CN216275025U - Paper-plastic mold production line - Google Patents

Abstract

The utility model aims to provide a paper-plastic mold production line which comprises a paper-plastic mold forming device, a plurality of turnover devices, a conveying device and a drying chamber, wherein the paper-plastic mold forming device comprises a punching machine and a paper-plastic mold arranged on the punching machine, the turnover devices are arranged at the front sides of the paper-plastic mold forming devices in a one-to-one correspondence manner at intervals, the turnover devices are used for enabling products demolded by the paper-plastic mold forming device to turn over 180 degrees and placing the products demolded by the paper-plastic mold forming device on a plug net, the turnover devices are used for placing the plug net at a specified position, the conveying device comprises a support and a rail fixedly arranged at the top of the support, a plurality of sliding blocks are slidably arranged on the rail, the bottom end of each sliding block is hinged with a suspension cage, and one part of the rail penetrates through the inside of the drying chamber. The utility model has high automation degree, good matching and adaptability among devices and is suitable for the paper-plastic mold production line for large-scale production.

Description

Paper-plastic mold production line

Technical Field

The utility model relates to the technical field of paper-plastic mold production, in particular to a paper-plastic mold production line.

Background

The paper-plastic product is made up by using waste paper product and leftover material of paper mill or printing mill as raw material, making them pass through the processes of hydraulic pulping and mixing to obtain a pulp with a certain concentration, making the pulp undergo the processes of vacuum adsorption on a special-made metal mould to obtain wet blank product, drying, hot-pressing and trimming treatment so as to obtain the invented product.

The existing paper molding production line is complex in structure, complex in action implementation, poor in matching and adaptability among devices, the paper molding production line needs to be manually subjected to loading and unloading, detection and other processes, and full-automatic production cannot be achieved, so that the paper molding production line which is high in automation degree, good in matching and adaptability among devices and suitable for large-scale production is urgently needed.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a paper-plastic mold production line to solve the problems in the prior art.

The technical purpose of the utility model is realized by the following technical scheme:

the paper-plastic mold production line comprises a plurality of paper-plastic mold forming devices, wherein the plurality of paper-plastic mold forming devices are arranged at intervals from left to right and comprise a punching machine and a paper-plastic mold arranged on the punching machine;

the turnover device is provided with a plurality of turnover devices, the turnover devices are arranged on the front sides of the paper mould forming devices at intervals in a one-to-one correspondence mode, the turnover devices are used for enabling products demoulded by the paper mould forming devices to turn over for 180 degrees and placing the products demoulded by the paper mould forming devices on the plug net, and the turnover devices are used for placing the plug net at a designated position;

the transportation device comprises a support and a track fixedly installed at the top of the support, a plurality of sliding blocks are installed on the track in a sliding mode, a suspension cage is installed at the bottom end of each sliding block in a hinged mode, a plurality of bearing blocks are arranged on each suspension cage at equal intervals from top to bottom, and the bearing blocks are all used for bearing the plugging net;

and the drying chamber, one side of drying chamber is provided with the cage import, and the opposite side of drying chamber is provided with the cage export, orbital end to end seamless, and orbital partly pass the inside of drying chamber.

In a further embodiment, the turnover device comprises a frame, a first moving device is arranged at the top end of the frame, a clamping device is slidably mounted on the first moving device, and the first moving device is used for enabling the clamping device to move left and right relative to the frame;

a second moving device is fixedly installed at the bottom end of the rack, a supporting frame is installed on the second moving device in a sliding mode, and the second moving device is used for enabling the supporting frame to move left and right relative to the rack;

a third moving device is fixedly installed on one side of the supporting frame, a supporting device is installed on the third moving device in a sliding mode, and the third moving device is used for enabling the supporting device to move up and down relative to the supporting frame;

a fourth moving device is fixedly installed at the top end of the supporting device, a fixing device is installed at the top of the fourth moving device in a sliding mode, the fourth moving device is used for enabling the fixing device to move back and forth relative to the supporting device, and the fixing device is used for fixing the plugging net;

and a feeding bearing assembly is fixedly mounted at the rear end of the rack and used for being matched with the paper molding device for demolding.

In a further embodiment, the front end of the support frame is fixedly provided with a holding device, the holding device is used for holding the suspension cage tightly, and the holding device is used for enabling the support frame to move along with the suspension cage.

In a further embodiment, the clamping device comprises a frame, a fifth moving device, a cantilever and a clamping jaw, the frame is slidably mounted on the first moving device, the first moving device is used for enabling the frame to move left and right relative to the machine frame, the fifth moving device is fixedly mounted at the bottom end of the frame, the cantilever is slidably mounted on the fifth moving device, the fifth moving device is used for enabling the cantilever to move back and forth relative to the frame, and the clamping jaw is fixedly mounted on the cantilever.

In a further embodiment, the clamping jaw includes a sixth moving device, a seventh moving device and a rotating cylinder slidably mounted on the seventh moving device, the sixth moving device is slidably mounted on the cantilever, the seventh moving device is slidably mounted with the sixth moving device, the sixth moving device is used for moving the seventh moving device up and down relative to the frame, the seventh moving device is used for moving the rotating cylinder back and forth relative to the frame, the turntable of the rotating cylinder is located at the right side of the rotating cylinder body, a rotating plate is fixedly mounted on the turntable of the rotating cylinder, an eighth moving device is fixedly mounted at the right end of the rotating plate, a first beam is fixedly mounted at the top end of the eighth moving device, a second beam is slidably mounted at the bottom end of the eighth moving device, and the eighth moving device is used for moving the second beam up and down relative to the first beam, the front end and the rear end of the first cross beam are symmetrically provided with first slide rail cylinders, the front end and the rear end of the second cross beam are symmetrically provided with second slide rail cylinders, and the length direction of each of the first slide rail cylinders and the second slide rail cylinders is the left-right direction.

In a further embodiment, the front end fixed mounting of support frame has the device of holding tightly, hold the device of holding tightly and be used for holding the cage tightly, hold the device tightly and include sensor, receiver and clamping jaw cylinder, clamping jaw cylinder fixed mounting be in the front end of support frame, sensor fixed mounting be in on the clamping jaw cylinder, each equal fixed mounting has the receiver on the cage.

In a further embodiment, a sliding groove is formed in the bottom end of the rail, a driving device is fixedly mounted in the sliding groove, each sliding block is slidably mounted in the sliding groove, the sliding grooves are connected end to end, and the driving device is used for enabling the sliding blocks to circularly slide in the sliding grooves.

In a further embodiment, the drying chamber comprises a housing, a drying module and a dehumidifying module, the drying module is fixedly installed in the housing, the dehumidifying module is fixedly installed on one side of the housing, the drying module is used for heating the interior of the housing, and the dehumidifying module is used for exhausting the damp and hot air in the housing.

In conclusion, the utility model has the following beneficial effects:

1. the turnover device can automatically turn over the wet blank products by 180 degrees, and the wet blank products can be transferred to the interior of a suspension cage in the conveying device without stopping the conveying device, so that the automation degree of the production line is improved;

2. through the setting of conveyer, can make the circulation that the wet base goods end to end that treat to dry get into the drying chamber, whole transportation cycle is reciprocal, and need not stop the transportation when placing and moving the wet base goods, and the cooperation and adaptability are good between each device, and are applicable to the paper mould production line of large-scale production.

Drawings

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

FIG. 2 is a schematic structural view of a transport apparatus and a drying chamber of the present invention;

FIG. 3 is a schematic structural view of the cage of the present invention;

FIG. 4 is a schematic structural view of the turning device of the present invention;

fig. 5 is a schematic view of the construction of the gripping apparatus of the present invention;

FIG. 6 is a schematic view of the structure of the jaws of the present invention;

fig. 7 is a schematic structural view of the clasping device of the present invention.

In the figure, 1, a paper-plastic molding device; 11. a punch press; 2. a turning device; 201. a frame; 202. a first mobile device; 203. a gripping device; 204. a second mobile device; 205. a support frame; 206. a third mobile device; 207. a supporting device; 208. a fourth mobile device; 209. a fixing device; 210. a loading receiving assembly; 211. a clasping device; 212. a clamping jaw; 213. a frame; 214. a fifth mobile device; 215. a cantilever; 216. a sixth mobile device; 217. a seventh mobile device; 218. a rotating cylinder; 219. an eighth mobile device; 220. a first cross member; 221. a second cross member; 222. a sensor; 223. a receiver; 224. a clamping jaw cylinder; 3. plugging a net; 4. a transportation device; 41. a support; 42. a track; 43. a slider; 44. a suspension cage; 45. a bearing block; 46. a chute; 5. a drying chamber; 51. a housing; 52. a drying module; 53. and a moisture removal module.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

In which like parts are designated by like reference numerals. It should be noted that the terms "front", "back", "left", "right", "upper" and "lower" used in the following description refer to directions in fig. 1, the terms "bottom" and "top", "inner" and "outer" refer to directions toward and away from a particular component geometry, respectively, and the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present specification, "plurality" means two or more unless the direction of the center is specifically defined otherwise.

Example 1:

as shown in fig. 1-7, a paper-plastic mold production line comprises a plurality of paper-plastic mold forming devices 1, wherein the paper-plastic mold forming devices 1 are arranged at intervals from left to right, and each paper-plastic mold forming device 1 comprises a punching machine 11 and a paper-plastic mold arranged on the punching machine 11;

the turnover device 2 is provided with a plurality of turnover devices 2, the turnover devices 2 are arranged on the front sides of the paper-plastic mold forming devices 1 at intervals in one-to-one correspondence, the turnover devices 2 are used for enabling products demolded by the paper-plastic mold forming devices 1 to turn over 180 degrees, the products demolded by the paper-plastic mold forming devices 1 are placed on the plug net 3, and the turnover devices 2 are used for placing the plug net 3 at an appointed position;

the transportation device 4 comprises a support 41 and a rail 42 fixedly installed at the top of the support 41, a plurality of sliding blocks 43 are installed on the rail 42 in a sliding mode, a suspension cage 44 is installed at the bottom end of each sliding block 43 in a hinged mode, a plurality of bearing blocks 45 are arranged on each suspension cage 44 at equal intervals from top to bottom, and the bearing blocks 45 are all used for bearing the plugging net 3;

and the drying chamber 5, one side of the drying chamber 5 is provided with a suspension cage 44 inlet, the other side of the drying chamber 5 is provided with a suspension cage 44 outlet, the ends of the rails 42 are seamlessly connected, and one part of the rails 42 penetrates through the inside of the drying chamber 5.

In the paper-plastic die stamping device 1, the pulp formed by the primary processing of raw materials is stamped and pressed into a wet blank product on a special paper-plastic die by a stamping machine 11, a turnover device 2 is used for demoulding the wet blank product from the paper-plastic die stamping device 1 and clamping and turning, the turned wet blank product is placed on a plug net 3 and finally placed on a conveying device 4 by the turnover device 2, a chute 46 is arranged at the bottom end of a track 42 at the top of a bracket 41 in the conveying device 4, a driving device is fixedly arranged in the chute 46, the driving device is mainly a conveyor belt driven by a motor, each slide block 43 is slidably arranged in the chute 46, the chute 46 is connected end to end, the conveyor belt in the driving device drives the conveyor belt to rotate, the conveyor belt drives the slide blocks 43 to circularly slide in the chute 46, so that the conveying device 4 can be connected end to end and circularly enter and exit from a drying chamber 5, the wet blank product in a production line can continuously pass through the drying chamber 5 in a circulating mode, and manual transportation is not needed, and the integral automation degree of the production line is improved.

The turnover device 2 comprises a frame 201, a first moving device 202 is arranged at the top end of the frame 201, a clamping device 203 is slidably mounted on the first moving device 202, the first moving device 202 is arranged as a linear sliding guide rail, the first moving device 202 is used for enabling the clamping device 203 to move left and right relative to the frame 201, a feeding receiving assembly 210 is fixedly mounted at the rear end of the frame 201, the feeding receiving assembly 210 is used for being matched with the paper molding device 1 for demolding, the clamping device 203 can clamp a demolded wet blank product from the feeding receiving assembly 210, turn the wet blank product 180 degrees and place the wet blank product on a plug net 3, and then move the plug net 3 to the inside of a suspension cage 44 in a transportation device 4.

The gripping device 203 comprises a clamping jaw 212, a frame 213, a fifth moving device 214 and a cantilever 215, wherein the frame 213 is slidably mounted on the first moving device 202, the first moving device 202 is used for enabling the frame 213 to move left and right relative to the frame 201, the fifth moving device 214 is fixedly mounted at the bottom end of the frame 213, the cantilever 215 is slidably mounted on the fifth moving device 214, the fifth moving device is arranged as a linear sliding guide rail, the fifth moving device 214 is used for enabling the cantilever 215 to move back and forth relative to the frame 213, and the clamping jaw 212 is fixedly mounted on the cantilever 215.

The clamping jaw 212 comprises a sixth moving device 216, a seventh moving device 217 and a rotating cylinder 218 slidably mounted on the seventh moving device 217, the sixth moving device 216 is slidably mounted on the cantilever 215, the seventh moving device 217 is slidably mounted with the sixth moving device 216, the sixth moving device 216 is used for enabling the seventh moving device 217 to move up and down relative to the frame 201, and the seventh moving device 217 is used for enabling the rotating cylinder 218 to move back and forth relative to the frame 201.

The turntable of the rotary cylinder 218 is located on the right side of the body of the rotary cylinder 218, the axis of the rotary shaft of the rotary cylinder 218 is horizontally arranged, the turntable of the rotary cylinder 218 is screwed with a rotary plate, the right end of the rotary plate is screwed with an eighth moving device 219, and the top end of the eighth moving device 219 is fixedly provided with a first beam 220.

The first moving device 202, the fifth moving device 214, the sixth moving device 216, the seventh moving device 217 and the eighth moving device 219 are all linear guide rails, and are driven by motors screwed on the first moving device 202, the fifth moving device 214, the sixth moving device 216, the seventh moving device 217 and the eighth moving device 219 to rotate gears fixedly arranged on rotating shafts of the motors, and then the gears drive racks meshed with the gears, so that the first moving device 202, the fifth moving device 214, the sixth moving device 216, the seventh moving device 217 and the eighth moving device 219 are driven.

The bottom end of the eighth moving device 219 is slidably provided with a second beam 221, the eighth moving device 219 is configured to enable the second beam 221 to move up and down relative to the first beam 220, the front end and the rear end of the first beam 220 are symmetrically provided with first slide rail cylinders, the front end and the rear end of the second beam 221 are symmetrically provided with second slide rail cylinders, the length directions of each first slide rail cylinder and each second slide rail cylinder are both the left-right direction, the cantilever 215 can move up and down front and back, left and right, and up and down relative to the frame 201 under the driving of the first moving device 202, the fifth moving device 214, and the sixth moving device 216, and the seventh moving device 217 in the clamping jaw 212 can enable the eighth moving device 219 to move back and forth relative to the frame 201, when a demoulded wet blank product needs to be clamped, the eighth moving device 219 is driven by the first moving device 202, the fifth moving device 214, and the sixth moving device 216, and when the sensor senses that the eighth moving device 219 is located at a proper clamping position, the sensor transmits a signal back to a control component outside the turnover device 2, the control component starts a motor, at this time, the second beam 221 in the eighth moving device 219 moves downward relative to the first beam 220, a space enough for accommodating the wet blank product is generated between the first beam 220 and the second beam 221, the first sliding rail cylinder on the first beam 220 and the second sliding rail cylinder on the second beam 221 drive the whole clamping device 203 to move rightward, so that the second beam 221 is located at the bottom of the wet blank product, and at this time, the second beam 221 moves towards the first beam 220 until the first beam 220 and the second beam 221 clamp the wet blank product.

The bottom end of the frame 201 is fixedly provided with a second moving device 204, the second moving device 204 is slidably provided with a supporting frame 205, and the second moving device 204 is used for enabling the supporting frame 205 to move left and right relative to the frame 201.

A third moving device 206 is fixedly mounted on one side of the support frame 205, a supporting device 207 is slidably mounted on the third moving device 206, and the third moving device 206 is used for moving the supporting device 207 up and down relative to the support frame 205.

After the wet blank product is clamped by the clamping device 203, a sensor is arranged at the rear end of the rotary cylinder 218, when the sensor senses that the wet blank product is located at a proper position, the sensor transmits a signal back to a control component outside the turnover device 2, a motor is started by the control component, the motor drives the rotary shaft of the rotary cylinder 218, so that the eighth moving device 219 is turned over by 180 degrees, the second cross beam 221 is located above the first cross beam 220 after being turned over, the cantilever 215 moves leftwards along the fifth moving device 214 to the position of the plug net 3, then the first cross beam 220 and the second cross beam 221 are ejected by the first slide rail cylinder and the second slide rail cylinder, and the turned wet blank product is placed on the plug net 3.

A fourth moving device 208 is fixedly installed at the top end of the supporting device 207, a fixing device 209 is installed at the top of the fourth moving device 208 in a sliding mode, the fourth moving device 208 is used for enabling the fixing device 209 to move back and forth relative to the supporting device 207, and the fixing device 209 is used for fixing the plugging net 3;

the second moving device 204, the third moving device 205 and the fourth moving device 206 are all linear guide rails, and are all driven by a motor screwed on the second moving device 204, the third moving device 205 and the fourth moving device 206 to rotate a gear fixedly arranged on a rotating shaft of the motor, and then a rack meshed with the gear is driven by the gear, so that the driving of the second moving device 204, the third moving device 205 and the fourth moving device 206 is completed, after the overturned wet blank product is placed on the plug net 3, the fixing device 209 can move left and right, up and down and back and forth relative to the rack 201 under the action of the second moving device 204, the third moving device 205 and the fourth moving device 206, when the fixing device 209 moves to the position of the plug net 3, the fixing device 209 can fasten and fix the plug net 3 on the fixing device 209, and the second moving device 204, the third moving device 205 and the fourth moving device 206 can drive the gear by the motor, thereby moving the rack to move the fixture 209 into position on the cage 44.

The front end of the support frame 205 is fixedly provided with a holding device 211, the holding device 211 is used for holding the suspension cage 44, and the holding device 211 is used for enabling the support frame 205 to move along with the suspension cage 44.

The front end fixed mounting of support frame 205 holds device 211 tightly, holds device 211 and is used for holding the cage 44 tightly, holds device 211 including sensor 222, receiver 223 and clamping jaw cylinder 224, and clamping jaw cylinder 224 fixed mounting is in the front end of support frame 205, and sensor 222 fixed mounting is on clamping jaw cylinder 224, all fixed mounting has receiver 223 on each cage 44.

The track 42 in the transportation device 4 can enable a plurality of cages 44 to enter and exit the drying chamber 5 end to end, when the cages 44 pass through the fixing device 209 fixed with the plugging net 3, electric signals sent by the sensor 222 on the holding device 211 are received by the receiver 223 fixedly installed on the cages 44, the clamping jaw air cylinders 224 are started, the clamping rods on the left side and the right side of the clamping jaw air cylinders 224 are popped out under the action of the clamping jaw air cylinders 224 to hold the cages 44 tightly, so that the cages 44 correspond to the fixing device 209, the fixing device 209 is provided with a component capable of pushing the plugging net 3 into the cage 44, in the process that the plugging net 3 is pushed into the cages 44, the supporting blocks 45 in the cages 44 can play a role of supporting the plugging net 3 on the left side and the right side of the bottom of the plugging net 3, and meanwhile, in the process that the plugging net 3 enters the cage 44 from the fixing device 209, the lower end parts of the supporting frames 205 are screwed with sliding blocks, the frame 201 corresponds the slider spiral shell and is equipped with the guide rail along left right direction horizontal extension, the slider cooperatees with the guide rail, and simultaneously, the slider is also equipped with to the spiral shell on the supporting device 207, the third mobile device 206 corresponds the slider spiral shell and is equipped with the guide rail that is vertical arrangement, the guide rail cooperatees with the slider, the setting up of slider and guide rail makes the in-process that gets into cage 44 at stopper net 3, fixing device 209 can follow cage 44 synchronous motion, guarantee that wet base goods get into conveyer 4's overall process steadily and smoothly by turning device 2.

The drying chamber 5 includes a casing 51, a drying module 52 and a dehumidifying module 53, the drying module 52 is fixedly installed inside the casing 51, the dehumidifying module 53 is fixedly installed at one side of the casing 51, the drying module 52 is used for heating the inside of the casing 51, and the dehumidifying module 53 is used for exhausting the damp and hot air inside the casing 51.

Cage 44 is imported into drying chamber 5 by the cage 44 of one side of drying chamber 5 under conveyer 4's drive, in the inside of drying chamber 5, drying module 52 is including fixing a plurality of driers in the inside of the shell 51 of drying chamber 5, wet base goods can be dried fast, fixed mounting is constituteed by a plurality of exhaust fans at the inside of drying chamber 5's dehumidification module 53, the inside damp and hot air that produces of drying chamber 5's shell 51 can be discharged fast in the setting of dehumidification module 53, guarantee the inside high temperature and the drying environment of drying chamber 5, thereby guarantee the work efficiency of drying chamber 5.

The specific implementation process comprises the following steps: the whole working process of the paper-plastic mold production line provided by the utility model can be briefly summarized as follows: the pulp formed by the primary processing of the raw materials is processed by a paper-plastic die stamping device 1, wherein, on a special paper-plastic die, the pulp is stamped by a stamping machine 11 and is pressed into a wet blank product, the wet blank product is demoulded from the paper-plastic die stamping device 1 by a loading bearing assembly 210 in a turnover device 2 and is clamped by a clamping device 203, then the wet blank product is driven by a rotary cylinder 218 in the turnover device 2 to turn over for 180 degrees, the turned wet blank product is placed on a plug net 3, finally the turnover device 2 is placed in a suspension cage 44 in a conveying device 4, in the process that the plug net 2 enters the suspension cage 44, a fixing device 209 can synchronously move along with the suspension cage 44, the stable and smooth integral process that the wet blank product enters the conveying device 4 from the turnover device 2 is ensured, the conveying device 4 drives the suspension cage 44 to circularly enter a drying chamber 5 in a head-to-tail mode to circularly enter the drying chamber 5 to dry the wet blank product, the whole production process does not need manual loading and unloading and transportation, and the integral automation degree of the production line is improved.

In the embodiments of the present disclosure, the terms "mounting," "connecting," "fixing," and the like are used in a broad sense, for example, "connecting" may be a fixed connection, a detachable connection, or an integral connection; "coupled" may be direct or indirect through an intermediary. The specific meanings of the above terms in the disclosed embodiments of the utility model can be understood by those of ordinary skill in the art as appropriate.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications of the present embodiment without inventive contribution as needed after reading the present specification, but all of them are protected by patent law within the scope of the claims of the present invention.

Claims (8)

1. The paper-plastic mold production line is characterized by comprising a plurality of paper-plastic mold forming devices (1), wherein the paper-plastic mold forming devices (1) are arranged at intervals from left to right, and each paper-plastic mold forming device (1) comprises a punching machine (11) and a paper-plastic mold arranged on the punching machine (11);

the turnover device (2) is provided with a plurality of turnover devices (2), the turnover devices (2) are arranged on the front sides of the paper mold forming devices (1) at intervals in a one-to-one correspondence mode, the turnover devices (2) are used for enabling products demolded by the paper mold forming devices (1) to turn over for 180 degrees and placing the products demolded by the paper mold forming devices (1) on the plug net (3), and the turnover devices (2) are used for placing the plug net (3) at a specified position;

the conveying device (4) comprises a support (41) and a rail (42) fixedly installed at the top of the support (41), a plurality of sliding blocks (43) are installed on the rail (42) in a sliding mode, the bottom end of each sliding block (43) is hinged to a suspension cage (44), a plurality of bearing blocks (45) are arranged on each suspension cage (44) at equal intervals from top to bottom, and the bearing blocks (45) are used for bearing the plugging net (3);

and the drying chamber (5), one side of the drying chamber (5) is provided with a suspension cage (44) inlet, the other side of the drying chamber (5) is provided with a suspension cage (44) outlet, the head and the tail of the track (42) are seamlessly connected, and one part of the track (42) penetrates through the inside of the drying chamber (5).

2. A paper-plastic molding production line according to claim 1, characterized in that: the overturning device (2) comprises a rack (201), a first moving device (202) is arranged at the top end of the rack (201), a clamping device (203) is slidably mounted on the first moving device (202), and the first moving device (202) is used for enabling the clamping device (203) to move left and right relative to the rack (201);

a second moving device (204) is fixedly installed at the bottom end of the rack (201), a supporting frame (205) is installed on the second moving device (204) in a sliding mode, and the second moving device (204) is used for enabling the supporting frame (205) to move left and right relative to the rack (201);

a third moving device (206) is fixedly installed on one side of the supporting frame (205), a supporting device (207) is installed on the third moving device (206) in a sliding mode, and the third moving device (206) is used for enabling the supporting device (207) to move up and down relative to the supporting frame (205);

a fourth moving device (208) is fixedly installed at the top end of the supporting device (207), a fixing device (209) is installed at the top of the fourth moving device (208) in a sliding mode, the fourth moving device (208) is used for enabling the fixing device (209) to move back and forth relative to the supporting device (207), and the fixing device (209) is used for fixing the plugging net (3);

the rear end of the rack (201) is fixedly provided with a feeding bearing assembly (210), and the feeding bearing assembly (210) is used for being matched with the paper mould forming device (1) for demoulding.

3. A paper-plastic molding production line according to claim 2, characterized in that: the front end fixed mounting of support frame (205) holds device (211) tightly, hold device (211) tightly and be used for holding cage (44) tightly, hold device (211) tightly and be used for making support frame (205) are followed cage (44) and are removed.

4. A paper-plastic molding production line according to claim 2, characterized in that: the clamping device (203) comprises clamping jaws (212), a frame (213), a fifth moving device (214) and a cantilever (215), the frame (213) is slidably mounted on the first moving device (202), the first moving device (202) is used for enabling the frame (213) to move left and right relative to the rack (201), the fifth moving device (214) is fixedly mounted at the bottom end of the frame (213), the cantilever (215) is slidably mounted on the fifth moving device (214), the fifth moving device (214) is used for enabling the cantilever (215) to move back and forth relative to the frame (213), and the clamping jaws (212) are fixedly mounted on the cantilever (215).

5. A paper-plastic moulding line according to claim 4, characterized in that: the clamping jaw (212) comprises a sixth moving device (216), a seventh moving device (217) and a rotating cylinder (218) slidably mounted on the seventh moving device (217), the sixth moving device (216) is slidably mounted on the cantilever (215), the seventh moving device (217) is slidably mounted with the sixth moving device (216), the sixth moving device (216) is used for enabling the seventh moving device (217) to move up and down relative to the rack (201), the seventh moving device (217) is used for enabling the rotating cylinder (218) to move back and forth relative to the rack (201), a rotary table of the rotating cylinder (218) is located on the right side of a body of the rotating cylinder (218), a rotating plate is fixedly mounted on the rotary table of the rotating cylinder (218), an eighth moving device (219) is fixedly mounted at the right end of the rotating plate, and a first cross beam (220) is fixedly mounted at the top end of the eighth moving device (219), eighth mobile device (219) bottom slidable mounting has second crossbeam (221), eighth mobile device (219) is used for making second crossbeam (221) reciprocate for first crossbeam (220), both ends symmetry is provided with first slide rail cylinder around first crossbeam (220), both ends symmetry is provided with second slide rail cylinder around second crossbeam (221), each first slide rail cylinder and each the length direction of second slide rail cylinder is left right direction.

6. A paper-plastic molding production line according to claim 3, characterized in that: the front end fixed mounting of support frame (205) holds device (211) tightly, hold device (211) tightly and be used for holding cage (44) tightly, hold device (211) tightly including sensor (222), receiver (223) and clamping jaw cylinder (224), clamping jaw cylinder (224) fixed mounting be in the front end of support frame (205), sensor (222) fixed mounting be in on clamping jaw cylinder (224), each equal fixed mounting has receiver (223) on cage (44).

7. A paper-plastic molding production line according to claim 1, characterized in that: the bottom of track (42) is provided with spout (46), fixed mounting has drive arrangement in spout (46), each equal slidable mounting of slider (43) is in spout (46), the end to end of spout (46) links up, drive arrangement is used for making a plurality of sliders (43) are in spout (46) inner loop slides.

8. A paper-plastic molding production line according to claim 1, characterized in that: drying chamber (5) includes shell (51), drying module (52) and hydrofuge module (53), drying module (52) fixed mounting be in the inside of shell (51), hydrofuge module (53) fixed mounting be in one side of shell (51), drying module (52) are used for the inside heating for shell (51), hydrofuge module (53) are used for the inside damp and hot air of exhaust shell (51).

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