CN117445382B - Tectorial membrane device is used in production of rock wool intergral template - Google Patents

Abstract

The invention relates to the technical field of plate laminating, in particular to a laminating device for producing a rock wool integrated plate. Including the carriage, the carriage rigid coupling has the mount, the carriage rotates and is connected with tectorial membrane electric roller, the equal sliding connection of mount has the carriage, the carriage with be provided with elastic element between the mount, the carriage rigid coupling has the promotion frame, the equal rotation of mount is connected with puts the membrane axle, put the equal spline connection of membrane axle and have the rolling disc, the rolling disc rotates and is connected with the cooperation frame, the cooperation frame with adjacent promote frame sliding connection, the mount rigid coupling has first servo motor, first servo motor's output shaft rigid coupling has the rolling stand. According to the invention, the plastic film is loosely hung, and meanwhile, the transmission ratio of the rotating table to the rotating disc is increased, so that when the film laminating electric roller is used for laminating the rock wool integrated plate, the surface of the plastic film is free from tension, the plastic film is prevented from being stretched to be wrinkled, and the self property of the rock wool integrated plate is reduced.

Description

Tectorial membrane device is used in production of rock wool intergral template

Technical Field

The invention relates to the technical field of plate laminating, in particular to a laminating device for producing a rock wool integrated plate.

Background

The rock wool integrated plate is a heat preservation plate made of natural mineral raw materials such as molten basalt, rock wool materials inside the rock wool integrated plate have good heat preservation and heat insulation performance, but because the rock wool integrated plate can absorb moisture, if the rock wool integrated plate is exposed in a humid environment, the rock wool materials inside the rock wool integrated plate can absorb a large amount of moisture, so that the heat preservation performance is reduced, and the problems of mold, corrosion and the like are possibly caused, so that in order to ensure the self-properties of the rock wool integrated plate in use, plastic films are required to be attached to two sides of the rock wool integrated plate to isolate the entry of the moisture, and then the effects of moisture prevention and water prevention are achieved, but when the two sides of the rock wool integrated plate are coated, the plastic film coiled material is gradually consumed by the conventional film coating device, the radius of the conventional film coating device is gradually reduced, so that the film releasing speed and the film coating speed of the plastic film coiled material are different, and the plastic film is stretched under tension to cause the reduction of the laminating strength of the plastic film and the bonding strength of the rock wool integrated plate, so that the self-properties of the rock wool integrated plate do not reach standards.

Disclosure of Invention

The invention provides a film laminating device for producing a rock wool integrated plate, and aims to solve the defect that when a plastic film is released, the radius of a plastic film coiled material is gradually reduced along with consumption, so that a difference value occurs between a film releasing speed and a film laminating speed, and the plastic film is stretched to generate wrinkles.

The technical scheme of the invention is as follows: the utility model provides a tectorial membrane device is used in production of rock wool intergral template, includes the carriage, carriage fixedly connected with control terminal, carriage fixedly connected with evenly distributed's transport electric roll, evenly distributed carry electric roll all with the control terminal electricity is connected, carriage fixedly connected with mirror image distribution's mount, the carriage rotate be connected with the control terminal electricity is connected and mirror image distribution's tectorial membrane electric roll, mirror image distribution the equal sliding connection of mount has the carriage, the carriage with be provided with elastic element between the adjacent the mount, the carriage rotates and is connected with the laminating roller, carriage fixedly connected with promotes the frame, mirror image distribution the equal rotation of mount is connected with put the membrane axle, mirror image distribution put the membrane axle be close to adjacently the one end of promoting the frame is all spline connection has the rolling disc, the rolling disc rotates and is connected with the cooperation frame, cooperation frame with adjacent promote frame sliding connection, mirror image distribution the equal fixedly connected with the first servo motor of control terminal electricity is connected with the carriage, the first servo motor of output shaft that distributes the mirror image is connected with the equal rotation of mirror image distribution has the rolling disc, the equal rotation of mirror image distribution has the plastic film.

Further, the adsorption component comprises an adsorption frame, the adsorption frame is rotationally connected to the adjacent fixing frame, the fixing frame is fixedly connected with a negative pressure pipe rotationally connected with the adjacent adsorption frame, the negative pressure pipe is communicated with the adjacent adsorption frame, and one side, close to the adjacent membrane releasing shaft, of the adsorption frame is provided with evenly distributed through holes.

Further, the sliding frames distributed in a mirror image mode are fixedly connected with first toothed frames, the adsorption frames distributed in a mirror image mode are fixedly connected with first toothed rings, and the first toothed frames are meshed with the adjacent first toothed rings.

Further, still including the clearance subassembly that is used for clearing up rock wool intergral template outward appearance dust, the clearance subassembly set up in the carriage, the clearance subassembly is including the clearance shell that the mirror image distributes, the equal fixed connection of clearance shell is in the carriage that the mirror image distributes the equal rotation of clearance shell is connected with linear array's breather pipe, mirror image distribution and linear array the breather pipe all is provided with the through-hole, carriage fixedly connected with first gas injection pipe, mirror image distribution and linear array the breather pipe all with first gas injection pipe sliding connection and intercommunication.

Further, the carriage fixedly connected with the hydraulic component of control terminal electricity connection, hydraulic component's telescopic end fixedly connected with second rack, the carriage rotates the lantern ring that is connected with mirror image distribution and sharp array, mirror image distribution and sharp array the lantern ring all fixedly connected with second ring gear, mirror image distribution and sharp array the second ring gear all with the second rack meshing, mirror image distribution and sharp array all be provided with the spout in the lantern ring, mirror image distribution and sharp array the breather pipe all fixedly connected with fixture block, mirror image distribution and sharp array on the breather pipe the fixture block respectively with adjacent on the lantern ring the spout cooperation, mirror image distribution and sharp array the breather pipe all fixedly connected with fixed axle, mirror image distribution and sharp array the equal fixedly connected with of fixed axle is located the shutoff piece in the first gas injection pipe.

Further stated, the plugging block is in a truncated cone shape, and one end of the plugging block with a large diameter is far away from the adjacent vent pipe.

Further, the dust collection device further comprises a collection assembly in mirror image distribution, the collection assembly is used for discharging dust in the adjacent cleaning shells, the collection assembly in mirror image distribution is respectively arranged in the adjacent cleaning shells, the collection assembly comprises an air outlet pipe, the air outlet pipe is fixedly connected in the adjacent cleaning shells, an air suction pipe is fixedly connected in the cleaning shells, and the air outlet pipe and the adjacent air suction pipe are respectively arranged on two sides of the air pipe of the adjacent linear array.

Further, the cleaning shells distributed in a mirror image mode are fixedly connected with second servo motors electrically connected with the control terminals, first lead screws are rotationally connected in the air suction pipes distributed in a mirror image mode, output shafts of the second servo motors are fixedly connected with the adjacent first lead screws, the cleaning rings are in threaded connection with the first lead screws distributed in a mirror image mode, and the cleaning rings are in sliding connection with the adjacent air suction pipes.

Further, the device comprises a bubble removing assembly, the bubble removing assembly is used for scraping bubbles between a plastic film and a rock wool integrated plate, the bubble removing assembly is arranged on the conveying frame, the bubble removing assembly comprises a third servo motor distributed in a mirror image mode, the third servo motor distributed in a mirror image mode is electrically connected with the control terminal, the third servo motor distributed in a mirror image mode is fixedly connected with the conveying frame, an output shaft of the third servo motor distributed in a mirror image mode is fixedly connected with a second lead screw rotationally connected with the conveying frame, the conveying frame is fixedly connected with a sliding rod distributed in a mirror image mode, the second lead screw distributed in a mirror image mode is connected with a sliding table in a threaded mode, the sliding table distributed in a mirror image mode is connected with the adjacent sliding rod in a sliding mode, and the sliding table distributed in a mirror image mode is fixedly connected with a scraping plate.

Further, the heat-shrinkable component is used for enabling a plastic film to be tightly attached to a rock wool integrated plate, the heat-shrinkable component is arranged on the conveying frame, the heat-shrinkable component comprises a mirror image distributed switching plate, the mirror image distributed switching plate is fixedly connected to the conveying frame, a cavity is formed in a mirror image distributed sliding table, the mirror image distributed sliding table is fixedly connected with a second gas injection pipe in a communicating mode, the mirror image distributed sliding table is slidably connected with a plugging plate, the mirror image distributed sliding table is provided with a mirror image distributed gas outlet hole, and the plugging plate is matched with the adjacent mirror image distributed switching plate.

The beneficial effects of the invention are as follows:

1. through making the plastic film coiled material loosely hang between adjacent tectorial membrane roller and establish the plastic film, change the laminating position of rolling disc and adjacent rolling table simultaneously, increase the transmission ratio of rolling table to the rolling disc, when making tectorial membrane roller tectorial membrane to rock wool intergral template tectorial membrane, make the plastic film surface have no tension, avoid the plastic film tensile fold to appear, reduce the self nature of rock wool intergral template.

2. Through the adsorption frame absorption plastic film, avoid the plastic film to appear rocking and directly drop when the end, arouse plastic film stromatolite phenomenon, reduce the self nature of rock wool intergral template, make the distance between adsorption frame and the adjacent plastic film coiled material unanimous all the time simultaneously, ensure that the adsorption frame can adsorb the plastic film in its surface.

3. Through the gas accumulation in the first gas injection pipe, the vent pipe exhaust gas is enabled to rapidly impact the dust on the surface of the rock wool integrated plate, so that the dust is impacted by the gas and separated from the rock wool integrated plate, the dust is prevented from being attached to the outer surface of the rock wool integrated plate, the bonding strength of the plastic film and the rock wool integrated plate is reduced, and the self property of the rock wool integrated plate is affected.

4. The air outlet pipe and the air suction pipe are matched to uniformly discharge dust carried in the cleaning shell, and meanwhile, the cleaning ring slides along the adjacent air suction pipe to clean dust attached to the inner wall of the cleaning ring, so that dust cleaned by the rock wool integrated plate is prevented from being attached to the rock wool integrated plate again.

5. The air bubbles between the rock wool integrated plate and the plastic film are pushed out through the scraping plate, and the plastic film with the air bubbles scraped is blown by the heating air, so that the gap left by the air bubbles is made up by thermal shrinkage, and the bonding strength of the plastic film and the rock wool integrated plate is further improved.

Drawings

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

FIG. 2 is a schematic perspective view of a carriage according to the present invention;

FIG. 3 is a schematic perspective view of a turntable and a turntable according to the present invention;

FIG. 4 is a schematic perspective view of a cleaning assembly according to the present invention;

FIG. 5 is a schematic cross-sectional view of a perspective structure of the collar and second toothed ring of the present invention;

FIG. 6 is a schematic perspective view of a chute according to the present invention;

FIG. 7 is a schematic cross-sectional view of a first gas injection tube according to the present invention;

fig. 8 is a schematic view showing a perspective structure of an air suction pipe according to the present invention in cross section;

FIG. 9 is a schematic perspective view of a bubble removal module according to the present invention;

fig. 10 is a schematic perspective view of the heat shrinkable assembly of the present invention.

In the accompanying drawings: 101: carriage, 102: control terminal, 103: conveying electric roller, 104: mount, 105: laminating electric roller, 106: carriage, 107: elastic element, 108: laminating roller, 109: pushing rack, 110: film release shaft, 111: rotating disk, 112: mating rack, 113: first servo motor, 114: rotating table, 2: adsorption component, 201: adsorption frame, 202: negative pressure tube, 203: first rack, 204: first ring gear, 3: cleaning assembly, 301: cleaning the shell, 302: breather pipe, 303: first gas injection tube, 304: hydraulic element, 305: second rack, 306: collar, 307: second ring gear, 308: chute, 309: fixture block, 310: fixed shaft, 311: plugging block, 4: collection assembly, 401: outlet duct, 402: suction pipe, 403: second servo motor, 404: first lead screw, 405: cleaning ring, 5: bubble removal assembly, 501: third servo motor, 502: second lead screw, 503: slide bar, 504: slide table, 505: scraper blade, 6: heat shrinkage component, 601: switching board, 602: second gas injection tube, 603: plugging plate, 604: and an air outlet hole.

Detailed Description

In order that the above-recited objects, features and advantages of the present application will become more readily apparent, a more particular description of the invention briefly described above will be rendered by reference to specific embodiments that are illustrated in the appended drawings. It will be apparent that the embodiments described are some, but not all, of the embodiments of the present application. All other embodiments, which can be made by one of ordinary skill in the art based on the embodiments herein without making any inventive effort, are intended to be within the scope of the present application.

Example 1: 1-3, including carriage 101, the right side fixedly connected with control terminal 102 of carriage 101 upper plane, carriage 101's downside fixedly connected with evenly distributed's conveying roller 103, conveying roller 103 is used for carrying the integrative board of rock wool, evenly distributed's conveying roller 103 all is connected with control terminal 102 electricity, carriage 101 fixedly connected with two mounts 104 of mirror image distribution, carriage 101 swivelling joint has two tectorial membrane roller 105 with control terminal 102 electricity connection and mirror image distribution, two tectorial membrane roller 105 of mirror image distribution are used for laminating plastic film and integrative board of rock wool, two mounts 104 of mirror image distribution all sliding connection have carriage 106, be provided with two elastic element 107 of mirror image distribution between carriage 106 and the adjacent mount 104, elastic element 107 is the extension spring, carriage 106 is used for driving adjacent carriage 106 to reset, carriage 106 swivelling joint has laminating roller 108, carriage 106 fixedly connected with pushing frame 109, pushing frame 109 is provided with the spout and is slope setting, and be close to two control terminal 110 that the mirror image is connected with two and is used for driving the adjacent film 110 of mirror image film that the roller that the mirror image is connected with, two fixed shafts 111 of rolling contact with two of side-image distribution, the rolling disc 111 is connected with two end-setting discs 111, the roller 111 is connected with two of mirror image distribution, the end-setting plate 112 is connected with the adjacent film 112 through the cooperation of rolling disc 111, the rolling disc is connected with the rolling disc 111, the output shafts of the two first servo motors 113 in mirror image distribution are fixedly connected with rotating tables 114, one ends with large diameters of the rotating tables 114 are close to the adjacent film placing shafts 110, the two rotating tables 114 in mirror image distribution are respectively attached to the adjacent rotating discs 111, plastic films are loosely hung between plastic film coiled materials and the adjacent film covering electric rollers 105, meanwhile, the attaching positions of the rotating discs 111 and the adjacent rotating tables 114 are changed, the transmission ratio of the rotating tables 114 to the rotating discs 111 is increased, when the film covering electric rollers 105 cover the rock wool integrated plates, the surfaces of the plastic films do not have tension, wrinkles are prevented from occurring in stretching of the plastic films, the self properties of the rock wool integrated plates are reduced, and the two fixing frames 104 in mirror image distribution are all provided with adsorption assemblies 2 for adsorbing the plastic films.

When the rock wool integrated plate needs to be coated, a worker fixedly connects a plastic film coiled material on the upper film releasing shaft 110 and the lower film releasing shaft 110, pushes the adjacent sliding frame 106 to slide along the adjacent fixing frame 104, at the moment, the two elastic elements 107 distributed in an adjacent mirror image are stretched, the laminating roller 108 is laminated with the adjacent plastic film coiled material, partial plastic films are released to be wound on the adjacent film covering electric roller 105, meanwhile, the plastic films between the film covering electric roller 105 and the adjacent plastic film coiled material are in a loose state, then the conveying electric roller 103 is started, the conveying electric roller 103 conveys the rock wool integrated plate to the film covering electric roller 105, then the two film covering electric rollers 105 distributed in the mirror image and the two first servo motors 113 are started, the output shafts of the two first servo motors 113 drive the rotating tables 114 on the two film covering electric rollers to rotate, the rotating tables 114 drive the adjacent rotating discs 111 to synchronously rotate, the rotating discs 111 drive the adjacent film releasing electric roller 105 to synchronously rotate, and the two film covering electric rollers 105 reversely rotate to enable the plastic films to be in the loose state between the rock wool integrated plate and the adjacent plastic film, and the surface tension of the rock wool integrated plate is prevented from being caused by the plastic film, and the rock wool integrated plate is not stretched, and the tension of the plastic film integrated plate is prevented from being formed between the rock wool integrated plate and the surface of the plastic film.

When the laminating electric roller 105 presses the plastic film to the appearance of the rock wool integrated plate, the radius of the plastic film coiled material is gradually reduced, two elastic elements 107 distributed in adjacent mirror images start to reset, the two elastic elements 107 distributed in mirror images reset to drive the sliding frame 106 to reset and slide along the adjacent fixed frame 104, the sliding frame 106 drives the adjacent laminating roller 108 to always laminate on the outer part of the plastic film coiled material, meanwhile, the sliding frame 106 resets and slides along the adjacent fixed frame 104 to drive the adjacent pushing frame 109 to synchronously slide, the pushing frame 109 slides to push the adjacent matching frame 112, the matching frame 112 is driven by the pushing force of the adjacent pushing frame 109 to slide along the film releasing shaft 110, at the moment, the laminating position of the rotating disc 111 and the adjacent rotating table 114 is changed, the transmission ratio of the rotating table 114 to the rotating disc 111 is increased, the rotating speed of the adjacent film releasing shaft 110 is increased, the releasing speed of the plastic film is increased, and the phenomenon that the film releasing speed and the laminating speed are inconsistent is avoided, and the plastic film is stretched to form wrinkles, so that the plastic film and the rock wool integrated plate cannot be tightly laminated.

Example 2: on the basis of embodiment 1, as shown in fig. 2, the adsorption assembly 2 comprises an adsorption frame 201, a cavity for circulating gas is arranged in the adsorption frame 201, the adsorption frame 201 is rotationally connected to the right side of an adjacent fixing frame 104, a negative pressure pipe 202 rotationally connected with the adjacent adsorption frame 201 is fixedly connected to the fixing frame 104, the negative pressure pipe 202 is communicated with an external negative pressure device, the negative pressure pipe 202 is communicated with the cavity in the adjacent adsorption frame 201, uniformly distributed through holes are arranged on the left side surface of the adsorption frame 201, plastic films are adsorbed through the uniformly distributed through holes on the adsorption frame 201, the plastic films are prevented from falling directly when shaking and releasing to the tail end, a plastic film lamination phenomenon is caused, the self property of a rock wool integrated plate is reduced, two sliding frames 106 in mirror image distribution are fixedly connected with a first rack 203, the two adsorption frames 201 in mirror image distribution are fixedly connected with a first toothed ring 204, the first rack 203 is meshed with the adjacent first toothed ring 204, the first rack 203 drives the adjacent adsorption frame 201 to deflect towards an adjacent film releasing shaft 110, the distance between the adsorption frame 201 and the adjacent plastic films is always consistent, and the plastic films are adsorbed on the surface of the adsorption frame 201.

When the first servo motor 113 is started, the staff synchronously starts an external negative pressure device, the negative pressure device extracts air flow along through holes evenly distributed in the negative pressure pipe 202 and the adsorption frame 201, loose plastic films between the plastic film coiled material and the adjacent film-covering electric rollers 105 are attached to the surfaces of the adjacent adsorption frames 201 by adsorption force, sliding of the loose and suspended plastic films is avoided, the plastic film lamination is caused, the adhesive layers are adhered, the film-covering effect of the rock wool integrated plate is affected, meanwhile, when the plastic film coiled material releases the plastic films to the tail end, the adsorption frame 201 adsorbs the plastic films until the adjacent film-covering electric rollers 105 complete film-covering of the plastic films on the adsorption frame 201, the plastic films are prevented from falling off directly when released to the tail end, lamination phenomenon is further caused, and the self property of the rock wool integrated plate is reduced.

When the radius of the plastic film coiled material gradually decreases, the two elastic elements 107 in adjacent mirror image distribution start to reset, the two elastic elements 107 in mirror image distribution reset to drive the sliding frame 106 to reset and slide along the adjacent fixing frame 104, at this time, the sliding frame 106 drives the first rack 203 to synchronously move, the first rack 203 moves to drive the adjacent first toothed ring 204 to rotate, the first toothed ring 204 rotates to drive the adjacent adsorption frame 201 to rotate towards the adjacent plastic film coiled material, the adsorption frame 201 gradually deflects towards the adjacent plastic film coiled material along with the decrease of the radius of the plastic film coiled material, the distance between the adsorption frame 201 and the adjacent plastic film coiled material is always consistent, and the situation that the distance between the adsorption frame 201 and the plastic film gradually gets far away along with the decrease of the radius of the plastic film coiled material, so that the adsorption frame 201 cannot adsorb the plastic film on the surface of the plastic film is avoided.

Example 3: on the basis of embodiment 2, as shown in fig. 4, the cleaning assembly 3 is further included for cleaning dust on the surface of the rock wool integrated plate, the cleaning assembly 3 is disposed on the conveying frame 101 and is located on the left side of two fixing frames 104 in mirror image distribution, the cleaning assembly 3 comprises two cleaning shells 301 in mirror image distribution, the two cleaning shells 301 in mirror image distribution are respectively and fixedly connected to the upper plane and the lower plane of the conveying frame 101, the two cleaning shells 301 in mirror image distribution are respectively and slidably connected with three vent pipes 302 in a linear array, the six vent pipes 302 in mirror image distribution and in the linear array are respectively provided with through holes, the through holes are used for enabling air in the vent pipes 302 to discharge dust impacting the surface of the rock wool integrated plate, the rear side of the conveying frame 101 is fixedly connected with a first air injection pipe 303, the first air injection pipe 303 is communicated with an external air conveying device, the six vent pipes 302 in mirror image distribution and in the linear array are respectively and slidably connected and communicated with the first air injection pipe 303, dust on two sides of the rock wool integrated plate is ensured to be free from impact between a plastic film and the rock wool integrated plate, and the degree of adhesion of the plastic film and the rock wool integrated plate is improved.

As shown in fig. 4-7, a hydraulic element 304 electrically connected with the control terminal 102 is fixedly connected to the left side of the rear of the carriage 101, a second carriage 305 is fixedly connected to the telescopic end of the hydraulic element 304, the second carriage 305 is located between six vent pipes 302 in mirror image distribution, six collars 306 in mirror image distribution and linear array are rotationally connected to the carriage 101, the six collars 306 in mirror image distribution and linear array are fixedly connected with second toothed rings 307, the six second toothed rings 307 in mirror image distribution and linear array are engaged with the second carriage 305, the second carriage 305 drives the six second toothed rings 307 to rotate, the six second toothed rings 307 rotate to respectively drive adjacent collars 306 to rotate, sliding grooves 308 are respectively arranged in the six collars 306 in mirror image distribution and linear array, the sliding grooves 308 are spiral grooves, the outer walls of the six vent pipes 302 in mirror image distribution and linear array are fixedly connected with clamping blocks 309, the six vent pipes 302 in mirror image distribution and linear array are respectively matched with the sliding grooves 308 on the adjacent lantern rings 306, the lantern rings 306 rotate to drive the sliding grooves 308 to extrude the adjacent clamp blocks 309, the clamp blocks 309 drive the adjacent vent pipes 302 to slide along the first gas injection pipes 303 by the extrusion force of the adjacent lantern rings 306, the vent pipes 302 in mirror image distribution and linear array are fixedly connected with fixed shafts 310, the fixed shafts 310 in mirror image distribution and linear array are fixedly connected with blocking blocks 311 positioned in the first gas injection pipes 303, the blocking blocks 311 are in a circular truncated cone shape, one end of each blocking block 311 with the larger diameter is far away from the adjacent vent pipe 302, the vent pipes 302 slide along the first gas injection pipes 303 to enable the blocking blocks 311 to block the first gas injection pipes 303, the gas pressure in the first gas injection pipes 303 is gradually increased, and then the vent pipes 302 exhaust gas is enabled to rapidly impact dust on the surfaces of the rock wool integrated plates, the dust is separated from the rock wool integrated plate under the impact of gas.

When the conveying electric roller 103 conveys the rock wool integrated plate to the laminating electric roller 105, the rock wool integrated plate enters between two cleaning shells 301 in mirror image distribution, an external gas conveying device is started at the moment, gas is injected into a first gas injection pipe 303, the gas in the first gas injection pipe 303 enters into three vent pipes 302 of a linear array, the gas in the six vent pipes 302 of the linear array is discharged along the upper through holes of the vent pipes, and the gas is discharged along the upper through holes of the vent pipes 302 and then impacts dust on the surface of the rock wool integrated plate, so that the dust is impacted by the gas and separated from the rock wool integrated plate, the dust is prevented from adhering to the surface of the rock wool integrated plate, the bonding strength of a plastic film and the rock wool integrated plate is reduced, and the self property of the rock wool integrated plate is affected.

When gas is injected into the first gas injection pipe 303, the hydraulic element 304 is started at the same time, the telescopic end of the hydraulic element 304 drives the second rack 305 to move, the second rack 305 drives six second toothed rings 307 which are distributed in a mirror image and are in linear array to rotate, the second toothed rings 307 drive adjacent lantern rings 306 to rotate along the conveying frame 101, the lantern rings 306 drive sliding grooves 308 in the lantern rings to synchronously rotate, the sliding grooves 308 rotate to push clamping blocks 309, the clamping blocks 309 are driven by the thrust of the lantern rings 306 to drive adjacent vent pipes 302 to slide along the first gas injection pipe 303, the vent pipes 302 slide along the first gas injection pipe 303 to drive a fixed shaft 310 to synchronously slide, the fixed shaft 310 slides to drive a blocking block 311 on the fixed shaft 310 to block the first gas injection pipe 303, at this time, the first gas injection pipe 303 is a closed environment, the pressure of gas gradually increases along with the entering of the gas, then the telescopic end of the hydraulic element 304 drives the second rack 305 to reset, the second rack 305 resets and drives the adjacent vent pipe 302 to reset through the second toothed ring 307, the vent pipe 302 resets and drives the blocking block 311 to remove the blocking of the first gas injection pipe 303, at this time, high-pressure gas in the first gas injection pipe 303 rapidly enters the six vent pipes 302 of the linear array, and rapidly discharges dust further impacting the rock wool integrated plate along the six vent pipes 302 of the linear array, and the dust attached to the rock wool integrated plate is further cleaned by circulating the steps, and the bonding strength of the plastic film and the rock wool integrated plate is improved.

Example 4: on the basis of embodiment 3, as shown in fig. 4, the dust collection device further comprises two collection assemblies 4 in mirror image distribution, the collection assemblies 4 are used for discharging dust in adjacent cleaning shells 301, the two collection assemblies 4 in mirror image distribution are respectively arranged on the adjacent cleaning shells 301, the collection assemblies 4 comprise air outlet pipes 401, the two air outlet pipes 401 in mirror image distribution are communicated with an external air delivery device, the air outlet pipes 401 are fixedly connected in the adjacent cleaning shells 301, the air outlet pipes 401 are used for blowing air flow to the left side and driving the dust to synchronously move, air suction pipes 402 are fixedly connected in the cleaning shells 301, the two air suction pipes 402 in mirror image distribution are communicated with an external negative pressure device, the air suction pipes 402 are used for adsorbing air flow carrying dust, the air outlet pipes 401 and the adjacent air suction pipes 402 are respectively arranged on the right side and the left side of the three air vent pipes 302 in the adjacent linear array, and the air in the cleaning shells is uniformly discharged through the cooperation of the air outlet pipes 401 and the air suction pipes 402.

As shown in fig. 4 and 8, the front sides of the two cleaning shells 301 in mirror image distribution are fixedly connected with a second servo motor 403 electrically connected with the control terminal 102, the two air suction pipes 402 in mirror image distribution are rotationally connected with a first lead screw 404, an output shaft of the second servo motor 403 is fixedly connected with the adjacent first lead screw 404, the second servo motor 403 drives the adjacent first lead screw 404 to rotate, the two first lead screws 404 in mirror image distribution are in threaded connection with a cleaning ring 405, the cleaning ring 405 is in sliding connection with the adjacent air suction pipes 402, and the cleaning ring 405 slides along the inside of the air suction pipes 402 to clean dust attached to the adjacent air suction pipes 402, so that the air suction pipes 402 are prevented from being blocked by dust, and the dust suction efficiency of the air suction pipes 402 is reduced.

When gas is injected into the first gas injection pipe 303, the gas transmission device simultaneously injects gas into the two gas outlet pipes 401 distributed in a mirror image mode, and simultaneously, the negative pressure device is started to enable the two gas suction pipes 402 distributed in the mirror image mode to extract gas, so that the gas in the cleaning shell 301 flows from the gas outlet pipe 401 to the adjacent gas suction pipe 402, the gas enters the adjacent cleaning shell 301 along the gas outlet pipe 401 and impacts dust in the floating cleaning shell 301, so that the gas carries dust to uniformly flow leftwards, then the gas enters the cleaning shell by the extraction force of the adjacent gas suction pipe 402, finally, the dust in the two cleaning shells 301 distributed in the mirror image mode is uniformly discharged, and the dust cleaned by the rock wool integrated plate is prevented from being attached to the rock wool integrated plate again.

When the air suction pipe 402 is used for extracting air, two second servo motors 403 distributed in a mirror image mode are started, the output shafts of the second servo motors 403 drive adjacent first lead screws 404 to rotate, the first lead screws 404 rotate to drive cleaning rings 405 on the first lead screws to slide along the adjacent air suction pipe 402, dust attached to the inner wall of the air suction pipe 402 is cleaned, the air suction pipe 402 is prevented from being blocked by the dust, the extraction efficiency of the air suction pipe 402 is further reduced, and the dust in the two cleaning shells 301 distributed in the mirror image mode cannot be timely discharged.

Example 5: on the basis of embodiment 4, as shown in fig. 9 and 10, the device further comprises a bubble removing assembly 5, the bubble removing assembly 5 is used for scraping bubbles between a plastic film and a rock wool integrated plate, the bubble removing assembly 5 is arranged on the conveying frame 101 and is located on the right side of two fixing frames 104 in mirror image distribution, the bubble removing assembly 5 comprises two third servo motors 501 in mirror image distribution, the two third servo motors 501 in mirror image distribution are electrically connected with the control terminal 102, the two third servo motors 501 in mirror image distribution are respectively and fixedly connected with the upper side surface and the lower side surface of the conveying frame 101, output shafts of the two third servo motors 501 in mirror image distribution are respectively and fixedly connected with second lead screws 502 which are rotationally connected with the conveying frame 101, the second lead screws 502 are reciprocating lead screws, the upper plane and the lower plane of the conveying frame 101 are respectively and fixedly connected with sliding rods 503, the two second lead screws 502 in mirror image distribution are respectively and slidably connected with sliding tables 504, the lower side surfaces of the two sliding tables 504 in mirror image distribution are respectively and fixedly connected with scraping plates 505, the scraping plates 505 are flexible scraping plates, and the plastic film is prevented from being broken by the second lead screws 502, and the bubble is prevented from being pushed out of the rock wool integrated plate by the second lead screws.

As shown in fig. 9 and 10, still include pyrocondensation subassembly 6, pyrocondensation subassembly 6 is used for making plastic film and the laminating of rock wool intergral template inseparable, pyrocondensation subassembly 6 sets up in carriage 101, pyrocondensation subassembly 6 is including four switching plates 601 of mirror image distribution, four switching plates 601 of mirror image distribution are fixed connection respectively in the front and back of the upper and lower planar of carriage 101, all be provided with the cavity in two sliding tables 504 of mirror image distribution, the cavity is used for circulating the heating installation, two sliding tables 504 of mirror image distribution are all fixed connection and intercommunication have second gas injection pipe 602, two second gas injection pipes 602 of mirror image distribution all communicate with outside heating installation conveyor, two sliding tables 504 of mirror image distribution are all sliding connection has the shutoff board 603, the opposite side of two sliding tables 504 of mirror image distribution is provided with the venthole 604 of mirror image distribution, the venthole 604 of mirror image distribution is located the front and back both sides of adjacent sliding tables 504, the shutoff board 603 cooperates with two switching plates 601 of adjacent mirror image distribution, the shutoff board 603 receives switching plates 601 to slide along adjacent sliding tables 504, make the periodic sliding tables 504 of the two sliding tables of mirror image distribution and have second gas injection pipe 602 to make up for the bubble blowing the plastic film behind the sealing board, make up the bubble blowing strength of the plastic film behind the sealing board, further improvement of the bubble blowing air bubble laminating.

After the film coating of the rock wool integrated plate is finished, the third servo motor 501 is started at this time, the output shaft of the third servo motor 501 drives the second screw rod 502 to rotate, the second screw rod 502 rotates to drive the sliding table 504 to linearly and reciprocally slide along the adjacent sliding rods 503, the sliding table 504 slides along the adjacent sliding rods 503 to drive the upper scraping plate 505 to synchronously slide, the scraping plate 505 slides to be attached to the plastic film of the rock wool integrated plate, the scraping plate 505 is attached to the plastic film and slides along the surface of the plastic film, the scraping plate 505 slides to push the bubbles between the rock wool integrated plate and the plastic film to uniformly move along the surface of the plastic film, the scraping plate 505 pushes the bubbles to the side edge of the rock wool integrated plate to be discharged, the bubbles between the rock wool integrated plate and the plastic film are eliminated, and the influence on the self-property of the rock wool integrated plate due to the fact that the bubbles exist between the rock wool integrated plate and the plastic film is avoided.

When the third servo motor 501 is started, an external heating air conveying device is started, heating air is injected into two second air injection pipes 602 distributed in a mirror image mode, the heating air in each second air injection pipe 602 enters an adjacent cavity in the sliding table 504, when the sliding table 504 moves forwards along the adjacent sliding rod 503, air is discharged along an air outlet hole 604 at the rear side of the sliding table 504, the position after the scraping plate 505 scrapes bubbles is heated, when the sliding table 504 moves to the position after the front side of the adjacent switching plate 601 contacts, the switching plate 601 pushes the blocking plate 603 to slide along the adjacent sliding table 504 to block the air outlet hole 604 at the rear side, at the moment, the heating air is discharged along the air outlet hole 604 at the front side, then the second lead screw 502 drives the sliding table 504 to move backwards along the adjacent sliding rod 503, so that the heating air always blows to the position after the bubbles are scraped, the plastic film is thermally shrunk to compensate the cavity of the bubbles, and the bonding strength of the plastic film and the rock wool integrated plate is further improved.

The foregoing description is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical solution of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims (8)

1. Tectorial membrane device is used in production of rock wool intergral template, characterized by: the automatic film feeding device comprises a conveying frame (101), wherein a control terminal (102) is fixedly connected to the conveying frame (101), conveying electric rollers (103) which are uniformly distributed are fixedly connected to the conveying frame (101), the conveying electric rollers (103) which are uniformly distributed are electrically connected with the control terminal (102), a mirror-image-distributed fixing frame (104) is fixedly connected to the conveying frame (101), film-coated electric rollers (105) which are electrically connected with the control terminal (102) and are in mirror-image distribution are rotationally connected to the conveying frame (101), sliding frames (106) are slidingly connected to the mirror-image-distributed fixing frames (104), elastic elements (107) are arranged between the sliding frames (106) and the adjacent fixing frames (104), laminating rollers (108) are rotationally connected to the sliding frames (106), pushing frames (109) are fixedly connected to the sliding frames (104), a mirror-image-distributed film-releasing shaft (110) is rotationally connected to a spline (111) is connected to one end, close to the adjacent pushing frames (109), and the rotating frames (111) are matched with the rotating frames (112), the fixed frames (104) distributed in a mirror image mode are fixedly connected with first servo motors (113) electrically connected with the control terminals (102), output shafts of the first servo motors (113) distributed in a mirror image mode are fixedly connected with rotating tables (114), one ends, with the diameters larger than the diameters, of the rotating tables (114) are close to the film placing shafts (110), the rotating tables (114) distributed in the mirror image mode are respectively attached to the adjacent rotating discs (111), and the fixed frames (104) distributed in the mirror image mode are provided with adsorption assemblies (2) used for adsorbing plastic films;

the adsorption assembly (2) comprises an adsorption frame (201), wherein the adsorption frame (201) is rotationally connected with an adjacent fixing frame (104), the fixing frame (104) is fixedly connected with a negative pressure pipe (202) rotationally connected with the adjacent adsorption frame (201), the negative pressure pipe (202) is communicated with the adjacent adsorption frame (201), and one side, close to the adjacent membrane releasing shaft (110), of the adsorption frame (201) is provided with uniformly distributed through holes;

the sliding frames (106) in mirror image distribution are fixedly connected with first rack frames (203), the adsorption frames (201) in mirror image distribution are fixedly connected with first toothed rings (204), and the first rack frames (203) are meshed with the adjacent first toothed rings (204);

the plastic film coiled material and the plastic film coating electric roller (105) are loosely hung, meanwhile, the attaching position of the rotating disc (111) and the rotating table (114) is changed, the transmission ratio of the rotating table (114) to the rotating disc (111) is increased, and when the plastic film coating electric roller (105) coats the rock wool integrated plate, the surface of the plastic film is not provided with tension, so that the plastic film is prevented from being stretched to be wrinkled.

2. The laminating device for producing rock wool integrated plates according to claim 1, wherein: still including being used for clearing up clearance subassembly (3) of rock wool intergral template exterior dust, clearance subassembly (3) set up in carriage (101), clearance subassembly (3) including mirror image distribution's clearance shell (301), mirror image distribution clearance shell (301) all fixed connection in carriage (101), mirror image distribution clearance shell (301) all rotate and are connected with sharp array's breather pipe (302), mirror image distribution and sharp array breather pipe (302) all are provided with the through-hole, carriage (101) fixedly connected with first gas injection pipe (303), mirror image distribution and sharp array breather pipe (302) all with first gas injection pipe (303) sliding connection and intercommunication.

3. The laminating device for producing rock wool integrated plates according to claim 2, wherein: the conveying frame (101) is fixedly connected with a hydraulic element (304) electrically connected with the control terminal (102), a second rack (305) is fixedly connected with the telescopic end of the hydraulic element (304), lantern rings (306) which are distributed in a mirror image mode and are in a linear array are rotationally connected with the conveying frame (101), second toothed rings (307) are fixedly connected with the lantern rings (306) which are distributed in the mirror image mode and are in the linear array, sliding grooves (308) are formed in the lantern rings (306) which are distributed in the mirror image mode and are in the linear array, clamping blocks (309) are fixedly connected with the breathing pipes (302) which are distributed in the mirror image mode and are in the linear array, the clamping blocks (309) are matched with the sliding grooves (308) on the lantern rings (306) respectively, fixed shafts (310) are fixedly connected with the breathing pipes (302) which are distributed in the mirror image mode and are in the linear array, and the fixed shafts (310) which are distributed in the mirror image mode are fixedly connected with the first plugging blocks (311).

4. A film laminating apparatus for rock wool integrated plate production according to claim 3, wherein: the plugging block (311) is in a truncated cone shape, and one end of the plugging block (311) with a large diameter is far away from the adjacent ventilation pipe (302).

5. The laminating device for producing rock wool integrated plates according to claim 4, wherein: still including mirror image distribution's collection subassembly (4), collection subassembly (4) are used for discharging and are located adjacently dust in clearance shell (301), mirror image distribution collection subassembly (4) set up respectively in adjacently clearance shell (301), collection subassembly (4) are including outlet duct (401), outlet duct (401) fixed connection is adjacent in clearance shell (301), clearance shell (301) internal fixation has breathing pipe (402), outlet duct (401) and adjacent breathing pipe (402) are located respectively adjacent sharp array's both sides of breather pipe (302).

6. The laminating device for producing rock wool integrated plates according to claim 5, wherein: the cleaning shell (301) that the mirror image distributes all fixedly connected with second servo motor (403) that control terminal (102) electricity is connected, mirror image distribution all rotate in breathing pipe (402) and be connected with first lead screw (404), the output shaft of second servo motor (403) with adjacent first lead screw (404) fixed connection, mirror image distribution first lead screw (404) all threaded connection has cleaning ring (405), cleaning ring (405) with adjacent breathing pipe (402) sliding connection.

7. The laminating device for producing rock wool integrated plates according to claim 1, wherein: still including removing bubble subassembly (5), remove bubble subassembly (5) be used for striking off the bubble between plastic film and the rock wool intergral template, remove bubble subassembly (5) set up in carriage (101), remove bubble subassembly (5) including mirror image distributed third servo motor (501), mirror image distributed third servo motor (501) all with control terminal (102) electricity is connected, mirror image distributed third servo motor (501) all fixed connection in carriage (101), mirror image distributed output shaft of third servo motor (501) all fixed connection with carriage (101) rotate second lead screw (502) of being connected, carriage (101) fixedly connected with mirror image distributed slide bar (503), mirror image distributed second lead screw (502) all threaded connection has sliding table (504), mirror image distributed sliding table (504) respectively with adjacent slide bar (503) sliding connection, mirror image distributed sliding table (504) all fixed connection has scraper blade (505).

8. The laminating device for producing rock wool integrated plates according to claim 7, wherein: still include pyrocondensation subassembly (6), pyrocondensation subassembly (6) are used for making plastic film and integrative board laminating of rock wool inseparable, pyrocondensation subassembly (6) set up in carriage (101), pyrocondensation subassembly (6) including mirror image distributed switch board (601), mirror image distributed switch board (601) all fixed connection in carriage (101), mirror image distributed all be provided with the cavity in sliding table (504), mirror image distributed sliding table (504) all fixed connection and intercommunication have second gas injection pipe (602), mirror image distributed sliding table (504) all sliding connection has shutoff board (603), mirror image distributed sliding table (504) are provided with venthole (604) of mirror image distribution, shutoff board (603) with adjacent mirror image distributed switch board (601) cooperation.