CN216704875U - Isolating agent damping plate coating and recycling device - Google Patents

Abstract

The invention discloses a device for coating and recovering an isolating agent damping plate, and relates to the technical field of production and processing of damping plates for automobiles. The invention relates to a device for coating and recovering an isolating agent damping plate, which comprises an isolating agent coating mechanism, wherein the isolating agent coating mechanism is externally connected with an isolating agent barrel through a liquid outlet pipe and comprises a pressing mechanism and an extrusion mechanism which are sequentially arranged, so that redundant isolating agent on the damping plate is further removed under the dual actions of gravity and the extrusion mechanism; the cut damping plate enters a front flattening mechanism from the inlet end of the conveyor belt to flatten the damping plate, so that the leftover materials and the finished plate are directly separated, and operators can observe the quality problem of the finished plate conveniently; after the leftover materials enter the recovery mechanism, the leftover materials are further flattened through the flattening mechanism so as to be convenient for cutting and collecting. The damping plate coated with the isolation layer can be cut, separated and recycled quickly, and production efficiency is greatly improved.

Description

Isolating agent damping plate coating and recycling device

Technical Field

The invention relates to the technical field of production and processing of damping plates for automobiles, in particular to a device for coating and recovering an isolating agent damping plate.

Background

As is well known, the method of reducing noise mainly includes: damping, sound absorption, insulation and separation, wherein the damping material can gradually attenuate or reduce vibration caused by the outside or the inherent reason of the system, thereby achieving the effect of reducing noise in the vehicle.

At present, the damping plate uses paint to isolate products in the production process so as to prevent the adhesion between the products. At present, in the field of production and processing of damping materials, asphalt-based materials are mainly prepared through the procedures of high-temperature mixing, calendering and cooling, film coating (PE) isolation, molding and the like. After the product is rolled into a sheet, pumping out the coating by a pump, and flowing the coating to the surface of the product; and in the operation process, the fiber strips are arranged between the conveyor belt and the damping plate, so that the coating is more uniformly coated and attached to the product. However, during the conveying and extruding process, the following two wastes are generated:

(1) part of the paint flows down and is attached to the reverse side of the damping plate, and the products are not in accordance with the standard and are treated as waste products;

(2) the other part of the coating will flow into the ground reservoir, which will pollute the water to a certain extent, and thus will generate a part of the sewage treatment cost.

Therefore, the paint wasted in the production process needs to be collected by a specially-assigned person, which causes labor cost and time loss; and the used water needs secondary environmental protection treatment, thereby greatly increasing the production cost.

In addition, when the damping plate is processed, a lot of waste materials are generated, the size of the waste materials generated by the plate is not uniform due to the uneven cutting size of the plate, and the waste materials are collected; the waste material can occupy a large amount of space when being collected because the size is not uniform, is not easy to recycle and influences the recycling efficiency. During recycling, various plate wastes are not easy to transfer after being crushed and sliced; after the garbage collection, need independent weighing, mark, when transporting, consume a large amount of manpower and materials, improve the recovery cost.

Disclosure of Invention

1. Technical problems to be solved by the invention

The invention provides an isolating agent damping plate coating and recycling device, aiming at the problems of isolating agent waste and the like caused in the process of processing a damping plate in the prior art, and the isolating agent damping plate coating and recycling device comprises an isolating agent coating mechanism, wherein an isolating agent barrel is externally connected with the isolating agent coating mechanism through a liquid outlet pipe, and the isolating agent coating mechanism is externally connected with a pressing cylinder to drive a pressing roller on the isolating agent coating mechanism to press down a damping plate subjected to calendering molding, so that the isolating agent is coated on the damping plate, the isolating agent is uniformly attached to the damping plate, no waste is caused, and manpower and material resources are saved.

2. Technical scheme

In order to achieve the purpose, the technical scheme provided by the invention is as follows:

the utility model provides an isolating agent damping plate coating recovery unit, includes isolating agent coating mechanism, isolating agent coating mechanism has the isolating agent bucket through the drain pipe external, isolating agent coating mechanism includes the frame, the vertical demountable installation in frame top has pushing down the mechanism, push down the cylinder that pushes down that the mechanism includes the level setting, push down the cylinder through the drive of the cylinder that pushes down of the vertical setting in its both ends to the damping plate after the calendering molding pushes down to its soaking isolating agent in, thereby has accomplished the coating of damping plate isolating agent, makes the isolating agent evenly adhere to on the damping plate, soaks isolating agent region in addition and is certain, thereby saves operating space, makes and can not cause the waste, has saved manpower and materials.

According to a further technical scheme, an extrusion mechanism can be detachably mounted above the rack, and the extrusion mechanism is obliquely arranged above the horizontal plane of the rack at an angle and is arranged on the outlet side of the pressing mechanism; the extrusion mechanism comprises an extrusion component which is obliquely arranged at an angle with the horizontal plane of the frame, and the extrusion component is driven by extrusion cylinders vertically arranged at two ends of the extrusion component, so that redundant isolating agents on the damping plate are further removed under the dual actions of gravity and the extrusion component, the waste of the isolating agents is avoided, and the quality of the damping plate is ensured.

According to the technical scheme, the isolating agent barrel is communicated with an isolating agent from a liquid inlet formed in the position, corresponding to the pressing mechanism, of the rack through an external liquid outlet pipe, so that the coating area of the isolating agent is ensured to be fixed, and the isolating agent barrel is located in the area below the pressing mechanism, so that the damping plate is completely soaked in the isolating agent, the effect of uniform coating and high efficiency is achieved, the isolating agent can be effectively saved, and the waste caused by multi-coating and missing coating is avoided.

According to the technical scheme, a liquid outlet is formed in the position, corresponding to the extrusion mechanism, below the rack, and is communicated with the isolating agent barrel through an external recovery pipe, so that the isolating agent dropping on the damping plate can be recycled, and waste is avoided.

According to the further technical scheme, an air drying mechanism and a cutting mechanism are sequentially arranged behind a separant coating mechanism, damping plates cut into a specified size by the cutting mechanism sequentially enter a separation and recovery mechanism arranged at an outlet end of the separation and recovery mechanism, so that finished plates are separated from leftover materials, the finished plates fall on an operation table, and the leftover materials enter the recovery mechanism along with a conveying belt, so that the leftover materials are directly separated from the finished plates; and the damping plate coated with the isolation layer can quickly finish a series of cutting, separating and recycling treatments, thereby greatly increasing the production efficiency.

According to the further technical scheme, the separating and recycling mechanism comprises an operating table which is flush with a damping plate conveyor belt arranged inside the cutting mechanism, the conveyor belt is obliquely arranged on the upper surface of the operating table at an angle, and the starting and the stopping are controlled through an external electric cabinet; the entry end of conveyer belt is provided with material separating mechanism, the conveyer belt exit end is provided with retrieves the mechanism, will send into material separating mechanism from the conveyer belt through the damping panel after tailorring, the finished board falls on the operation panel, leftover bits follow the conveyer belt and get into and retrieve the mechanism for leftover bits and finished board direct separation to take off the finished board fast on the conveyer belt, thereby reduce the phenomenon that artifical tear was damaged, with guarantee product quality, and reduce intensity of labour.

According to the technical scheme, the material separating mechanism comprises a front flattening mechanism which is detachably mounted on the upper surface of the inlet end of the conveying belt, a certain gap is reserved between the front flattening mechanism and the conveying belt, and the gap thickness of the front flattening mechanism is larger than the thickness of the processed damping plate by 1-1.5 mm, so that the damping plate is flattened, and the leftover materials and the finished plate are conveniently and directly separated.

Further technical scheme, conveyer belt outlet end upper surface demountable installation has the mechanism that flattens after, the mechanism that flattens after reserves certain clearance with the conveyer belt, and its clearance thickness is greater than the damping panel thickness of processing 0.5 ~ 0.8mm to the leftover bits of further flattening are so that tailor and collect.

According to a further technical scheme, the recovery mechanism comprises a support frame fixedly arranged at the lower part of the outlet end of the conveying belt, a cutting mechanism is transversely arranged on the inner side surface of the support frame, and the rear end of the cutting mechanism is externally connected with an air cylinder; the cutting mechanism comprises a front fixing plate fixedly mounted on the inner side face of the support frame and a rear fixing plate fixedly mounted at the front end of the air cylinder, the front fixing plate and the rear fixing plate are connected through sliding rails arranged symmetrically in the transverse direction to form a material dropping opening with a closed circumferential direction and an upper opening and a lower opening, a sliding plate is sleeved on the sliding rails along the length direction of the sliding rail, the sliding plate can slide left and right along the length direction of the sliding rails, and a cutter is transversely mounted on the lower side face of the sliding plate. The leftover materials are flattened by the flattening mechanism and then fall into the blanking port to fall for a certain distance, and then the air cylinder is started, so that the cutter is driven to cut off the leftover materials, the leftover materials are convenient to recycle and pack, and technical preparation work is done for automatic furnace returning of the leftover materials and automatic workpiece taking of a mechanical arm.

A coating and recycling method of a device for recycling a damping plate coated with a release agent comprises the following steps:

step one, coating a release agent: starting a pressing cylinder, pressing a pressing roller downwards, and immersing the damping plate conveyed below the pressing roller into the isolating agent; simultaneously starting the extrusion cylinder to extrude the redundant release agent on the release agent-soaked damping plate by extruding the pressing component;

step two, air drying: the damping plate soaked with the isolating agent is conveyed to an air drying mechanism through a conveyor belt to be dried in the air;

step three, cutting: conveying the air-dried damping plate into a cutting mechanism through a conveying belt, and cutting into a specified size;

step four, flattening: placing the cut damping plate on the conveyor belt from the inlet end of the conveyor belt, and inserting the front end of the damping plate into a gap between the front flattening mechanism and the conveyor belt;

step five, material separation: starting an electric cabinet, controlling the conveyor belt to drive a damping plate placed on the conveyor belt to move forward, enabling a punched finished plate on the damping plate to fall on the upper surface of an operation table, and enabling cut leftover materials on the damping plate to move upwards to a rear flattening mechanism along with the conveyor belt;

step six, leftover material recovery and treatment: and starting the cylinder to push the cutting mechanism to operate and drive the cutter mounted on the cutting mechanism to slide left and right so as to cut off leftover materials falling into a blanking port formed by the circumferential sealing of the cutting mechanism.

3. Advantageous effects

Compared with the prior art, the technical scheme provided by the invention has the following beneficial effects:

(1) according to the device for coating and recovering the isolating agent damping plate, the isolating agent coating mechanism is externally connected with the isolating agent barrel through the liquid outlet pipe, and the isolating agent coating mechanism is externally connected with the downward pressing cylinder to drive the downward pressing roller on the downward pressing cylinder to press the calendered and molded damping plate downward, so that the isolating agent is coated on the damping plate, the isolating agent is uniformly attached to the damping plate, no waste is caused, and manpower and material resources are saved; in addition, the area for soaking the separant is certain, so that the operation space is saved;

(2) according to the device for coating and recovering the isolating agent damping plate, the extrusion mechanism can be detachably mounted above the rack, the extrusion mechanism is obliquely arranged above the horizontal plane of the rack at an angle and is arranged on the outlet side of the pressing mechanism, so that redundant isolating agent on the damping plate is further removed under the dual actions of gravity and the extrusion mechanism, the waste of the isolating agent is avoided, and the quality of the damping plate is ensured;

(3) according to the coating and recycling device for the isolating agent damping plate, the isolating agent barrel is externally connected with the liquid outlet pipe to introduce the isolating agent from the liquid outlet formed in the position, corresponding to the pressing mechanism, on the rack, so that the isolating agent coating area is fixed, and the isolating agent barrel is positioned in the area below the pressing mechanism, so that the damping plate is completely soaked in the isolating agent, the effects of uniform coating and high efficiency are achieved, the isolating agent can be effectively saved, and waste caused by multiple coating and missing coating is avoided;

(4) according to the device for coating and recovering the isolating agent damping plate, the liquid outlet is formed in the position, corresponding to the extrusion mechanism, below the rack, and is communicated with the isolating agent barrel through the external recovery pipe, so that the isolating agent dropping from the damping plate can be recycled, and waste is avoided;

(5) according to the coating and recycling device for the damping plates of the isolating agents, the cut damping plates are sent to the material separating mechanism from the conveying belt, the finished plates fall on the operating platform, and the leftover materials enter the recycling mechanism along with the conveying belt, so that the finished plates are separated from the leftover materials, the finished plates are quickly taken down on the conveying belt, the phenomenon of manual tearing is reduced, the product quality is guaranteed, and the labor intensity is reduced; the damping plate coated with the isolation layer can be cut, separated and recycled quickly, so that the production efficiency is greatly improved;

(6) according to the damping plate material separating and recycling device and the damping plate material separating and recycling method, the cut damping plate enters the front flattening mechanism from the inlet end of the conveyor belt, so that the damping plate is flattened, leftover materials are directly separated from a finished plate, and an operator can observe the quality problem of the finished plate conveniently; after the leftover materials enter the recovery mechanism, the leftover materials are further flattened by the rear flattening mechanism so as to be convenient for cutting and collecting, so that technical preparation work is made for automatic furnace returning of the leftover materials and automatic workpiece taking of a mechanical arm, and the quality of finished products is effectively guaranteed;

(7) the invention relates to a damping plate material separating and recovering device and a separating and recovering method thereof, wherein a recovering mechanism comprises a supporting frame fixedly arranged at the lower part of the outlet end of a conveying belt, a cutting mechanism is transversely arranged on the inner side surface of the supporting frame, and the rear end of the cutting mechanism is externally connected with an air cylinder so as to drive the cutting mechanism to operate; the cutting mechanism front end passes through support frame fixed mounting in conveyer belt exit end lower part, cutting mechanism includes the front fixed plate of fixed mounting at the support frame medial surface to and the after-fixing board of fixed mounting at the cylinder front end, the slide rail that sets up through horizontal symmetry between front fixed plate and the after-fixing board is connected, the sliding plate has been cup jointed along its length direction on the slide rail, the cutter is transversely installed at the sliding plate downside to tailor the segmentation with the leftover bits, thereby be convenient for recovery processing, and get a preparation work for follow-up automatic stove and the manipulator of returning of leftover bits is automatic.

Drawings

FIG. 1 is a schematic view of the construction of a coating recycling device according to the present invention;

FIG. 2 is a schematic perspective view of the release agent application mechanism of FIG. 1;

FIG. 3 is a schematic view of the working state of the release agent coating mechanism in FIG. 2;

FIG. 4 is a schematic perspective view of the separating and recovering mechanism in FIG. 1;

FIG. 5 is a front view of FIG. 4;

FIG. 6 is a perspective view of the recovery mechanism of FIG. 4;

fig. 7 is a schematic perspective view of the cutting mechanism in fig. 6.

In the figure: 1-a release agent coating mechanism; 2-air drying mechanism; 3, a cutting mechanism; 4-a separation and recovery mechanism; 5-a separant barrel; 11-a frame; 12-a hold down mechanism; 13-an extrusion mechanism; 41-an operation table; 42-a conveyor belt; 43-a material separation mechanism; 44-an electric cabinet; 45-a recovery mechanism; 46-a cylinder; 47-leftover materials; 48-finished board; 51-a liquid outlet pipe; 52-a recovery pipe; 121-pressing the roller; 122-a down-pressure cylinder; 131-an extrusion member; 132-a squeeze cylinder; 431-a front flattening mechanism; 432-rear flattening mechanism; 451-a support frame; 452-a cutting mechanism; 453-a cutter; 511-liquid inlet; 521-a liquid outlet; 4521-front fixing plate; 4522-rear fixing plate; 4523-sliding plate; 4524-sliding rail.

Detailed Description

For a further understanding of the invention, reference is made to the following detailed description taken in conjunction with the accompanying drawings.

Example 1

The isolating agent damping plate coating recovery device of this embodiment, as shown in fig. 1 ~ 3, including isolating agent coating mechanism 1, isolating agent coating mechanism 1 is external to have isolating agent bucket 5 through drain pipe 51, isolating agent coating mechanism 1 includes frame 11, the vertical demountable installation in frame 11 top has pushing down mechanism 12, pushing down mechanism 12 includes the cylinder 121 that pushes down that the level set up, push down cylinder 121 and drive through the cylinder 122 that pushes down of the vertical setting in its both ends to the damping plate after will calendering molding pushes down to it soaks the isolating agent in, thereby has accomplished the coating of damping plate isolating agent, makes the isolating agent evenly adhere to on the damping plate, soaks the isolating agent region in addition and is certain, thereby saves operating space, makes and can not cause the waste, has saved manpower and materials.

In this embodiment, as shown in fig. 3, the isolating agent barrel 5 is externally connected to the liquid outlet pipe 51 to introduce the isolating agent from the liquid inlet 511 formed at a position on the rack 11 corresponding to the pressing mechanism 12, so as to ensure that the coating area of the isolating agent is constant, and the isolating agent barrel is located in the area below the pressing mechanism 12, so that the damping plate is completely soaked in the isolating agent, thereby achieving the effect of uniform and efficient coating, and effectively saving the isolating agent, so as to avoid waste caused by multiple coating and missing coating.

Further, a liquid outlet 521 is further formed in the position, corresponding to the extrusion mechanism 13, below the frame 11, and the liquid outlet 521 is communicated with the isolating agent barrel 5 through an external recycling pipe 52, so that the isolating agent dropping from the damping plate can be recycled, and waste is avoided.

Example 2

The basic structure of the device for coating and recovering the release agent damping plate of the embodiment is the same as that of the embodiment 1, and the device is different and improved in that: as shown in fig. 3, a squeezing mechanism 13 is detachably mounted above the frame 11, and the squeezing mechanism 13 is obliquely arranged above the horizontal plane of the frame 11 at an angle and is arranged at the outlet side of the pressing mechanism 12; the extruding mechanism 13 comprises an extruding component 131 which is obliquely arranged at an angle with the horizontal plane of the frame 11, and the extruding component 131 is driven by an extruding cylinder 132 which is vertically arranged at two ends of the extruding component 131, so that redundant isolating agent on the damping plate is further removed under the dual actions of gravity and the extruding component 131, the waste of the isolating agent is avoided, and the quality of the damping plate is ensured.

Example 3

The basic structure of the device for coating and recovering the isolating agent damping plate of the embodiment is the same as that of the embodiment 2, and the differences and improvements are that: as shown in fig. 1 and 4, an air drying mechanism 2 and a cutting mechanism 3 are sequentially arranged behind the release agent coating mechanism 1, the damping plates cut into a specified size by the cutting mechanism 3 sequentially enter a separation and recovery mechanism 4 arranged at the outlet end of the mechanism, so that finished plates 48 are separated from leftover materials 47, the finished plates 48 fall on an operation table 41, and the leftover materials 47 follow a conveyor belt 42 to enter a recovery mechanism 45, so that the leftover materials 47 are directly separated from the finished plates 48; and the damping plate coated with the isolation layer can quickly finish a series of cutting, separating and recycling treatments, thereby greatly increasing the production efficiency.

In this embodiment, as shown in fig. 5, the separation and recovery mechanism 4 includes an operation table 41 flush with a damping plate conveyor belt arranged inside the cutting mechanism 3, the conveyor belt 42 is arranged on the upper surface of the operation table 41 in an inclined manner, and the start and stop of the operation table is controlled by an external electric cabinet 44; the entry end of conveyer belt 42 is provided with material separating mechanism 43, the conveyer belt 42 exit end is provided with retrieves mechanism 45, will send into material separating mechanism 43 from the conveyer belt through the damping panel after cutting out, finished board 48 falls on operation panel 41, leftover bits 47 follows conveyer belt 42 and gets into and retrieve mechanism 45 for leftover bits 47 and finished board 48 direct separation to take off finished board 48 fast on conveyer belt 42, thereby reduce the phenomenon that the manual work torn, with guarantee product quality, and reduce intensity of labour.

The material separating mechanism 43 comprises a front flattening mechanism 431 which is detachably mounted on the upper surface of the inlet end of the conveying belt 42, a certain gap is reserved between the front flattening mechanism 431 and the conveying belt 42, and the gap thickness of the gap is larger than the thickness of the processed damping plate by 1-1.5 mm, so that the damping plate is flattened, and the leftover material 47 and the finished plate 48 are conveniently and directly separated.

The upper surface of the outlet end of the conveyor belt 42 is detachably provided with a rear flattening mechanism 432, a certain gap is reserved between the rear flattening mechanism 432 and the conveyor belt 42, and the thickness of the gap is 0.5-0.8 mm larger than that of the processed damping plate, so that leftover materials 47 are further flattened to facilitate cutting and collection.

Example 4

The basic structure of the device for coating and recovering the release agent damping plate of the embodiment is the same as that of the embodiment 3, and the device is different and improved in that: as shown in fig. 6 and 7, the recovery mechanism 45 includes a supporting frame 451 fixedly installed at the lower portion of the outlet end of the conveyor belt 42, a cutting mechanism 452 is transversely installed on the inner side surface of the supporting frame 451, and the rear end of the cutting mechanism 452 is externally connected to the cylinder 46; the cutting mechanism 452 comprises a front fixing plate 4521 fixedly mounted on the inner side surface of the support frame 451 and a rear fixing plate 4522 fixedly mounted at the front end of the air cylinder 46, the front fixing plate 4521 and the rear fixing plate 4522 are connected through slide rails 4524 arranged transversely and symmetrically to form a circumferentially closed and vertically opened blanking port, a slide plate 4523 is sleeved on the slide rail 4524 along the length direction of the slide rail 4524, the slide plate 4523 can slide left and right along the length direction of the slide rail 4524, and a cutter 453 is transversely mounted on the lower side surface of the slide plate 4523. The leftover material 47 is flattened by the flattening mechanism 432 and falls into the blanking port to fall for a certain distance, and then the air cylinder 46 is started, so that the cutter 453 is driven to cut the leftover material 47, the leftover material is convenient to recycle and pack, and the technical preparation work is made for the automatic furnace returning of the leftover material 47 and the automatic workpiece taking of a mechanical arm.

Example 5

The basic structure of the coating and recycling method of the recycling device of the damping plate coated with the release agent is the same as that of the embodiment 4, and the differences and the improvements are that: as shown in fig. 1 to 5, the method comprises the following steps:

step one, coating a release agent: starting a pressing cylinder 122 to press down the pressing roller 121, thereby immersing the damping plate conveyed therebelow in the release agent; simultaneously starting the extrusion cylinder 132 to extrude the excessive release agent on the release agent-impregnated damping plate by pressing the pressing member 131 downward;

step two, air drying: the damping plate soaked with the isolating agent is conveyed to an air drying mechanism 2 through a conveyor belt to be dried;

step three, cutting: the dried damping plate is conveyed to a cutting mechanism 3 through a conveyor belt and is cut into a specified size;

step four, flattening: placing the cut damping plate on the conveyor belt 42 from the inlet end thereof, and inserting the front end of the damping plate into the gap between the front flattening mechanism 431 and the conveyor belt 42;

step five, material separation: starting the electric cabinet 44, controlling the conveyor belt 42 to drive the damping plate placed on the conveyor belt to move forward, wherein a finished plate 48 punched on the damping plate falls on the upper surface of the operating platform 41, and leftover bits 47 punched on the damping plate move upwards to the rear flattening mechanism 432 along with the conveyor belt 42;

sixthly, recycling leftover materials 47: the cylinder 46 is actuated to push the cutting mechanism 452 to operate, and the cutter 453 mounted thereon is driven to slide left and right to cut off the leftover 47 falling into the blanking port formed by the circumferential sealing of the cutting mechanism 452.

The present invention and its embodiments have been described above schematically, without limitation, and what is shown in the drawings is only one of the embodiments of the present invention, and the actual structure is not limited thereto. Therefore, if the person skilled in the art receives the teaching, without departing from the spirit of the invention, the person skilled in the art shall not inventively design the similar structural modes and embodiments to the technical solution, but shall fall within the scope of the invention.

Claims (9)

1. The utility model provides an isolating agent damping plate coating recovery unit which characterized in that: including separant coating mechanism (1), separant coating mechanism (1) is external to have separant bucket (5) through drain pipe (51), separant coating mechanism (1) includes frame (11), the vertical demountable installation in frame (11) top has pushing down mechanism (12), pushing down mechanism (12) is including the cylinder (121) that pushes down that the level set up, push down cylinder (121) through the cylinder (122) drive that pushes down of the vertical setting in its both ends.

2. The release agent damping plate coating and recycling device of claim 1, wherein: the isolating agent coating mechanism (1) is sequentially provided with an air drying mechanism (2) and a cutting mechanism (3), and the damping plates cut into specified sizes by the cutting mechanism (3) sequentially enter a separation and recovery mechanism (4) arranged at the outlet end of the damping plates.

3. The release agent damping plate coating and recycling device of claim 2, wherein: an extrusion mechanism (13) can be detachably mounted above the rack (11), and the extrusion mechanism (13) is obliquely arranged above the horizontal plane of the rack (11) at an angle and is arranged at the outlet side of the pressing mechanism (12); the extrusion mechanism (13) comprises an extrusion component (131) which is obliquely arranged at an angle with the horizontal plane of the frame (11), and the extrusion component (131) is driven by extrusion cylinders (132) which are vertically arranged at two ends of the extrusion component (131).

4. The release agent damping plate coating and recycling device of claim 3, wherein: the isolating agent barrel (5) is externally connected with a liquid outlet pipe (51) so as to lead the isolating agent into a liquid inlet (511) formed in the position, corresponding to the pressing mechanism (12), on the rack (11).

5. The release agent damping plate coating and recycling device of claim 4, wherein: a liquid outlet (521) is formed in the position, corresponding to the extrusion mechanism (13), below the rack (11), and the liquid outlet (521) is communicated with the separant barrel (5) through an external recovery pipe (52).

6. The release agent damping plate coating and recycling device of claim 2, wherein: the separating and recovering mechanism (4) comprises an operating table (41) which is flush with a damping plate conveyor belt arranged in the cutting mechanism (3), the upper surface of the operating table (41) is provided with a conveyor belt (42) in an inclined manner, and the starting and stopping are controlled by an external electric cabinet (44); the entry end of conveyer belt (42) is provided with material separating mechanism (43), conveyer belt (42) exit end is provided with retrieves mechanism (45).

7. The release agent damping plate coating and recycling device of claim 6, wherein: the material separating mechanism (43) comprises a front flattening mechanism (431) which is detachably mounted on the upper surface of the inlet end of the conveying belt (42), a certain gap is reserved between the front flattening mechanism (431) and the conveying belt (42), and the gap thickness is larger than the thickness of the processed damping plate by 1-1.5 mm.

8. The release agent damping plate coating and recycling device of claim 7, wherein: the upper surface of the outlet end of the conveyor belt (42) is detachably provided with a rear flattening mechanism (432), a certain gap is reserved between the rear flattening mechanism (432) and the conveyor belt (42), and the thickness of the gap is 0.5-0.8 mm larger than that of the processed damping plate.

9. The release agent damping plate coating and recycling device of claim 8, wherein: the recovery mechanism (45) comprises a support frame (451) fixedly arranged at the lower part of the outlet end of the conveyor belt (42), a cutting mechanism (452) is transversely arranged on the inner side surface of the support frame (451), and the rear end of the cutting mechanism (452) is externally connected with a cylinder (46); the cutting mechanism (452) comprises a front fixing plate (4521) fixedly installed on the inner side face of the support frame (451), and a rear fixing plate (4522) fixedly installed at the front end of the air cylinder (46), the front fixing plate (4521) and the rear fixing plate (4522) are connected through sliding rails (4524) which are transversely symmetrically arranged to form a circumferentially closed and vertically opened blanking port, the sliding rail (4524) is sleeved with a sliding plate (4523) along the length direction of the sliding rail (4523), the sliding plate (4523) can slide left and right along the length direction of the sliding rail (4524), and a cutter (453) is transversely installed on the lower side face of the sliding plate (4523).

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