CN115119423A

CN115119423A - 6GPCB lamination equipment

Info

Publication number: CN115119423A
Application number: CN202210619858.0A
Authority: CN
Inventors: 曹皖生
Original assignee: Jiangsu Dipuer Industrial Co ltd
Current assignee: Jiangsu Dipuer Industrial Co ltd
Priority date: 2022-06-02
Filing date: 2022-06-02
Publication date: 2022-09-27
Anticipated expiration: 2042-06-02
Also published as: CN115119423B

Abstract

The invention relates to the technical field of plate lamination, in particular to 6GPCB laminating equipment which comprises a main frame, a vacuum mechanism and a hydraulic mechanism, wherein one end of the main frame is provided with a control display cabinet, the inner wall of the top end of the main frame is fixedly connected with an upper heat insulation plate, the bottom end of the upper heat insulation plate is fixedly connected with an upper cooling plate, the inner wall of the bottom end of the main frame is provided with a lower cooling plate, and the interior of a second receiving groove is connected with a second pulling plate in a sliding mode. This device easy operation is convenient, heat simultaneously through multiunit heating platen, guarantee that the lamination raw materials thermally equivalent, improve the product yield, can carry out cooling fast after the lamination is accomplished and handle, great saving this device operating time, improve user's work efficiency, the user can control the vacuum of this device simultaneously, heating temperature and pressure size, make the user when the operation, more convenient, this device is in the operation, steady reliable, the noise is less, very environmental protection.

Description

6GPCB lamination equipment

Technical Field

The invention relates to the technical field of plate lamination, in particular to 6GPCB lamination equipment.

Background

The PCB, which is called printed circuit board in Chinese, is an important electronic component, is a support body of electronic components, is a carrier for electrical interconnection of the electronic components, because it is made by electronic printing technology, it is called "printed" circuit board, and the requirements of various physical properties, accuracy and technical parameters of high-frequency PCB board are very high, and the product is positioned in medium-high-end market, and the product can be used in the fields of communication equipment, aerospace and industrial control medical treatment, radio system, etc., and its cost is high, and said product possesses the characteristics of high accuracy, high density and high reliability, at present, the price competition of products is already white due to low entrance threshold on the low-end hard board, the overall gross benefit rate level is relatively low, the technical requirements and the process of the PCB are remarkably improved along with the coming of the 5G era and the development progress of 6G, and the entrance threshold of manufacturers can be greatly improved;

present partial PCB lamination equipment in use operation is comparatively loaded down with trivial details, and then the user's of being not convenient for use to after lamination, panel cooling is slower, and then the waste user's operating time, lead to user's work efficiency lower, the vacuum effect is relatively poor, and the time is longer, further reduction user's operating efficiency.

Disclosure of Invention

The invention aims to provide 6GPCB laminating equipment, which solves the problems that the prior partial PCB laminating equipment proposed in the background art is complicated to operate in use and is inconvenient for users to use, and after the laminating molding is finished, plates are cooled slowly, so that the working time of the users is wasted, the working efficiency of the users is lower, the vacuum effect is poorer, the time is longer, and the working efficiency of the users is further reduced. Make the user when the operation, more convenient, this device is steady reliable when the operation, and the noise is less, very environmental protection.

In order to achieve the purpose, the invention provides the following technical scheme: a6 GPCB laminating device comprises a main frame, a vacuum mechanism and a hydraulic mechanism, wherein one end of the main frame is provided with a control display cabinet, the inner wall of the top end of the main frame is fixedly connected with an upper heat insulation plate, the bottom end of the upper heat insulation plate is fixedly connected with an upper cooling plate, the inner wall of the bottom end of the main frame is provided with a lower cooling plate, the bottom end of the lower cooling plate is fixedly connected with a lower heat insulation plate, the bottom end of the lower heat insulation plate is fixedly connected with a heat insulation pad, the inner parts of the upper cooling plate and the lower cooling plate are respectively provided with a cooling pipe, the two ends of the cooling pipe respectively penetrate through the upper cooling plate and the lower cooling plate to extend to the outer part of the main frame, one end of the cooling pipe is provided with a first motor, the other end of the cooling pipe is provided with a valve, the inner part of the main frame is uniformly provided with a heating pressing plate, guide holes are formed in four corners of the heating pressing plate, four guide posts are arranged in the main frame, and the both ends of guide pillar all respectively with the inner wall of body frame and the bottom fixed connection of last cooling plate, the guide hole all respectively with guide pillar sliding connection, the both ends of heating platen all are provided with temperature sensor respectively, first receipts groove has all been seted up at the both ends of heating platen, the inside of first receipts groove all sliding connection has first arm-tie, the inside of first arm-tie has all seted up the second and has received the groove, the inside of second receipts groove all sliding connection has the second arm-tie, and the top of second arm-tie all respectively with the bottom fixed connection of heating platen.

Preferably, the cooling pipes are S-shaped and located inside the upper cooling plate and the lower cooling plate, so that cooling is facilitated.

Preferably, the control end of the control display cabinet is electrically connected with an external power supply, the control ends of the heating pressing plates are electrically connected with the control display cabinet, the control ends of the temperature sensors are electrically connected with the control display cabinet, and the control end of the first motor is electrically connected with the control display cabinet.

Preferably, the vacuum mechanism comprises a vacuum box, a vacuum pump, an exhaust tube, a first electromagnetic valve, connecting tubes, a second electromagnetic valve, a guide plate, a rotating roller, a second motor, a rotating belt, a sliding sleeve, a vacuum door, a sliding chute, a sliding block, a spring, a safety part, an absorbing block, an electromagnet, an air inlet tube, a fifth electromagnetic valve and a vacuum pressure sensor, wherein the vacuum box is fixedly connected to one side of the main frame, the vacuum pump is arranged at the bottom end of the vacuum box, the exhaust tube is connected to the input end of the vacuum pump, one end of the exhaust tube is connected with the vacuum box, the first electromagnetic valve is arranged in the middle of the exhaust tube, two groups of connecting tubes are connected to the middle of the vacuum box, one ends of the connecting tubes are connected with the main frame, the second electromagnetic valve is arranged in the middle of each connecting tube, the guide plate is fixedly connected to the top end of the main frame, and the rotating rollers are arranged at two ends of the guide plate, and both ends of the rotating roller are connected with the inner wall of the guide plate through bearings, the middle part of the rotating roller extends to the outside of the guide plate, one end of the guide plate is provided with a second motor, the output end of the second motor is fixedly connected with a group of rotating rollers, the inside of the guide plate is provided with a rotating belt, the inner wall of the rotating belt is attached to the outer surface of the rotating roller, the outer surface of the middle part of the guide plate is connected with a sliding sleeve in a sliding manner, one end of the sliding sleeve is fixedly connected with the rotating belt, one side of the main frame is provided with a vacuum door, the bottom end of the sliding sleeve is uniformly provided with a sliding groove, the inside of the sliding groove is connected with a sliding block in a sliding manner, the bottom end of the sliding block is fixedly connected with the vacuum door, one end of the sliding block is fixedly connected with a spring, one end of the spring is fixedly connected with one end of the sliding groove, one end of the main frame is uniformly and fixedly connected with a safety piece, and four face angles of the vacuum door are fixedly connected with an absorption block, the two ends of body frame all are provided with the electro-magnet, and the one end of electro-magnet is close to respectively and inhales the piece, the well upper portion of body frame is connected with the intake pipe, the middle part of intake pipe is provided with the fifth solenoid valve, the inside of body frame is provided with vacuum pressure sensor, the shaping of being convenient for.

Preferably, one side of the vacuum door is fixedly connected with a sealing gasket, and one side of the sealing gasket is attached to the main frame, so that the sealing performance is improved.

Preferably, the hydraulic mechanism comprises an oil tank, an oil pump, a first oil pipe, a telescopic oil cylinder, a second oil pipe, a third electromagnetic valve and a fourth electromagnetic valve, an oil tank is arranged on one side of the main frame, an oil pump is arranged at the top end of the oil tank, the input end of the oil pump is connected with a first oil pipe, one end of the first oil pipe is connected with an oil tank, the bottom end of the main frame is provided with a telescopic oil cylinder, the top end of the telescopic oil cylinder is fixedly connected with the bottom end of the lower cooling plate, the output end of the oil pump is connected with a second oil pipe, one end of the second oil pipe passes through the main frame to be connected with one end of the telescopic oil cylinder, one end of the oil tank is connected with a third oil pipe, and one end of the third oil pipe is connected with the middle part of the second oil pipe, one end of the second oil pipe is provided with a third electromagnetic valve, and one end of the third oil pipe is provided with a fourth electromagnetic valve which can provide pressure.

Preferably, the control end of the vacuum pump is electrically connected with the control display cabinet, the control end of the first electromagnetic valve is electrically connected with the control display cabinet, the control ends of the second electromagnetic valves are electrically connected with the control display cabinet, the control ends of the electromagnets are electrically connected with the control display cabinet, the control end of the second motor is electrically connected with the control display cabinet, the control end of the fifth electromagnetic valve is electrically connected with the control display cabinet, and the control end of the vacuum pressure sensor is electrically connected with the control display cabinet.

Preferably, the control end of the oil pump is electrically connected with the control display cabinet.

Preferably, a control end of the third electromagnetic valve is electrically connected with the control display cabinet, and a control end of the fourth electromagnetic valve is electrically connected with the control display cabinet.

Compared with the prior art, the invention has the beneficial effects that:

the user enables the vacuum pump to work, air in the vacuum box can be pumped out through the vacuum pump and the exhaust tube, the vacuum box is in a vacuum state, the laminated raw materials are uniformly and flatly placed between the heating pressing plates, working time can be saved, after the user places the laminated raw materials, the user controls the second motor to work, the output end of the second motor drives the rotating roller and the rotating belt to rotate, the sliding sleeve can slide on the surface of the guide plate through the rotating belt, the sliding sleeve drives the vacuum door to move through the sliding block, the user moves the vacuum door to one side of the main frame, the suction block is respectively aligned with the electromagnet, the second motor is closed at the moment, the electromagnet is controlled to work, the electromagnet attracts the suction block, the vacuum door is attached to the main frame, meanwhile, the sliding block slides in the sliding groove and compresses the spring, and therefore the device is convenient for the user to seal, the user controls the oil pump to work, at the moment, the third electromagnetic valve is opened through the first oil pipe, the oil pump and the second oil pipe can enable one end of the telescopic oil cylinder to rise, the lower cooling plate can be driven by the telescopic oil cylinder to rise, the lower cooling plate pushes the heating pressing plate to move upwards, meanwhile, the first pulling plate is collected inside the first collecting groove, the second pulling plate is collected inside the second collecting groove, the laminating raw materials can be laminated through the heating pressing plate, the second electromagnetic valve is opened, air inside the main frame enters the inside of the vacuum box through the connecting pipe, meanwhile, the vacuum pump continues to work, the main frame can be pumped to a vacuum state, accordingly, the laminating work of the device is facilitated, the laminating effect is improved, the temperature is generated through the heating pressing plate, the user can control the heating temperature through the temperature sensor and the control display cabinet, the use of the user is facilitated, the laminating raw materials are heated and laminated through the heating pressing plate, the laminating raw materials are enabled to be at a certain temperature, Carry out lamination under pressure and vacuum degree, after the compression molding, the work of user control first motor, open the valve simultaneously, can lower the temperature with lower cooling plate through the cooling water this moment, through heat-conduction alright cool down the processing to heating platen and lamination fashioned panel, then the user closes the second solenoid valve and opens the fifth solenoid valve, make the air get into the body frame, simultaneously through cooling plate and heating platen decline under the telescopic cylinder control, the user opens the vacuum door at last and takes out lamination fashioned panel can, the device is easy and convenient to operate, heat simultaneously through multiunit heating platen, guarantee that the lamination raw materials is uniformly heated, improve the product quality yields, can cool down the processing fast after the lamination is accomplished, great saving the operating time of the device, improve user's work efficiency, simultaneously the user can be to the vacuum degree of this device, Heating temperature and pressure size are controlled for the user when the operation, convenience more, and this device is when the operation, and is steady reliable, and the noise is less, the environmental protection of ten minutes.

Drawings

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

FIG. 2 is a schematic cross-sectional perspective view of the present invention;

FIG. 3 is a schematic cross-sectional perspective view of a heated platen and a first draw plate of the present invention;

FIG. 4 is a schematic cross-sectional perspective view of a main frame and an upper cooling plate of the present invention;

FIG. 5 is a schematic perspective view of a hydraulic mechanism according to the present invention;

FIG. 6 is a schematic sectional perspective view of a guide plate and a chute of the present invention;

FIG. 7 is a schematic perspective view of a vacuum pump and vacuum box according to the present invention;

FIG. 8 is a perspective view of the cooling tube, first motor and valve of the present invention;

fig. 9 is an exploded perspective view of the present invention.

In the figure: 1. a main frame; 2. a control display cabinet; 3. an upper heat insulation plate; 4. an upper cooling plate; 5. a lower cooling plate; 6. a lower heat insulation plate; 7. a heat insulating pad; 8. a cooling tube; 9. a first motor; 10. a valve; 11. heating the pressing plate; 12. a guide hole; 13. a guide post; 14. a temperature sensor; 15. a first collecting groove; 16. a first pulling plate; 17. a second collecting groove; 18. a second pulling plate; 19. a vacuum box; 20. a vacuum pump; 21. an air exhaust pipe; 22. a first solenoid valve; 23. a connecting pipe; 24. a second solenoid valve; 25. a guide plate; 26. rotating the roller; 27. a second motor; 28. a rotating belt; 29. a sliding sleeve; 30. a vacuum door; 31. a chute; 32. a slider; 33. a spring; 34. a security member; 35. sucking blocks; 36. an electromagnet; 37. an oil tank; 38. an oil pump; 39. a first oil pipe; 40. a telescopic oil cylinder; 41. a second oil pipe; 42. a third oil pipe; 43. a third electromagnetic valve; 44. a fourth solenoid valve; 45. a gasket; 46. an air inlet pipe; 47. a fifth solenoid valve; 48. a vacuum pressure sensor.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, fig. 2, fig. 3, fig. 8 and fig. 9, an embodiment of the present invention:

a6 GPCB laminating device comprises a main frame 1, a vacuum mechanism and a hydraulic mechanism, wherein one end of the main frame 1 is provided with a control display cabinet 2, the inner wall of the top end of the main frame 1 is fixedly connected with an upper heat insulation plate 3, the bottom end of the upper heat insulation plate 3 is fixedly connected with an upper cooling plate 4, the inner wall of the bottom end of the main frame 1 is provided with a lower cooling plate 5, the bottom end of the lower cooling plate 5 is fixedly connected with a lower heat insulation plate 6, the bottom end of the lower heat insulation plate 6 is fixedly connected with a heat insulation pad 7, the inner parts of the upper cooling plate 4 and the lower cooling plate 5 are both provided with cooling pipes 8, the two ends of each cooling pipe 8 respectively penetrate through the upper cooling plate 4 and the lower cooling plate 5 and extend to the outer part of the main frame 1, one end of each cooling pipe 8 is provided with a first motor 9, the other end of each cooling pipe 8 is provided with a valve 10, the inner part of the main frame 1 is uniformly provided with a heating pressing plate 11, guide hole 12 is arranged on each of each corner of each heating pressing plate 11, four groups of guide pillars 13 are arranged inside the main frame 1, two ends of each guide pillar 13 are respectively fixedly connected with the inner wall of the main frame 1 and the bottom end of the upper cooling plate 4, the guide holes 12 are respectively slidably connected with the guide pillars 13, two ends of the heating pressing plate 11 are respectively provided with a temperature sensor 14, two ends of the heating pressing plate 11 are respectively provided with a first receiving groove 15, the first receiving groove 15 is internally and slidably connected with a first pulling plate 16, the first pulling plate 16 is internally and slidably provided with a second receiving groove 17, the second receiving groove 17 is internally and slidably connected with a second pulling plate 18, and the top end of the second pulling plate 18 is respectively and fixedly connected with the bottom end of the heating pressing plate 11;

referring to fig. 6 and 7, in the present embodiment, the vacuum mechanism includes a vacuum box 19, a vacuum pump 20, an air exhaust pipe 21, a first electromagnetic valve 22, a connecting pipe 23, a second electromagnetic valve 24, a guide plate 25, a rotating roller 26, a second motor 27, a rotating belt 28, a sliding sleeve 29, a vacuum door 30, a sliding chute 31, a sliding block 32, a spring 33, a safety element 34, a suction block 35, an electromagnet 36, an air inlet pipe 46, a fifth electromagnetic valve 47, and a vacuum pressure sensor 48, one side of the main frame 1 is fixedly connected with the vacuum box 19, the bottom end of the vacuum box 19 is provided with the vacuum pump 20, the input end of the vacuum pump 20 is connected with the air exhaust pipe 21, one end of the air exhaust pipe 21 is connected with the vacuum box 19, the middle of the air exhaust pipe 21 is provided with the first electromagnetic valve 22, the middle of the vacuum box 19 is connected with two sets of connecting pipes 23, one end of the connecting pipes 23 is connected with the main frame 1, the middle of the connecting pipes 23 are provided with the second electromagnetic valve 24, the top fixedly connected with baffle 25 of body frame 1, the both ends of baffle 25 all are provided with and change roller 26, and the both ends of changeing roller 26 all are connected with the inner wall of baffle 25 through the bearing, the middle part of a set of commentaries on classics roller 26 extends to the outside of baffle 25, the one end of baffle 25 is provided with second motor 27, and the output of second motor 27 and a set of commentaries on classics roller 26 fixed connection, the inside of baffle 25 is provided with rotating band 28, and the inner wall of rotating band 28 laminates with the surface of commentaries on classics roller 26, the surface sliding connection in baffle 25 middle part has sliding sleeve 29, and one end and the rotating band 28 fixed connection of sliding sleeve 29, one side of body frame 1 is provided with vacuum door 30, sliding groove 31 has evenly been seted up to sliding sleeve 29's bottom, sliding groove 31's inside all sliding connection has slider 32, and the bottom of slider 32 all with vacuum door 30 fixed connection, the one end all fixedly connected with spring 33 of slider 32, and the one end fixed connection of spring 33 all with sliding groove 31, the safe piece 34 is fixedly connected to one end of the main frame 1, the suction blocks 35 are fixedly connected to four corners of the vacuum door 30, the electromagnets 36 are arranged at two ends of the main frame 1, one ends of the electromagnets 36 are close to the suction blocks 35 respectively, an air inlet pipe 46 is connected to the middle upper portion of the main frame 1, a fifth electromagnetic valve 47 is arranged in the middle of the air inlet pipe 46, a vacuum pressure sensor 48 is arranged inside the main frame 1, when the device is used by a user, the user enables the vacuum pump 20 to work, air inside the vacuum box 19 can be pumped out through the vacuum pump 20 and the air pumping pipe 21, the vacuum box 19 is in a vacuum state, the user controls the second motor 27 to work through the control display cabinet 2, the output end of the second motor 27 drives one set of rotating rollers 26 to rotate, then one set of rotating rollers 26 drives the rotating belt 28 and the other set of rotating rollers 26 to rotate, the sliding sleeve 29 can be moved through the rotating belt 28, at the moment, the sliding sleeve 29 slides on the surface of the guide plate 25, the sliding sleeve 29 drives the vacuum door 30 to move through the sliding block 32, a user moves the vacuum door 30 to one side of the main frame 1, so that the suction block 35 is respectively aligned with the electromagnet 36, at the moment, the second motor 27 is closed, the vacuum door 30 does not move any more, at the moment, the user controls the electromagnet 36 to work, at the moment, the electromagnet 36 can suck the suction block 35, so that the suction block 35 drives the vacuum door 30 to be attached to one side of the main frame 1, at the moment, the sealing gasket 45 at one side of the vacuum door 30 is tightly attached to the main frame 1, the moving vacuum door 30 drives the sliding block 32 to slide in the sliding groove 31, the moving sliding block 32 compresses the spring 33, so that the device is convenient for the user to seal, the user controls the second electromagnetic valve 24 to be opened, at the moment, air in the main frame 1 enters the vacuum box 19 through the connecting pipe 23, and the vacuum pump 20 continues to work, the main frame 1 and the vacuum box 19 can be vacuumized, and the vacuum degree in the main frame 1 and the vacuum box 19 can be detected by a user through the vacuum pressure sensor 48, so that the control of the user is facilitated, and the laminating effect can be improved through the vacuum degree;

referring to fig. 2, 5 and 9, in this embodiment, the hydraulic mechanism includes an oil tank 37, an oil pump 38, a first oil pipe 39, a telescopic oil cylinder 40, a second oil pipe 41, a third oil pipe 42, a third electromagnetic valve 43 and a fourth electromagnetic valve 44, the oil tank 37 is disposed on one side of the main frame 1, the oil pump 38 is disposed on the top end of the oil tank 37, the first oil pipe 39 is connected to an input end of the oil pump 38, one end of the first oil pipe 39 is connected to the oil tank 37, the telescopic oil cylinder 40 is disposed on the bottom end of the main frame 1, the top end of the telescopic oil cylinder 40 is fixedly connected to the bottom end of the lower cooling plate 5, the second oil pipe 41 is connected to an output end of the oil pump 38, one end of the second oil pipe 41 passes through the main frame 1 to be connected to one end of the telescopic oil cylinder 40, one end of the oil tank 37 is connected to the third oil pipe 42, one end of the third oil pipe 42 is connected to the middle portion of the second oil pipe 41, one end of the second oil pipe 41 is provided with the third electromagnetic valve 43, a fourth electromagnetic valve 44 is arranged at one end of the third oil pipe 42, a user controls the third electromagnetic valve 43 to open and the oil pump 38 to work, the oil pump 38 can draw hydraulic oil in the oil tank 37 through the first oil pipe 39, the hydraulic oil enters the telescopic oil cylinder 40 through the second oil pipe 41, at this time, one end of the telescopic oil cylinder 40 can rise, the lower cooling plate 5 and the heating pressing plate 11 can be driven to rise through one end of the telescopic oil cylinder 40, and pressure can be provided for the device;

referring to fig. 4, 8 and 9, in the present embodiment, the cooling pipes 8 are positioned inside the upper cooling plate 4 and the lower cooling plate 5 in an S-shape, the upper cooling plate 4 and the lower cooling plate 5 can be uniformly and rapidly cooled by the S-shaped cooling pipes 8, and the heating platen 11 and the laminated plate can be cooled by heat conduction, so as to save the working time of a user, a sealing gasket 45 is fixedly connected to one side of the vacuum door 30, and one side of the sealing gasket 45 is attached to the main frame 1, so that the sealing performance of the device can be improved by the sealing gasket 45;

it should be noted that the control end of the control display cabinet 2 is electrically connected to the external power source, the control ends of the heating press plates 11 are electrically connected to the control display cabinet 2, the control ends of the temperature sensors 14 are electrically connected to the control display cabinet 2, the control ends of the first motors 9 are electrically connected to the control display cabinet 2, the control end of the vacuum pump 20 is electrically connected to the control display cabinet 2, the control end of the first solenoid valve 22 is electrically connected to the control display cabinet 2, the control end of the second solenoid valve 24 is electrically connected to the control display cabinet 2, the control end of the electromagnet 36 is electrically connected to the control display cabinet 2, the control end of the second motor 27 is electrically connected to the control display cabinet 2, the control end of the fifth solenoid valve 47 is electrically connected to the control display cabinet 2, the control end of the vacuum pressure sensor 48 is electrically connected to the control display cabinet 2, the control end of the oil pump 38 is electrically connected to the control display cabinet 2, the control end of the third electromagnetic valve 43 is electrically connected with the control display cabinet 2, the control end of the fourth electromagnetic valve 44 is electrically connected with the control display cabinet 2, and the electrical appliance is electrically connected with the control display cabinet 2, so that a user can control the device through the control display cabinet 2.

The working principle is as follows: when a user uses the device, the user enables the vacuum pump 20 to work, air in the vacuum box 19 can be pumped out through the vacuum pump 20 and the exhaust pipe 21, the vacuum box 19 is in a vacuum state, meanwhile, the laminating raw materials are uniformly and flatly placed between the heating pressing plates 11, the working time of the user can be saved, after the user places the laminating raw materials, the user controls the second motor 27 to work through the control display cabinet 2, the output end of the second motor 27 drives one group of rotating rollers 26 to rotate, then one group of rotating rollers 26 drives the rotating belt 28 and the other group of rotating rollers 26 to rotate, the sliding sleeve 29 can be moved through the rotating belt 28, at the moment, the sliding sleeve 29 slides on the surface of the guide plate 25, the sliding sleeve 29 drives the vacuum door 30 to move through the sliding block 32, the user moves the vacuum door 30 to one side of the main frame 1, so that the suction blocks 35 and the electromagnets 36 respectively work, at this moment, the second motor 27 is turned off, the vacuum door 30 does not move any more, at this moment, the user controls the electromagnet 36 to work, at this moment, the electromagnet 36 can be made to attract the suction block 35, so that the suction block 35 drives the vacuum door 30 to be attached to one side of the main frame 1, at this moment, the sealing gasket 45 on one side of the vacuum door 30 is tightly attached to the main frame 1, the moving vacuum door 30 drives the sliding block 32 to slide in the sliding groove 31, the moving sliding block 32 compresses the spring 33, so that the user can seal the device conveniently, then, the user controls the third electromagnetic valve 43 to be opened and the oil pump 38 to work, the oil pump 38 takes hydraulic oil in the oil tank 37 through the first oil pipe 39, the hydraulic oil enters the telescopic oil cylinder 40 through the second oil pipe 41, at this moment, one end of the telescopic oil cylinder 40 can be lifted, the lower cooling plate 5 can be driven to lift through one end of the telescopic oil cylinder 40, the lifted lower cooling plate 5 pushes one group of heating pressing plates 11 to move upwards, meanwhile, the first pulling plate 16 is moved towards the inside of the first receiving groove 15, when the first pulling plate 16 is moved to the bottom end of the first receiving groove 15, the second pulling plate 18 can be moved towards the inside of the second receiving groove 17, when the two groups of heating pressing plates 11 approach, the laminating raw materials can be pressurized, when the heating pressing plates 11 rise, a user controls the heating pressing plates 11 to heat through the control display cabinet 2, when the heating pressing plates 11 rise, the user controls the second electromagnetic valve 24 to be opened, at the moment, air in the main frame 1 enters the inside of the vacuum box 19 through the connecting pipe 23, and meanwhile, the vacuum pump 20 continues to work, so that the main frame 1 and the vacuum box 19 can be vacuumized, the user can detect the vacuum degrees in the main frame 1 and the vacuum box 19 through the vacuum pressure sensor 48, the control by the user is convenient, and the laminating effect can be improved through the vacuum degrees, after the heating pressing plate 11 is heated, a user can control the heating temperature through the temperature sensor 14 and the control display cabinet 2, the use of the user is convenient, the laminating raw materials are heated and pressurized through the heating pressing plate 11, so that the laminating raw materials are in certain temperature, pressure and vacuum degree for laminating formation, the user can control the rising speed and pressure of the heating pressing plate 11 through the control display cabinet 2 and the oil pump 38, the laminating formation is carried out after a certain time, the user controls the first motor 9 to work and simultaneously opens the valve 10, at the moment, the cooling water enters the inside of the cooling pipe 8, the upper cooling plate 4 and the lower cooling plate 5 can be uniformly and rapidly cooled through the S-shaped cooling pipe 8, the heating pressing plate 11 and the laminated plate can be cooled through heat conduction, the working time of the user is further saved, after the cooling is finished, the user closes the first motor 9 and the valve 10, then the user closes the second electromagnetic valve 24, opens the fifth electromagnetic valve 47, at this time, the outside air enters the main frame 1 through the air inlet pipe 46 for pressure relief, and at the same time, the user controls the fourth electromagnetic valve 44 to open through the control display cabinet 2, the third electromagnetic valve 43 to close and the oil pump 38 to stop working, at this time, the hydraulic oil inside the telescopic oil cylinder 40 slowly enters the oil tank 37 through the second oil pipe 41 and the third oil pipe 42, at this time, the lower cooling plate 5 and the heating platen 11 descend, after the heating platen 11 descends, the bottom end of the second pulling plate 18 abuts against the top end of the second receiving slot 17, the bottom end of the first pulling plate 16 abuts against the top end of the first receiving slot 15, at this time, the heating platen 11 can be separated, the upper cooling plate 4 can be prevented from conducting heat to the main frame 1 through the upper heat insulation plate 3, the lower cooling plate 5 can be prevented from conducting heat to the main frame 1 through the lower heat insulation plate 6, the telescopic oil cylinder 40 can be prevented from being heated through the heat insulation pad 7, when the pressure inside the main frame 1 is consistent with the external air pressure, the user stops the electromagnet 36, the vacuum door 30 is not attached to the main frame 1 at the moment, the sliding block 32 and the vacuum door 30 can be reset under the action of the spring 33, the user controls the output end of the second motor 27 to reversely rotate, the sliding sleeve 29 can be reset through the rotating roller 26 and the rotating belt 28 at the moment, the vacuum door 30 can be opened through the sliding sleeve 29, the user can take out the laminated plates between the heating pressing plates 11 inside the main frame 1 at the moment, the device is simple and convenient to operate, the multiple groups of heating pressing plates 11 are used for heating simultaneously, the laminated raw materials are guaranteed to be heated uniformly, the product yield is improved, the cooling treatment can be carried out quickly after the lamination is finished, the working time of the device is greatly saved, and the working efficiency of the user is improved, simultaneously, the vacuum degree, the heating temperature and the pressure of the device can be controlled by a user, so that the user is more convenient to operate, and the device is stable and reliable, has smaller noise and is very environment-friendly when in operation.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims

1. The 6GPCB laminating equipment is characterized by comprising a main frame (1), a vacuum mechanism and a hydraulic mechanism, wherein a control display cabinet (2) is arranged at one end of the main frame (1), an upper heat insulation plate (3) is fixedly connected to the inner wall of the top end of the main frame (1), an upper cooling plate (4) is fixedly connected to the bottom end of the upper heat insulation plate (3), a lower cooling plate (5) is arranged on the inner wall of the bottom end of the main frame (1), a lower heat insulation plate (6) is fixedly connected to the bottom end of the lower cooling plate (5), a heat insulation pad (7) is fixedly connected to the bottom end of the lower heat insulation plate (6), cooling pipes (8) are arranged inside the upper cooling plate (4) and the lower cooling plate (5), two ends of each cooling pipe (8) respectively penetrate through the upper cooling plate (4) and the lower cooling plate (5) and extend to the outside of the main frame (1), and a first motor (9) is arranged at one end of each cooling pipe (8), the other end of the cooling pipe (8) is provided with a valve (10), a heating pressing plate (11) is uniformly arranged inside the main frame (1), guide holes (12) are formed in four corners of the heating pressing plate (11), four groups of guide pillars (13) are arranged inside the main frame (1), two ends of each guide pillar (13) are fixedly connected with the inner wall of the main frame (1) and the bottom end of the upper cooling plate (4) respectively, the guide holes (12) are connected with the guide pillars (13) in a sliding manner respectively, two ends of the heating pressing plate (11) are provided with temperature sensors (14) respectively, two ends of the heating pressing plate (11) are provided with first collecting grooves (15), the inside of each first collecting groove (15) is connected with a first pulling plate (16) in a sliding manner, the inside of each first pulling plate (16) is provided with a second collecting groove (17), the inside of each second collecting groove (17) is connected with a second pulling plate (18) in a sliding manner, and the top ends of the second pulling plates (18) are respectively and fixedly connected with the bottom ends of the heating pressing plates (11).

2. The 6GPCB laminating apparatus of claim 1, wherein: the cooling pipes (8) are positioned inside the upper cooling plate (4) and the lower cooling plate (5) in an S shape.

3. The 6GPCB laminating apparatus of claim 1, wherein: the control end and the external power electric connection of control display cabinet (2), the control end of heating clamp plate (11) all with control display cabinet (2) electric connection, the control end of temperature sensor (14) all with control display cabinet (2) electric connection, the control end of first motor (9) all with control display cabinet (2) electric connection.

4. The 6GPCB laminating apparatus of claim 1, wherein: the vacuum mechanism comprises a vacuum box (19), a vacuum pump (20), an air suction pipe (21), a first electromagnetic valve (22), a connecting pipe (23), a second electromagnetic valve (24), a guide plate (25), a rotating roller (26), a second motor (27), a rotating belt (28), a sliding sleeve (29), a vacuum door (30), a sliding groove (31), a sliding block (32), a spring (33), a safety piece (34), an absorption block (35), an electromagnet (36), an air inlet pipe (46), a fifth electromagnetic valve (47) and a vacuum pressure sensor (48), wherein the vacuum box (19) is fixedly connected to one side of the main frame (1), the vacuum box (20) is arranged at the bottom end of the vacuum box (19), the air suction pipe (21) is connected to the input end of the vacuum pump (20), one end of the air suction pipe (21) is connected with the vacuum box (19), the first electromagnetic valve (22) is arranged in the middle of the air suction pipe (21), the middle part of the vacuum box (19) is connected with two groups of connecting pipes (23), one ends of the connecting pipes (23) are connected with the main frame (1), the middle parts of the connecting pipes (23) are provided with second electromagnetic valves (24), the top end of the main frame (1) is fixedly connected with guide plates (25), two ends of each guide plate (25) are provided with rotating rollers (26), two ends of each rotating roller (26) are connected with the inner wall of each guide plate (25) through bearings, the middle parts of the rotating rollers (26) extend to the outer parts of the guide plates (25), one ends of the guide plates (25) are provided with second motors (27), the output ends of the second motors (27) are fixedly connected with a group of rotating rollers (26), the inner parts of the guide plates (25) are provided with rotating belts (28), the inner walls of the rotating belts (28) are attached to the outer surfaces of the rotating rollers (26), the outer surfaces of the middle parts of the guide plates (25) are connected with sliding sleeves (29) in a sliding mode, and one end of the sliding sleeve (29) is fixedly connected with the rotating belt (28), one side of the main frame (1) is provided with a vacuum door (30), the bottom of the sliding sleeve (29) is uniformly provided with a sliding groove (31), the inside of the sliding groove (31) is all slidably connected with a sliding block (32), the bottom of the sliding block (32) is all fixedly connected with the vacuum door (30), one end of the sliding block (32) is all fixedly connected with a spring (33), one end of the spring (33) is all fixedly connected with one end of the sliding groove (31), one end of the main frame (1) is uniformly and fixedly connected with a safety piece (34), four corners of the vacuum door (30) are all fixedly connected with suction blocks (35), two ends of the main frame (1) are all provided with electromagnets (36), one end of the electromagnets (36) are respectively close to the suction blocks (35), the middle upper part of the main frame (1) is connected with an air inlet pipe (46), the middle part of the air inlet pipe (46) is provided with a fifth electromagnetic valve (47), and the inside of the main frame (1) is provided with a vacuum pressure sensor (48).

5. A6 GPCB laminating apparatus according to claim 4, wherein: one side of the vacuum door (30) is fixedly connected with a sealing gasket (45), and one side of the sealing gasket (45) is attached to the main frame (1).

6. The 6GPCB laminating apparatus of claim 1, wherein: the hydraulic mechanism comprises an oil tank (37), an oil pump (38), a first oil pipe (39), a telescopic oil cylinder (40), a second oil pipe (41), a third oil pipe (42), a third electromagnetic valve (43) and a fourth electromagnetic valve (44), wherein the oil tank (37) is arranged on one side of the main frame (1), the oil pump (38) is arranged at the top end of the oil tank (37), the input end of the oil pump (38) is connected with the first oil pipe (39), one end of the first oil pipe (39) is connected with the oil tank (37), the telescopic oil cylinder (40) is arranged at the bottom end of the main frame (1), the top end of the telescopic oil cylinder (40) is fixedly connected with the bottom end of the lower cooling plate (5), the output end of the oil pump (38) is connected with the second oil pipe (41), one end of the second oil pipe (41) penetrates through the main frame (1) to be connected with one end of the telescopic oil cylinder (40), one end of the oil tank (37) is connected with the third oil pipe (42), and one end of the third oil pipe (42) is connected with the middle part of the second oil pipe (41), one end of the second oil pipe (41) is provided with a third electromagnetic valve (43), and one end of the third oil pipe (42) is provided with a fourth electromagnetic valve (44).

7. The 6GPCB laminating apparatus according to claim 4, wherein: the control end and the control display cabinet (2) electric connection of vacuum pump (20), the control end and the control display cabinet (2) electric connection of first solenoid valve (22), the control end of second solenoid valve (24) all with control display cabinet (2) electric connection, the control end of electro-magnet (36) all with control display cabinet (2) electric connection, the control end and the control display cabinet (2) electric connection of second motor (27), the control end and the control display cabinet (2) electric connection of fifth solenoid valve (47), the control end and the control display cabinet (2) electric connection of vacuum pressure sensor (48) and control display cabinet (2).

8. A6 GPCB laminating apparatus according to claim 6, wherein: and the control end of the oil pump (38) is electrically connected with the control display cabinet (2).

9. A6 GPCB laminating apparatus according to claim 6, wherein: the control end of the third electromagnetic valve (43) is electrically connected with the control display cabinet (2), and the control end of the fourth electromagnetic valve (44) is electrically connected with the control display cabinet (2).