for connecting the metal plate 6 is conveniently disposed on the fixed support 31, a contact sensing device is disposed on the fixed support 31 and used for detecting whether the automatic plate-receiving device 3 is reset or not, the contact sensing device transmits detected signals to a control system, the control system controls the automatic plate-receiving device 3 to perform plate-receiving operation according to the received signals, and the automatic plate-receiving device 3 can perform plate-receiving operation after being reset. The metal plates 6 may be connected to each other by any structure, such as an adhesive tape or nails, as long as the connection between the two metal plates 6 is satisfied.

The automatic plate receiving device 3 comprises a processing table 32, a connecting component arranged above the processing table 32, a moving component driving the connecting component to move and a rotating component driving the connecting component to rotate. The processing table 32 is a table surface for connecting the head of the metal plate 6 with the tail of the metal plate 6, and the processing table 32 is horizontally arranged so as to facilitate the plate connecting operation of the metal plate 6. The processing table 32 is set to be a UPE polymer table board, and the UPE polymer table board has the characteristics of high strength and good wear resistance, so that unnecessary scratches are avoided when the metal plate 6 is subjected to plate connecting operation on the UPE polymer table board, and the quality of products is ensured. The electromagnet assemblies are arranged on the processing table 32, and after the tail part of the metal plate 6 and the head part of the other metal plate 6 move to the processing table 32, the electromagnet assemblies are operated to adsorb the two ends of the metal plate 6, so that the efficiency of the connecting plate is effectively improved, the connecting effect of the metal plate 6 is ensured, and the effect of influencing the connecting plate due to the rolling or moving of the metal plate 6 is avoided.

The connecting component comprises a placing support 331 and a placing table 332 capable of rotating on the placing support 331, the glass fiber adhesive tape is arranged on the placing table 332, the moving component comprises a guide rail 341 arranged on the fixing support 31, a sliding block 342 arranged on the placing support 331 and a moving cylinder 343 for driving the connecting component to move, the moving cylinder 343 drives the connecting component to move towards one side close to or far away from the processing table 32, the glass fiber adhesive tape is convenient to be adhered to a metal plate 6, the moving stability and reliability of the placing support 331 are guaranteed, the guide rail 341 is uniformly arranged on the fixing support 31, the sliding block 342 is arranged at the position of the placing support 331 relative to the guide rail 341, the placing support 331 can move up and down along the guide rail 341, the number and the position of the guide rail 341 are not limited, as long as the moving stability of the placing support is guaranteed, in the scheme, the guide rail 341 is arranged at two ends of the placing support 331 respectively, and the moving stability of the placing support 331 is guaranteed. The moving cylinder 343 may be disposed in the middle of the placement bracket 331, or may be disposed at two ends of the placement bracket 331, so as to ensure the stability of the movement of the placement bracket 331.

Place support 331 one end and be provided with diamond bearing frame 36 place the both ends of platform 332 set up connecting pipe 37, place connecting pipe 37 and diamond bearing frame 36 of platform 332 one end and be connected, the other end is connected with rotating assembly, through rotating assembly, makes place the platform 332 place the support 331 is last rotatory, when needs are connected metal sheet 6, place the platform 332 rotation for glass fiber sticky tape is towards metal sheet 6, places the platform 332 and moves down, refutes metal sheet 6. For better messenger's glass fiber sticky tape is not dropped on placing the platform 332 place the bench 332 and be provided with adsorption equipment, adsorption equipment is including the gas receiving pipe that sets up in the connecting pipe 37, set up the vacuum suction pump in placing the platform 332 inside, gas receiving pipe one end is connected with the outside, and the other end is connected with the vacuum suction pump that sets up the inside of placing the platform 332 place a plurality of ventholes have been seted up on the platform 332 place the vacuum suction pump during operation, place the platform 332 and have enough suction can adsorb glass fiber sticky tape, make it not drop when placing the platform 332 and remove or rotate.

The rotating assembly comprises a rack 351, a gear 352 arranged on the placing table 332 and a driving cylinder 353 for driving the rack 351 to move, wherein the driving cylinder 353 drives the rack 351 to move up and down, and the gear 352 drives the connecting assembly to rotate. The rack 351 can be arranged on the fixed support, a driving cylinder 353 is not required to be arranged at the moment, when the placing support 331 moves up and down, the rack 351 does not follow the movement, the gear 352 is meshed with the rack 351, when the gear 352 rotates, the placing table 332 is synchronously driven to rotate, the rack 351 can also be arranged on the placing support 331, meanwhile, the driving cylinder 353 is arranged, the driving cylinder 353 is connected with the rack 351, when the placing table 332 is required to rotate, the driving cylinder 353 drives the rack 351 to move, so that the gear 352 rotates on the rack 351, and the placing table 332 is synchronously driven to rotate. The length of the rack 351 ensures that the placement stage 332 can be rotated at least 180 °, and the rack 351 can also be provided longer, so that the placement stage 332 can be rotated 360 °.

In order to ensure that the two metal plates 6 can be connected with the head and the tail at the designated positions of the processing table 32, a visual detection device 38 is arranged on the automatic plate connecting device 3, the visual detection device 38 is connected with a control system, after the visual detection device 38 detects that the two metal plates 6 reach the designated positions, a signal is sent to the control system, the control system controls the pinch roll device 2 to clamp the metal plates 6 so as to stop moving, and at the moment, the automatic plate connecting device 3 starts moving and rotating to perform plate connecting operation. The tail of the former metal plate 6 reaches the processing table 32, the latter metal plate 6 also reaches the processing table 32, the control system controls the automatic plate receiving device 3 to perform plate receiving operation, the former metal plate 6 and the latter metal plate 6 can reach the processing table 32 at the same time, or after the former metal plate 6 reaches the processing table 32, the pinch roll device 2 clamps the metal plate 6 to stop moving, after waiting for the latter metal plate 6 to reach the processing table 32, the electromagnet assembly adsorbs the two metal plates 6, and the glass fiber adhesive tape connects the two metal plates 6.

When a meter device on a first unreeling machine 1 detects that the meter number of a metal plate 6 on the first unreeling machine 1 is smaller than a set value, the meter device sends a signal, a control system stops the operation of the first unreeling machine 1 according to the signal sent by the meter device and cuts off the metal plate 6, and at the moment, the control system synchronously controls a second unreeling machine 1 to start working to release the metal plate 6; after the metal plate 6 on the first unreeling machine 1 is cut off, the control system controls the first pinch roll device 2 to press down and clamp the metal plate 6, so that the metal plate 6 moves slowly, after the visual detection device 38 detects that the tail of the metal plate 6 reaches a designated position, a signal is transmitted to the control system, and the control system controls the first pinch roll to completely clamp the metal plate 6, so that the metal plate 6 stops running, and the current position of the metal plate 6 is ensured, but the production line can continue to produce due to the bending buffer zone 4; when the second metal plate 6 reaches the second pinch roll device 2, the control system controls the second pinch roll device 2 to clamp the metal plate 6 so that the second metal plate 6 moves slowly, and when the vision detection device 38 detects that the second metal plate 6 reaches the designated position, the second pinch roll device 2 completely clamps the metal plate 6 so as to stop running and ensure the position of the metal plate 6 on the processing table 32; when the head and the tail of the metal plates 6 are positioned on the processing table 32, the control system controls the electromagnet assembly on the processing table 32 to adsorb the two metal plates 6, so that the accuracy of the connecting plate is ensured; the glass fiber adhesive tape is adsorbed on the placing table 332 by the vacuum suction pump, the control system controls the placing table 332 to rotate until the glass fiber adhesive tape side is opposite to the processing table 32, the placing bracket 331 is controlled to start moving to the side close to the metal plate 6, the glass fiber adhesive tape is pressed for a few seconds, and the glass fiber adhesive tape is lifted after being completely adhered to the metal plate 6; the pinch roll assemblies are lifted, the metal plate 6 starts to move normally, and the unreeling machine 1 unreels normally.

The continuous production line of the metal surface sandwich board can realize the following technical effects that two unreeling machines 1 are arranged, so that the former metal plate 6 and the latter metal plate 6 can be conveniently connected, and after the former metal plate 6 is unreeled, the unreeled metal plate 6 can be directly unreeled, so that the operation is convenient; the two pinch roll devices 2 are arranged, so that clamping and conveying of two metal plates 6 are facilitated, and one metal plate 6 is clamped by one pinch roll device 2, so that the operation is convenient; a conveying line 5 is arranged, so that the metal plate 6 is convenient to convey; the automatic plate receiving device 3 is arranged, when the former metal plate 6 and the latter metal plate 6 reach the processing table 32, the glass fiber adhesive tape moves to the upper part of the metal plate 6 and is connected, so that the operation is convenient and the connection is firm; the bending buffer zone 4 is arranged, and when two metal plates 6 are connected, the metal plates 6 which can be processed are also arranged, so that continuous production is ensured.

The preferred embodiments of the present invention have been described in detail above with reference to the accompanying drawings, but the present invention is not limited to the specific details of the above embodiments, and various simple modifications can be made to the technical solution of the present invention within the scope of the technical concept of the present invention, and all the simple modifications belong to the protection scope of the present invention.

In addition, the specific features described in the above embodiments may be combined in any suitable manner, and in order to avoid unnecessary repetition, various possible combinations are not described further.

Moreover, any combination of the various embodiments of the invention can be made without departing from the spirit of the invention, which should also be considered as disclosed herein.

Claims

1. The utility model provides a metal covering battenboard continuous production line which characterized in that: comprises the following steps of

An unreeling machine (1) for releasing the metal plate (6);

a conveying line (5) connected with the unreeling machine (1) and used for conveying the metal plate (6);

the automatic plate receiving device (3) is used for connecting the tail part of the front metal plate (6) with the head part of the rear metal plate (6);

pinch roll means (2) for controlling the speed of movement of the metal sheet (6);

a bending buffer zone (4) arranged between the conveyor lines (5) for buffering the metal plates (6);

the unreeling machine (1) releases the metal plate (6) and conveys the metal plate through the conveying line (5), when the release of the previous metal plate (6) is completed and the release of the next metal plate (6) is started, the pinch roll device (2) controls the moving speed of the metal plate (6), and the connection of the tail part of the previous metal plate (6) and the head part of the next metal plate (6) is completed at the automatic plate receiving device (3).

2. The metal face sandwich panel continuous production line according to claim 1, characterized in that: the automatic plate receiving device (3) comprises a processing table (32), a connecting component arranged above the processing table (32), a moving component driving the connecting component to move and a rotating component driving the connecting component to rotate.

3. The metal face sandwich panel continuous production line according to claim 2, characterized in that: the movable assembly comprises a guide rail (341), a sliding block (342) arranged on the connecting assembly and a movable air cylinder (343) for driving the connecting assembly to move, and the movable air cylinder (343) drives the connecting assembly to move towards one side close to or far away from the processing table (32).

4. The metal face sandwich panel continuous production line according to claim 2, characterized in that: the rotary component comprises a rack (351), a gear (352) arranged on the connecting component and a driving cylinder (353) for driving the rack (351) to move, wherein the driving cylinder (353) drives the rack (351) to move up and down, and the gear (352) drives the connecting component to rotate.

5. The metal face sandwich panel continuous production line according to claim 2, characterized in that: an electromagnet assembly is disposed on the processing table (32).

6. A metal face sandwich panel continuous production line according to claim 3, characterized in that: the connecting component comprises a placing support (331) and a placing table (332) capable of rotating on the placing support (331), and the sliding block (342) is arranged on the placing support (331).

7. The metal face sandwich panel continuous production line according to claim 6, wherein: an adsorption assembly is provided on the placement table (332).

8. The metal face sandwich panel continuous production line according to claim 1, characterized in that: a visual detection device (38) is arranged on the automatic plate receiving device (3).

9. The metal face sandwich panel continuous production line according to claim 1, characterized in that: the unreeling machine (1) is provided with a metering device.

10. The metal face sandwich panel continuous production line according to claim 1, characterized in that: two unreeling machines (1) are arranged.