CN212312837U - Movable self-lifting multi-layer negative pressure plate manufacturing device - Google Patents

Abstract

A movable self-lifting multi-layer negative pressure plate making device comprises a rack, a bottom layer movable plate making platform, an upper layer plate making platform, a top layer integrated cover and a lifting positioning system, wherein the lifting positioning system is installed at the top of the rack and drives the top layer integrated cover to move up and down; the upper layer plate making platform is arranged on the bottom layer movable plate making platform and comprises an upper support bed, an upper vacuum chamber frame, an upper glass template and a first vacuum cover; the top integrated cover comprises a top cover, a second vacuum cover and a layer number selection device. Borrow by above-mentioned technical scheme, the utility model discloses the system board device can realize once suppressing multilayer panel simultaneously, reduces operating personnel intensity of labour, avoids because of the product that manual operation unnormal arouses is unqualified, promotes the product percent of pass.

Description

Movable self-lifting multi-layer negative pressure plate manufacturing device

Technical Field

The utility model belongs to the negative pressure system board device field of composite sheet, in particular to negative pressure multilayer suppression of car as a house, refrigerator car and new forms of energy compound incubation carriage board with need not artifical shop vacuum cover and pull out formula of moving from multilayer negative pressure system board device that goes up and down of panel.

Background

At present, various composite carriage plate manufacturers or assembly manufacturers generally adopt a sandwich structure formed by bonding glass fiber reinforced plastic skins (or aluminum alloy plates and stainless steel plates), a frame, a heat insulation plate and glass fiber reinforced plastic skins (aluminum alloy plates and stainless steel plates) by using glue. The carriage plate can not have the phenomena of void, interlayer separation and wave unevenness formed by incompact pressing so as to meet the heat preservation requirement and ensure that the surface smoothness, the integral strength and other indexes of the carriage plate completely meet the industrial standards.

The existing negative pressure plate making device comprises a single-layer negative pressure machine and a multi-layer negative pressure machine. But a single layer of negative pressure can only press one sheet at a time, with low efficiency, and requires manual opening and laying of the vacuum enclosure each time. If the paving is not flat, air leakage is easily caused to generate unstable pressure, and finally the product is scrapped. The multilayer negative pressure machine adopts a plate manufactured on an external prefabricated plate platform, the plate needs to be manually dragged into a negative pressure machine template for pressing during pressing, the vibration of the plate can be caused in the dragging process, so that the internal structure is shifted and deformed, and the colloid flow compartment plate has the scrapping phenomena of holes, interlayer separation, uneven waves and the like. However, no negative pressure machine can really solve the general technical problem that a plurality of layers of plates can be pressed at one time, a vacuum cover does not need to be laid manually or prefabricated plates do not need to be dragged, the production efficiency is improved, and product scrapping caused by human factors is reduced.

SUMMERY OF THE UTILITY MODEL

In order to overcome not enough among the prior art, the utility model aims to provide a formula of moving out is from lifting multilayer negative pressure system trigger thoroughly solves a suppression multilayer panel, need not the manual work and lays or pull this problem of prefabricated completion panel.

The purpose of the utility model and the technical problem thereof are realized by adopting the following technical scheme. According to the utility model, the movable self-lifting multi-layer negative pressure plate making device comprises a frame, a bottom layer movable plate making platform, an upper layer plate making platform, a top layer integrated cover and a lifting positioning system which is arranged at the top of the frame and drives the top layer integrated cover to move up and down,

the bottom layer moving plate making platform is arranged on the rack through a guide rail driving system so as to move back and forth between the pressing area and the precast plate area, and comprises a lower support bed, a lower vacuum chamber frame welded at the top of the lower support bed and a lower glass template arranged in the lower vacuum chamber frame;

the upper layer plate making platform is placed on the bottom layer movable plate making platform and comprises an upper support bed, an upper vacuum chamber frame welded at the top of the upper support bed, an upper glass template arranged in the upper vacuum chamber frame and a first vacuum cover tightly pressed and installed at the bottom of the upper support bed through a first sealing groove, and a first sealing strip used for being tightly matched with the lower vacuum chamber frame is arranged in the first sealing groove, so that a first vacuum chamber is formed among the first vacuum cover, the lower glass template and the lower vacuum chamber frame;

the top layer integrated machine cover comprises a top layer machine cover, a second vacuum cover and a layer number selection device, wherein the second vacuum cover and the layer number selection device are symmetrically fixed to the bottom of the top layer machine cover through a second sealing groove in a pressing mode, are used for connecting the upper layer plate making platform and the bottom layer plate making platform into a whole, a second sealing strip is arranged in the second sealing groove and used for being in press fit with the upper vacuum chamber frame, and therefore the second vacuum cover is made, the upper glass template and the upper vacuum chamber frame form a second vacuum chamber, and an air suction hole used for corresponding to vacuum chamber vacuumizing is formed in the upper vacuum chamber frame and the lower vacuum chamber frame.

The purpose of the utility model is further realized by adopting the following technical measures.

The plate making device comprises a lifting arm integrated on the top layer cover and a driving cylinder fixed on the lifting arm, wherein the output end of the driving cylinder is provided with a positioning needle, the lifting arm is provided with a positioning hole, two sides of an upper support bed are provided with positioning rings corresponding to the positioning holes, and the driving cylinder drives the positioning needle to penetrate through the positioning rings and the positioning holes to realize that the upper layer plate making platform and the top layer integrated cover form an integrated structure.

In the plate making device, the layer number selecting device further comprises a sliding block fixedly connected with the lifting arm and a sliding rail arranged on the frame and matched with the sliding block.

The plate making device comprises a frame, a guide rail, a traveling wheel and a driving motor, wherein the guide rail is arranged on the guide rail, the traveling wheel is arranged at the bottom of the bottom layer moving plate making platform and is in rolling fit with the guide rail, the driving motor is used for driving the traveling wheel, and the guide rail extends to the prefabricated plate area from the pressing area.

According to the plate making device, the lifting positioning system comprises a lifting driving device, a power steering device and synchronous lifters which are fixed on the rack, a power output shaft of the lifting driving device is connected with an input end of the power steering device, an output end of the power steering device drives the synchronous lifters through synchronous shafts, and an output end of each synchronous lifter is fixedly connected with the top layer integrated cover.

The plate making device comprises a power output shaft, a power steering device and a plate making device, wherein the power steering device comprises bevel gears which are meshed with each other, one bevel gear is connected with the power output shaft, and the other bevel gear is connected with the synchronizing shaft.

The plate making device, wherein the lifting and positioning system further comprises a travel switch mounted on the frame.

The plate making device further comprises a vacuum system, wherein the vacuum system comprises a vacuum unit, a first vacuum chamber selection valve and a second vacuum chamber selection valve, the first vacuum chamber selection valve is installed on an air pipe communicated with the air pumping hole of the frame of the upper vacuum chamber, and the second vacuum chamber selection valve is installed on an air pipe communicated with the air pumping hole of the frame of the lower vacuum chamber.

In the plate manufacturing device, vacuum breaking valves for breaking vacuum of the corresponding vacuum chambers are respectively installed on the upper vacuum chamber frame and the lower vacuum chamber frame.

In the plate manufacturing apparatus, the first vacuum hood and the second vacuum hood both use PE nonwoven fabrics.

Borrow by above-mentioned technical scheme, compared with the prior art, the utility model at least possesses following beneficial effect:

1. compared with a commonly-adopted single-layer negative pressure machine, the production efficiency is improved by two times, an operator is not required to lay a vacuum cover in the plate manufacturing process, the labor intensity of the operator is reduced, unqualified products caused by manual operation are avoided, and the product percent of pass is improved.

2. Compare with multilayer negative pressure plate making machine, can move out the plate making platform to the external prefabricated plate district by the suppression district, directly system board on the glass template, need not the manual work and adopt the manual work to pull when dragging the panel that the prefabrication was accomplished and the panel that the uninstallation was accomplished in the machine when system board, and do not influence the manufacturing of another panel when vacuum pressing (need pressurize suppression for a period of time) a panel, abundant high efficiency utilization time, reduce operating personnel intensity of labour, guarantee operating personnel safety, avoid because of manual operation is not standard, the product that careless arouses is unqualified, promote the product qualification rate.

3. The utility model discloses the track of laying in the frame extends to the prefabricated plate district for operating personnel can spill over the colloid outside the template when the excessive suppression of rubber coating because of the clearance outside the machine, need not to let operating personnel get into inside the machine, safe and reliable more.

4. The utility model discloses well lift positioning system adopts a lift drive arrangement to drive the synchronous riser of a plurality of evenly distributed in top layer integrated cover top, and supporting setting carries out the slider slide rail set spare and the travel switch of accurate direction along vertical direction, can realize that the steady no swing of jumbo size top layer integrated cover goes up and down and go up and down not overtravel.

The foregoing description is only an overview of the technical solutions of the present invention, and in order to make the technical means of the present invention more clearly understood, the present invention may be implemented according to the content of the description, and in order to make the above and other objects, features, and advantages of the present invention more obvious and understandable, the following preferred embodiments are described in detail with reference to the accompanying drawings.

Drawings

Fig. 1 is a front view structure diagram of the present invention.

Fig. 2 is a schematic side view of the present invention.

Fig. 3 is a schematic top view of the present invention.

Fig. 4 is a schematic view of a portion of the structure of the top integrated cover integrated with the upper floor pallet in the embodiment of the present invention.

Fig. 5 is a schematic sectional view a-a in fig. 4.

Fig. 6 is an enlarged view of a portion a in fig. 2.

Fig. 7 is an enlarged view of a portion B in fig. 3.

Detailed Description

The technical solution of the present invention will be further described in detail with reference to the accompanying drawings and preferred embodiments.

Referring to fig. 1 to 7, the present invention relates to a movable self-lifting multi-layer negative pressure plate-making device, which comprises a frame 1, a bottom layer movable plate-making platform 2, an upper layer plate-making platform 3, a top layer integrated cover 4, and a lifting positioning system installed on the top of the frame and driving the top layer integrated cover to move up and down. The frame 1 is arranged in the pressing area and is formed by welding national standard high-quality H-shaped steel so as to ensure the integral level and the stable structure of the equipment.

The bottom layer moving plate making platform 2 is movably arranged on the frame 1 through a guide rail driving system so as to reciprocate between the pressing area and the precast plate area, and the bottom layer moving plate making platform 2 comprises a lower support bed 21, a lower vacuum chamber frame 22 welded on the top of the lower support bed and a lower glass template 23 arranged in the lower vacuum chamber frame.

The upper-layer plate making platform 3 is placed on the bottom layer movable plate making platform 2, the upper-layer plate making platform comprises an upper support bed 31, an upper vacuum chamber frame 32 welded at the top of the upper support bed, an upper glass template 33 arranged in the upper vacuum chamber frame and a first vacuum cover 35 tightly pressed and installed at the bottom of the upper support bed through a first sealing groove 34, and a first sealing strip 36 tightly matched with a lower vacuum chamber frame to realize sealing is arranged in the first sealing groove 34, so that the first vacuum cover, the lower glass template and the lower vacuum chamber frame form a first vacuum chamber 37. In the embodiment, the upper and lower supporting beds are formed by welding national standard high-quality square tubes or connecting high-strength bolts; the upper glass template and the lower glass template are made of a whole piece of glass with the thickness of 20 mm; the upper and lower vacuum chamber frames are formed by welding high-quality rectangular pipes, and the bottom of the vacuum chamber frame is sealed after the corresponding glass template is placed inside the corresponding frame.

The top integrated cover 4 comprises a top cover 41, second vacuum covers 43 which are tightly pressed and fixed at the bottom of the top cover through second seal grooves 42, and a layer number selection device 5 which is symmetrically arranged on two sides of the top cover and is used for connecting the upper layer plate making platform and the bottom movable plate making platform into a whole, wherein second seal strips 44 which are tightly pressed and tightly matched with the top of the upper vacuum chamber frame are arranged in the second seal grooves 42, so that a second vacuum chamber is formed among the second vacuum covers 43, the upper glass template 33 and the upper vacuum chamber frame 32, and the top integrated cover 4 in the figure 6 is in a lifting state and is not lowered to be matched with the upper layer plate making platform 3, so that the second vacuum chamber is not marked in the figure; the upper vacuum chamber frame and the lower vacuum chamber frame are both provided with air pumping holes 6 for vacuumizing the corresponding vacuum chamber. In this embodiment, the first vacuum hood and the second vacuum hood both use reinforced non-woven PE cloth, which has stretch-resistant and folding-resistant capabilities. The first sealing groove and the second sealing groove are formed by bending stainless steel, and are connected with the support bed or the top cover through bolts to compress the corresponding vacuum cover, so that the support bed and the top cover are ensured to compress the corresponding vacuum chamber frame and not deform and the vacuum cover is not loosened during frequent lifting.

The layer number selecting device 5 comprises a lifting arm 51 integrated on the top layer cover 41 and a driving cylinder 52 fixed on the lifting arm, the output end of the driving cylinder is provided with a positioning needle 53, the lifting arm 51 is provided with a positioning hole 54, and two sides of the upper support bed 31 are provided with positioning rings 38 corresponding to the positioning holes 54. After the top integrated cover is pressed against the upper plate-making platform to make the second vacuum chamber in a sealed state, the driving cylinder ejects the positioning pin 53 out and through the positioning ring 38 and the positioning hole 54 to make the upper plate-making platform 3 and the top integrated cover 4 form an integrated structure. Preferably, in order to ensure that the top integrated cover does not swing in the lifting process, the layer number selection device is additionally provided with a slide block fixedly connected with the lifting arm and a slide rail 56 arranged on the frame 1 and matched with the slide block.

The guide rail driving system comprises a guide rail 71 laid at the bottom of the frame 1, a traveling wheel 72 arranged at the bottom of the bottom layer movable plate making platform and matched with the guide rail in a rolling way, and a driving motor 73 for driving the traveling wheel, wherein the guide rail extends from the pressing area to the prefabricated plate area. In the embodiment, the guide rails are paved by 12kg/m light rails, the guide rails positioned in the pressing area and the guide rails positioned in the external prefabricated plate area are positioned on the same plane, the deviation of the guide rails within the range of 2mm of straightness is less than or equal to 1mm, the deviation of the relative elevation of the two rails within the range of 2m of levelness is less than or equal to 1mm, the height deviation of a rail joint is less than 1mm, and the left-right dislocation deviation of the rail joint is less than 1 mm. The driving motor is preferably a servo motor, and the walking wheels on two sides are arranged on two sides, so that the template is stable, synchronous and accurate in positioning in the walking process.

The lifting positioning system comprises a lifting driving device 81, a power steering device 82 and a plurality of synchronous lifters 83 which are fixed on the frame, wherein the structures of the lifting driving device, the power steering device and the synchronous lifters are the prior art, the utility model discloses only improve its distribution mode in order to seek to realize more stable lifting scheme to the top layer integrated cover; specifically, as shown in fig. 7, the power steering device 82 includes a mounting base fixed on the frame, two bevel gears rotatably assembled inside the mounting base through a bearing seat and engaged with each other, the two bevel gears are arranged perpendicular to each other, one bevel gear is connected with a power output shaft of the lifting driving device through a coupler, the other bevel gear is connected with a synchronizing shaft 85 through a coupler, the synchronizing shaft is also connected with an input shaft of a synchronous lifter through a coupler, the other end of the input shaft of the synchronous lifter is connected with an input shaft of another synchronous lifter through a coupler again, so as to realize the serial connection of a plurality of synchronous lifters, and an output end 86 (i.e., a lifting end) of each synchronous lifter is fixedly connected with the top-layer integrated cover. When the synchronous lifting device works, the power output shaft of the lifting driving device simultaneously drives the two power steering devices, the power steering devices drive the synchronous shafts to rotate through the bevel gears which change the power direction, the synchronous shafts drive the synchronous lifters to rotate, and finally the synchronous lifting device works simultaneously, and the rotation quantity of each synchronous shaft is completely the same, so that synchronous lifting can be realized. Furthermore, power steering devices can be additionally arranged on the machine frame at the four corners of the top integrated machine cover, so that a closed-loop transmission circuit is formed, and the lifting synchronism is enhanced; a synchronous lifter can be additionally arranged between the two power steering devices positioned at the front end or the rear end of the top-layer integrated cover so as to improve the lifting stability. In other embodiments, an existing mature synchronous lifting hydraulic system may be arranged on the frame instead of the lifting positioning system, but the synchronous lifting hydraulic system needs to lay a large number of liquid paths, has a high requirement on the accuracy of intelligent pressure control, is high in cost, and can be used as an alternative. Besides, also can adopt current synchronous lift cylinder to realize the lift location of top layer integrated cover, it is worth explaining, the utility model discloses do not do the restriction to the power device who drives top layer integrated cover, any technical personnel in the field can combine actual conditions to go the selection.

As preferred, still be provided with the locating piece subassembly on number of piles selection device 5, this locating piece subassembly comprises thickening steel sheet 57 and the adjusting bolt 58 of threaded connection on thickening steel sheet of welding on the lift arm, and its effect is: (1) because the force of the top integrated cover pressed downwards by the lifting positioning system is large, the second sealing strip 44 arranged on the top integrated cover is compressed seriously, and the service life of the sealing strip is shortened sharply; the top integrated machine cover 4 is supported by the adjusting bolt in the descending process, namely the adjusting bolt is abutted and limited with the upper-layer plate making platform, so that the deformation of the sealing strip caused by overlarge pressure can be reduced; (2) and the deformation caused by overlarge breadth of the equipment and the error caused by controlling a measuring system can be compensated by fine adjustment of the adjusting bolt.

Preferably, the lifting positioning system further comprises a travel switch 87 installed on the frame, the travel switch is used for detecting a lifting limit position of the top integrated cover, the lifting driving device stops running to ensure that lifting does not exceed the travel after reaching a set position, and the working principle of the travel switch is the prior art and is not described in detail.

Furthermore, the plate manufacturing apparatus in this embodiment further includes a vacuum system, the vacuum system includes a vacuum unit, a first vacuum chamber selection valve, and a second vacuum chamber selection valve, the first vacuum chamber selection valve is installed on an air pipe communicating between the vacuum unit and the air exhaust hole of the upper vacuum chamber frame, and the second vacuum chamber selection valve is installed on an air pipe communicating between the vacuum unit and the air exhaust hole of the lower vacuum chamber frame. Vacuum breaking valves for breaking vacuum of the corresponding vacuum chambers are arranged on the upper vacuum chamber frame and the lower vacuum chamber frame.

Preferably, in the embodiment, the PLC control system is adopted to control the synchronous lifting system and the vacuum system, and an operator can control pressing process parameters (such as pressure or pressure maintaining time) of each layer through the touch screen, so that the operation is convenient. In other embodiments, a safety protection system may be added according to specific workshop operation conditions, for example, the safety protection system has functions of a positioning and action self-checking diagnosis alarm system, a fault alarm display system, a video monitoring system, an emergency stop system, an action interlocking misoperation protection system, an infrared induction alarm system and the like, so as to ensure safe operation of plate manufacturing.

The utility model discloses a theory of operation and working process specifically as follows:

before the system board the utility model discloses be in initial condition, the bottom removes system board platform this moment and distinguishes initial position at the inside suppression of negative pressure system board device, and the initial position of upper strata system board platform on the bottom removes system board platform, and the integrated cover of top layer is in the state of compressing tightly, compresses tightly promptly on upper strata system board platform. The dynamic working process is as follows:

1. and closing the layer number selection device (retracting the positioning needle), and lifting the top layer integrated cover to an upper limit.

2. The bottom layer movable plate making platform 2 backs the upper layer plate making platform 3 to reach the region of the external prefabricated plate, and an operator finishes assembling and prefabricating the plate on the upper glass template of the upper layer plate making platform 3.

3. After prefabrication, the bottom layer moving plate making platform 2 carries the upper layer plate making platform 3 to move to reach the designated position of the pressing area in the press, the top layer integrated cover 4 is lowered to be tightly pressed to the set pressure with the upper vacuum chamber frame of the upper layer plate making platform, and sealing is completed.

4. And automatically (or manually) opening the vacuum unit and the first vacuum chamber selection valve to enable a second vacuum chamber between the upper-layer plate making platform and a second vacuum cover of the top-layer integrated cover to reach a set vacuum degree, and carrying out pressure maintaining pressing on the top-layer plate.

5. And opening the layer number selection device (the positioning needle 53 extends out and penetrates through the positioning ring 38) to complete the connection between the upper layer plate making platform and the lifting arm of the top layer integrated cover, so that the upper layer plate making platform and the top layer integrated cover are integrated.

6. And lifting the top layer integrated machine cover and the upper layer plate making platform to the upper limit, and separating the upper layer plate making platform 3 from the bottom layer movable plate making platform 2 at the moment.

7. And (3) moving the bottom layer movable plate making platform 3 to the area of the prefabricated plate outside the press, and completing the assembly and the prefabrication of the plate on the lower glass template of the bottom layer movable plate making platform 3.

8. After prefabrication is completed, the bottom layer moving plate making platform 2 moves to the designated position inside the press, the top layer integrated machine cover and the upper layer plate making platform are lowered simultaneously, the first sealing strip at the bottom of the upper layer plate making platform and the lower vacuum chamber frame of the bottom layer moving plate making platform 2 reach the set sealing pressure, the first vacuum chamber reaches the sealing state, the second vacuum chamber selection valve is automatically (or manually) slowly opened, the set vacuum degree is reached, and pressure maintaining pressing of bottom layer plates is carried out.

9. And when the pressure maintaining of the top layer plate is finished, automatically (or manually) closing the first vacuum chamber selection valve, and automatically (or manually) opening a vacuum breaking valve corresponding to the first vacuum chamber. And closing the layer number selection device 5 to separate the top layer integrated machine cover from the upper layer plate making platform.

10. The bottom layer moving plate making platform 2 is back to the upper layer plate making platform 3 to the external prefabricated plate area, and a worker can unload the pressed plate on the upper glass template and assemble and prefabricate a new plate on the upper glass template.

11. After the upper-layer plate making platform 3 finishes prefabricating plates, the bottom layer moving plate making platform 2 backs the upper-layer plate making platform 3 to reach the designated position of the pressing area in the pressing machine, the top-layer integrated machine cover is lowered, and the top-layer integrated machine cover and the upper vacuum chamber frame of the upper-layer plate making platform are tightly pressed to the set pressure to finish sealing.

12. And automatically (or manually) slowly opening the vacuum unit and the selection valve of the first vacuum chamber to enable the second vacuum chamber to reach the set vacuum degree, and carrying out pressure-maintaining pressing on the top layer plate.

13. When the pressure maintaining time of the bottom layer moving plate making platform 2 is finished, the layer number selecting device is automatically (or manually) opened, the positioning needle extends out, the connection between the upper layer plate making platform and the top layer integrated cover is finished, and the upper layer plate making platform and the top layer integrated cover are integrated. And simultaneously, automatically (or manually) closing the vacuum system and the second vacuum chamber selection valve, and opening a vacuum breaking valve on the bottom layer movable plate making platform.

14. And lifting the top layer integrated machine cover and the upper layer plate making platform to an upper limit (the upper layer plate making platform is separated from the bottom layer movable plate making platform).

15. And moving the bottom layer movable plate making platform to an external prefabricated plate area, unloading the plates pressed on the bottom layer movable plate making platform by workers, and assembling and prefabricating new plates on the lower glass template.

16. And 8-15, circulating to press the plate.

In other embodiments, one or more layers of the upper layer plate making platform can be added, so that one-time simultaneous pressing of more plates is realized, and the plate making efficiency of the multilayer negative-pressure plate making device is fully exerted. In order to realize automatic loading and unloading of plates, transmission belts can be arranged inside corresponding supporting beds of a bottom layer movable plate making platform and an upper layer plate making platform, each glass template is positioned on the transmission belts, a belt conveying platform device capable of lifting along with the height of the plate making platform is arranged in the area of an outer prefabricated plate, the plates prefabricated on the glass templates are conveyed into a press through the transmission belts to be pressed, and the pressed glass templates are conveyed to the outer lifting belt conveying platform device to be unloaded on the pressed plates after the pressing is finished.

The above description is only a preferred embodiment of the present invention, and any person skilled in the art can easily modify, change or modify the above embodiments according to the technical spirit of the present invention without departing from the scope of the present invention.

Claims (10)

1. A movable self-lifting multi-layer negative pressure plate making device is characterized by comprising a frame, a bottom layer movable plate making platform, an upper layer plate making platform, a top layer integrated cover and a lifting positioning system which is arranged at the top of the frame and drives the top layer integrated cover to move up and down,

the bottom layer moving plate making platform is arranged on the rack through a guide rail driving system so as to move back and forth between the pressing area and the precast plate area, and comprises a lower support bed, a lower vacuum chamber frame welded at the top of the lower support bed and a lower glass template arranged in the lower vacuum chamber frame;

the upper layer plate making platform is placed on the bottom layer movable plate making platform and comprises an upper support bed, an upper vacuum chamber frame welded at the top of the upper support bed, an upper glass template arranged in the upper vacuum chamber frame and a first vacuum cover tightly pressed and installed at the bottom of the upper support bed through a first sealing groove, and a first sealing strip used for being tightly matched with the lower vacuum chamber frame is arranged in the first sealing groove, so that a first vacuum chamber is formed among the first vacuum cover, the lower glass template and the lower vacuum chamber frame;

the top layer integrated machine cover comprises a top layer machine cover, a second vacuum cover and a layer number selection device, wherein the second vacuum cover and the layer number selection device are symmetrically fixed to the bottom of the top layer machine cover through a second sealing groove in a pressing mode, are used for connecting the upper layer plate making platform and the bottom layer plate making platform into a whole, a second sealing strip is arranged in the second sealing groove and used for being in press fit with the upper vacuum chamber frame, and therefore the second vacuum cover is made, the upper glass template and the upper vacuum chamber frame form a second vacuum chamber, and an air suction hole used for corresponding to vacuum chamber vacuumizing is formed in the upper vacuum chamber frame and the lower vacuum chamber frame.

2. The removable self-lifting multi-layer negative pressure plate device according to claim 1, wherein: the number of layers selecting arrangement is including integrated lifting arm on the top layer cover and fix the actuating cylinder that drives on the lifting arm, and the output that should drive actuating cylinder is equipped with the pilot pin, has seted up the locating hole on the lifting arm, goes up the supporting bed both sides and is equipped with the holding ring that corresponds with the locating hole, drives actuating cylinder drive pilot pin and passes holding ring and locating hole and realize that upper strata system board platform and the integrated cover in top layer form a body structure.

3. The apparatus of claim 2, wherein the movable self-elevating multi-layer negative pressure plate is: the layer number selection device also comprises a sliding block fixedly connected with the lifting arm and a sliding rail arranged on the frame and matched with the sliding block.

4. The removable self-lifting multi-layer negative pressure plate device according to claim 1, wherein: the guide rail driving system comprises a guide rail support arranged at the bottom of the rack, a guide rail fixed on the guide rail support, a walking wheel arranged at the bottom of the bottom layer movable plate making platform and matched with the guide rail in a rolling manner, and a driving motor used for driving the walking wheel, wherein the guide rail extends to the prefabricated plate area from the pressing area.

5. The removable self-lifting multi-layer negative pressure plate device according to claim 1, wherein: the lifting positioning system comprises a lifting driving device, a power steering device and synchronous lifters which are fixed on the rack, a power output shaft of the lifting driving device is connected with an input end of the power steering device, an output end of the power steering device drives a plurality of synchronous lifters through synchronous shafts, and an output end of each synchronous lifter is fixedly connected with the top layer integrated cover.

6. The removable self-lifting multi-layer negative pressure plate device according to claim 5, wherein: the power steering device comprises bevel gears which are meshed with each other, wherein one bevel gear is connected with the power output shaft, and the other bevel gear is connected with the synchronizing shaft.

7. The removable self-lifting multi-layer negative pressure plate device according to claim 6, wherein: the lifting positioning system also comprises a travel switch arranged on the frame.

8. The removable self-lifting multi-layer negative pressure plate device according to claim 1, wherein: the vacuum system comprises a vacuum unit, a first vacuum chamber selection valve and a second vacuum chamber selection valve, wherein the first vacuum chamber selection valve is arranged on an air pipe communicated with the air suction hole of the vacuum unit and the frame of the upper vacuum chamber, and the second vacuum chamber selection valve is arranged on an air pipe communicated with the air suction hole of the vacuum unit and the frame of the lower vacuum chamber.

9. The apparatus of claim 8, wherein the movable self-elevating multi-layer negative pressure plate is: and vacuum breaking valves for breaking vacuum of the corresponding vacuum chambers are arranged on the upper vacuum chamber frame and the lower vacuum chamber frame.

10. The removable self-lifting multi-layer negative pressure plate device according to claim 1, wherein: the first vacuum cover and the second vacuum cover are made of PE non-woven fabrics.

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