CN105599071A - Full-automatic multi-layer continuous feed/discharge hot-press device - Google Patents

Abstract

The invention discloses a full-automatic multi-layer continuous feed/discharge hot-press device which comprises an automatic feed/discharge system, a full-automatic continuous hot-press gluing system, a conveying system and a PLC electrical apparatus control system, wherein the automatic feed/discharge system and the conveying system are arranged on the two sides of the full-automatic hot-press gluing system respectively; the full-automatic hot-press gluing system comprises a lifting mechanism and a hot-press mechanism; the hot-press mechanism is composed of four layers of hot-press plates; the four layers of hot-press plates are mounted on a guide shaft in a rack through a slider; and the whole hot-press mechanism is placed in a body rack of the lifting mechanism and connected with a hot-press mechanism lifting hydraulic cylinder of the lifting mechanism through a flange base. The device is compact in structure, reliable in operation and easy to maintain; the pressure, pressing time and heating temperature can be adjusted according to production or automatically; the operation is easy, continuous production can be realized, the labor intensity is greatly reduced, and the working efficiency is improved; and the problems of inconsistent hot-press gluing time and uneven gluing quality in original manual batch assembly and bath press gluing are fundamentally solved.

Description

Full-automatic multi-layer continuous feeding and discharging hot-press arrangement

Technical field

The present invention relates to, in a kind of production process of plate, can realize the device of sheet material full-automatic feeding-discharging continuous hot-press, particularly a kind of device of realizing the hot pressing of multi-layered board continuous feeding and discharging.

Background technology

Along with people's door is to the composite multi-layer door market demand, the output of sheet material also increases thereupon, and compacting gummed is indispensable step in current production process, and the current technique adopting is many press of employing, artificial concentrated charging, concentrates compacting gummed, manually concentrates discharging. This raw technique not only complicated operation, production efficiency gluing time low but also each sheet material differs to, unstable product quality, manually many, labour intensity is large, and production cost is high, is unfavorable for automated production, enterprise competitiveness is declined, hindered to a certain extent the development of enterprise. Therefore, adopting advanced compacting gummed equipment is requirement and the inexorable trend of enterprise development.

Summary of the invention

The problem to be solved in the present invention is: provide a kind of sheet material can Automatic continuous charging in producing, the full-automatic multi-layer continuous feeding and discharging hot-press arrangement of continuous hot-press gummed, continuous discharge, guarantee that sheet material produces continuously, improve the quality of products, overcome the series of problems that prior art exists.

Solve the technical scheme that problem of the present invention adopts: this device comprises automatic feed/discharge system, full-automatic continuous hot-press glue system, induction system and PLC electrical apparatus control system, and automatic feed/discharge system and induction system are located at respectively full-automatic continuous hot-press glue system charging aperture and discharging opening rear and front end; Full-automatic continuous hot-press glue system comprises elevating mechanism and hot pressing mechanism, elevating mechanism is made up of main stand, Hydraulic Station, hot pressing mechanism lifting hydraulic cylinder, heating platen lifting hydraulic cylinder, heating platen lifting hydraulic cylinder seat, equalizer bar, rotating liquid cylinder pressure and photoelectric control switch, main stand is frame structure, and Hydraulic Station is loaded on main stand upper end; Hot pressing mechanism lifting hydraulic cylinder is arranged on four jiaos of main stands straight up, is fixed on four jiaos of hot pressing mechanism lifting hydraulic cylinder seats of main stand; Heating platen lifting hydraulic cylinder seat has two, is plank frame, is arranged on the main stand left and right sides, and bottom is articulated with on main stand base through bearing pin; Heating platen lifting hydraulic cylinder is divided equally two groups, is separately fixed on the heating platen lifting hydraulic cylinder seat of both sides; Two equalizer bars are loaded on respectively on the flange of heating platen lifting hydraulic cylinder piston rod end of both sides, and equalizer bar inner side is evenly equipped with heating platen saddle; Rotating liquid cylinder pressure is divided equally two groups, is arranged on respectively heating platen lifting hydraulic cylinder seat outside, and bottom is hinged on main stand by bearing pin, and the piston rod of upper end is hinged on heating platen lifting hydraulic cylinder seat top; Optoelectronic switch is arranged on respectively in corresponding frame; Hot pressing mechanism comprises frame, hot pressing mechanism lifting hydraulic cylinder falan seat, pressing hydraulic cylinder, upper hot pressboard, heating platen, lower hot pressing board, slide block, guide shaft, heating system; Frame is frame structure, pressing hydraulic cylinder is arranged in the middle of frame top, upper hot pressboard is connected to pressing hydraulic cylinder piston rod end portion, lower hot pressing board is fixed in gantry base, heating platen has polylith to form, every heating platen is equipped with a strip boss on two sides, and all heating platens are in slide block is arranged on frame on the guide shaft of four jiaos; Hot pressing mechanism entirety is placed in main stand, the hot pressing mechanism lifting hydraulic cylinder of the corresponding elevating mechanism of hot pressing mechanism lifting hydraulic cylinder flange seat, and be fixed on the flange seat of hot pressing mechanism lifting hydraulic cylinder piston rod end; On the conveyer frame lower plane of automatic feed/discharge system and the conveying cylinder top of induction system and the ground floor heating platen of full-automatic hot-pressing glue system, plane is corresponding.

Steady when ensureing that hot pressing mechanism rises overally, at four vertical framework uppers of main stand, a tooth bar is installed respectively; A bascule is installed at hot pressing mechanism top, bascule is made up of two lateral balance axles, two longitudinal balance axles and four spur gears, eight bevel gears, trunnion shaft is located at hot pressing mechanism top surrounding, be fixed on hot pressing mechanism top through bearing block, between every two connected trunnion shafves by bevel gear transmission, be equipped with a synchronous transmission gear at each longitudinal balance axle two ends, four tooth bars on four corresponding transmission main stands of synchronous transmission gear difference.

Automatic feed/discharge system, induction system and heating system adopt routine techniques to make, and the colleague technical staff that PLC electrical apparatus control system does automatic control all can design, and do not need protection, are not also described further at this.

Good effect of the present invention is: (1) compact integral structure, and floor space is few, reliable, economical and practical, is easy to safeguard; Pressure, pressing time, heating-up temperature can regulate voluntarily also and can automatically regulate according to producing; (2) simple to operate, realize PLC and automatically controlled, can consecutive production, all-weather operation, greatly reduces labour intensity, is a kind of full-automatic equipment, without manual operation, only needs 1 people to make an inspection tour in production process, has reduced operating personnel, has improved work efficiency; (3) fundamentally solve original manually assembling in batch, suppressed gummed in batch, hot-press gluing Time Inconsistency, the uneven problem of bonding quality, compared with the current mode of production, efficiency can improve more than three times, and bonding quality is safe and reliable; (4) applied widely, be not only suitable for an industry and produce, various plate object hot pressing is all suitable for.

Brief description of the drawings

Accompanying drawing 1 is the embodiments of the invention structural representation of continuous hot-press five laminate materials; Accompanying drawing 2 is full-automatic hot-pressing glue system of the present invention left side schematic diagram; Accompanying drawing 3 is the schematic top plan view of accompanying drawing 2; Accompanying drawing 4 is looked schematic diagram for elevating mechanism master of the present invention; Schematic diagram is looked on the left side that accompanying drawing 5 is accompanying drawing 4; Schematic diagram when accompanying drawing 6 rises for equalizer bar; Accompanying drawing 7 is the postrotational schematic diagram of heating platen lifting hydraulic cylinder seat; Accompanying drawing 8 is looked schematic diagram for hot pressing mechanism master of the present invention; Schematic diagram is looked on the left side that accompanying drawing 9 is accompanying drawing 8; Accompanying drawing 10 is the schematic top plan view of accompanying drawing 8.

Detailed description of the invention

As shown in Figure 1, it is the hot-press arrangement that can continuous hot-press glues together five laminate materials, mainly comprise automatic feed/discharge system A, full-automatic continuous hot-press glue system B, induction system C and PLC electrical apparatus control system, automatic feed/discharge system A and induction system C are located at respectively full-automatic hot-pressing glue system B and import and export two ends.

Automatic feed/discharge system A: comprise conveyer, mainframe 14, guide rail chain 10, optoelectronic switch 1, 8, 9, conveyer is by power rod 2, walking sprocket wheel 3, movable motor 4, conveyer belt 5, carry frame 6, road wheel chain 11, conveyer belt chain 12, conveyer belt motor 13 forms, power rod 2 is laterally arranged on carries frame 6 two ends, conveyer belt 5 is arranged on power rod 2, conveyer belt motor 13 drives live roll 2 and conveyer belt 5 to move by chain 12, sheet material 7 is placed on by last process equipment on the conveyer belt 5 of carrying in frame 6, conveyer belt 5 drives sheet material 7 to move to optoelectronic switch 8 stop motions, walking dynamo-electric 4 drives walking sprocket wheel 3 to rotate along the guide rail chain 10 being arranged on mainframe 14 by road wheel chain 11, and walking sprocket wheel 3 is installed and carried in frame 6, drives conveyer to move together, walking sprocket wheel 3 stops transmission during to optoelectronic switch 9, movable motor 4 reverses, drive conveyer reposition, while conveyer belt motor 13 starts driving conveying belt 5 and rotates forward, the linear velocity of conveyer belt 5 is identical with conveying frame 6 opening speeds, realize the relative full-automatic hot-pressing glue system of sheet material 7 and keep static, sheet material 7 is sent into full-automatic hot-pressing glue system B.

Full-automatic hot-pressing glue system is as accompanying drawing 2, 3, 4, 5, 6, shown in 7, comprise elevating mechanism and hot pressing mechanism, elevating mechanism is as accompanying drawing 4, 5, 6, shown in 7, comprise main stand 21, Hydraulic Station 22, four hot pressing mechanism lifting hydraulic cylinders 23, eight heating platen lifting hydraulic cylinders 17, four rotating liquid cylinder pressures 18, two heating platen lifting hydraulic cylinder seats 19, two equalizer bars 20, optoelectronic switch 24, 25, 29, 49 and tooth bar 32, main stand 21 is frame structure, Hydraulic Station 22 is loaded on main stand 21 upper ends, provide power by high-pressure oil pipe for each hydraulic means, four hot pressing mechanism lifting hydraulic cylinders 23 are arranged on 21 4 jiaos of main stands straight up, are fixed on 21 4 jiaos of hot pressing mechanism lifting hydraulic cylinder seats of main stand, heating platen lifting hydraulic cylinder seat 19 is plank frame, is arranged on main stand 21 left and right sides, and bottom is articulated with on main stand 21 bases, as shown in Figure 5 through bearing pin 19-1, eight heating platen lifting hydraulic cylinders 17 are divided equally on two groups of heating platen lifting hydraulic cylinder seats 19 that are evenly fixed on respectively both sides, as shown in Figure 4, two equalizer bars 20 are loaded on respectively on the flange of heating platen lifting hydraulic cylinder 17 piston rod ends of both sides, and equalizer bar 20 inner sides are evenly equipped with heating platen saddle 20-1, as shown in Figure 5, rotating liquid cylinder pressure 18 is divided equally two groups, be arranged on respectively heating platen hydraulic cylinder seat 19 outsides, bottom is hinged on main stand 21 bases by bearing pin 18-1, the piston rod of upper end is hinged on heating platen hydraulic cylinder seat 19 tops, can realize by heating platen hydraulic cylinder seat 19 fixed angle of two sideway swivels forwards, backwards, as shown in accompanying drawing 5,7, optoelectronic switch 24,25 is installed on mainframe 21, and optoelectronic switch 24 is corresponding with plane on the first heating platen 34, and optoelectronic switch 25 is arranged on 250 millimeters of 24 tops of optoelectronic switch place, and the stroke that limits every heating platen is 250 millimeters.

Hot pressing mechanism is as accompanying drawing 8, 9, shown in 10, comprise frame 27, hot pressing mechanism lifting hydraulic cylinder falan seat 26, pressing hydraulic cylinder 28, upper hot pressboard 30, the first heating platen 34, the second heating platen 35, the 3rd heating platen 36, the 4th heating platen 37, lower hot pressing board 28, slide block 15, guide shaft 16, circulating pump 39, recirculation heater 40, conduction oil turnover header 47, control valve 46, oil pipe 48, frame 27 is frame structure, pressing hydraulic cylinder 28 is arranged on frame 27 crown centers, upper hot pressboard 30 is connected to pressing hydraulic cylinder 28 piston rod ends, lower hot pressing board 38 is fixed on frame 27 bases, intermediate heat pressing plate has four layers, every layer of heating platen 34, 35, 36, on 37 two sides, be equipped with a strip boss t(as accompanying drawing 6, shown in 9), four guide shafts 16 are separately fixed in frame 27 four jiaos, and guide shaft 16 is connected with frame 27 tops, bottom by bolt, four jiaos of every layer of heating platens are all installed a slide block 15, four layers of heating platen 34,35,36,37 respectively on sliding 15 guide shafts that are arranged in frame 27 16, make heating platen 34,35,36,37 by sliding sleeve 15 along guide shaft easy motion and be not offset (as shown in Figure 8) Shang Xia 16. conduction oil turnover header 47 is fixed on frame 27, connects each heating platen by oil pipe 48, regulates by control valve 46 conduction oil that enters each heating platen, four heating platens 34,35,36,37 all adopt integral plate to make, in adopting, circulating heat conduction oil heats to improve the efficiency of heating surface, four heating platens 34,35,36,37 are arranged in order, be arranged between upper hot pressboard 30 and lower hot pressing board 38, when hot pressing, sheet material is between two heating platens, and sheet material upper and lower surface is heated simultaneously, accelerate the compacting gummed speed of sheet material, to enhance productivity, heater 40 is loaded on hot pressing mechanism one end, oil pipe 48, oil circulating pump 39 and conduction oil turnover header 47, control valve 46, heating platen 30,34,35,36,37,38 connect into a closed circuit, pass in and out the control valve 46 in header 47 by conduction oil, according to the temperature of each heating platen, heating oil quantity is done to secondary distribution, for each heated platen provides conduction oil as required, guarantee each hot plate homogeneous heating, to improve compacting bonding quality and efficiency. hot pressing mechanism entirety is placed in main stand 21, the hot pressing mechanism lifting hydraulic cylinder 23 of hot pressing mechanism lifting hydraulic cylinder flange seat 26 corresponding elevating mechanisms, and be fixed on the flange seat of hot pressing mechanism lifting hydraulic cylinder 23 piston rod ends, steady when ensureing that hot pressing mechanism rises overally, at 21 4 vertical framework uppers of main stand, a tooth bar 32 is installed respectively, a bascule is installed at hot pressing mechanism top, bascule is made up of two lateral balance axles 50, two longitudinal balance axles 51 and four Synchronous Transmission straight-tooth gears 33, trunnion shaft 50,51 is located at hot pressing mechanism top surrounding, be fixed on hot pressing mechanism top through bearing block 53, between every two connected trunnion shafves by bevel gear 52 transmissions, Synchronous Transmission straight-tooth gear 33 is located at the two ends of each longitudinal balance axle 51, four tooth bars 32 on four corresponding also transmission main stands 21 of Synchronous Transmission straight-tooth gear 33 difference.

Induction system C comprises conveying frame 45, buncher 43, driving chain 44,42 and conveying cylinder 41, its main effect is to drive conveying cylinder 41 to rotate using buncher 43 as power by driving chain 44,42, and sheet material 31 good hot-press gluing is transported to assigned address. Buncher 43 can be adjusted arbitrarily output speed according to hot speed of production for stepless speed-change motor.

The course of work of the present invention and operation principle are: when work, first start recirculation heater 40, oil circulating pump 39, to being circulated each heating platen is heated by conduction oil, when each heating platen reaches after operating temperature, starts all the other all each devices. this installs each machine and automatically enters position shown in Fig. 1, and now heating platen lifting hydraulic cylinder seat 19 is in deployed position (as shown in Figure 7), and rotating liquid cylinder pressure 18 is in the state that entirely stretches out. heating platen lifting hydraulic cylinder 17, pressing hydraulic cylinder 28 are in full contraction state, and hot pressing mechanism lifting hydraulic cylinder 23 is in the state of stretching out. in the time that last process sheet material 7 moves to optoelectronic switch 1, information is passed to PLC control centre by optoelectronic switch 1, PLC control centre starts conveyer belt motor 13 by the information obtaining, by chain 12, power rod 2 driving conveying belts 5 rotate, drive sheet material 7 to move to hot pressing mechanism, in the time that sheet material 7 moves to optoelectronic switch 8, information is passed to PLC control centre by optoelectronic switch 8, PLC control centre closes conveyer belt motor 13 by the information obtaining, start movable motor 4, drive the walking sprocket wheel 3 being contained in conveying frame 6 to move to hot pressing mechanism along the track chain 10 being contained on mainframe 14 by walking chain 11, walking sprocket wheel 3 drives conveyer and sheet material 7 to enter in hot pressing mechanism, in the time that conveyer moves to optoelectronic switch 9, information is passed to PLC control centre by optoelectronic switch 9, PLC control centre starts conveyer belt motor 13 by the information obtaining, movable motor 4 reverses, conveyer Yan Yuan returns on road, conveyer belt 5 drives sheet material 7 to travel forward. the now proal speed of sheet material 7 and conveyer return speed opposite direction, numerical value is identical, and the relative hot pressing mechanism transfixion of sheet material 7, completes sheet material 7 is sent into hot pressing mechanism, sheet material 31 is pushed out to induction system C, and sheet material 31 is transported to assigned address by induction system C. conveyer is back to reset switch 1-1 by original route, and information is passed to PLC control centre by reset switch 1-1, PLC control centre by the information that obtains by movable motor 4, carry charged 13 to close, start four pressing hydraulic cylinders 28 simultaneously and press down, upper hot pressboard 30 and the first heating platen 34 are compressed sheet material 7 until predetermined pressure starts four hot pressing mechanism lifting hydraulic cylinders 23 and upwards hot pressing mechanism entirety risen. in the time that heating platen 35 rises to optoelectronic switch 24, information is passed to PLC control centre by optoelectronic switch 24, PLC control centre closes four hot pressing mechanism lifting hydraulic cylinders 23 by the information obtaining, hot pressing mechanism stops rising action, open four rotating liquid cylinder pressures 18 simultaneously, both sides heating platen lifting hydraulic cylinder seat 19 closed reductions, to Fig. 2 position, have been completed to the sheet material hot-press gluing action between upper hot pressboard 30 and the first heating platen 34. in the time that second sheet material of last process moves to optoelectronic switch 1, information is passed to PLC control centre by optoelectronic switch 1, PLC control centre starts conveyer belt motor 3 by the information obtaining, rotate by chain 12, power rod 2 driving conveying belts 5, drive second sheet material to move to hot pressing mechanism, in the time that sheet material moves to optoelectronic switch 8, information is passed to PLC control centre by optoelectronic switch 8, PLC control centre closes conveyer belt motor 13 by the information obtaining, the heating platen lifting hydraulic cylinder 17 of both sides is opened, and four pressing hydraulic cylinders 28 are in quick condition. heating platen lifting hydraulic cylinder 17 withstands the strip boss t of heating platen 35 both sides by the saddle 20-1 on two equalizer bars 20, by heating platen 35 and upper hot pressboard 30, first sheet material entering jack-up together, in the time that heating platen 35 rises to optoelectronic switch 25, information is passed to PLC control centre by optoelectronic switch 25, PLC control centre starts movable motor 4 by the information obtaining, drive the walking sprocket wheel 3 being contained in conveying frame 6 to move to hot pressing mechanism along the guide rail chain 10 being contained on mainframe 14 by walking chain 11, walking sprocket wheel 3 drives conveyer and second sheet material to enter in hot pressing mechanism, in the time that conveyer moves to optoelectronic switch 9, information is passed to PLC control centre by optoelectronic switch 9, PLC control centre starts conveyer belt motor 13 by the information obtaining, movable motor 4 reverses, conveyer Yan Yuan returns on road, conveyer belt 5 drives second sheet material to travel forward, now travel forward speed and conveyer return speed opposite direction of sheet material, numerical value is identical, the relative hot pressing mechanism transfixion of sheet material. complete and will press sheet material release, second sheet material is sent into hot pressing mechanism. conveyer is back to reset switch 1-1, and information is passed to PLC control centre by reset switch 1-1, PLC control centre by the information that obtains by movable motor 4, carry charged 13 to close, start eight heating platen lifting hydraulic cylinders 17 simultaneously, four pressing hydraulic cylinders 28, four pressing hydraulic cylinders 28 press down second sheet material and each heating platen are compressed until predetermined pressure stops to press automatically, heating platen lifting hydraulic cylinder 17 contraction bands dynamic balancing beams 20 reset, equalizer bar lower plane is with to be arranged on optoelectronic switch 29 on heating platen lifting hydraulic cylinder seat 19 corresponding, after resetting, information is passed to PLC control centre by reset optoelectronic switch 29, PLC control centre starts four rotating liquid cylinder pressures 18 by the information obtaining, rotating liquid cylinder pressure 18 drives the heating platen lifting hydraulic cylinder seat 19 of both sides and the heating platen lifting hydraulic cylinder 17 being fixed thereon, equalizer bar 20 rotations are returned to home position, optoelectronic switch 49 is corresponding with heating platen lifting hydraulic cylinder seat 19, information is passed to PLC control centre by optoelectronic switch 49, PLC control centre will start four hot pressing mechanism lifting hydraulic cylinders 23 by the information obtaining and upwards hot pressing mechanism entirety be risen. in the time that heating platen 36 rises to optoelectronic switch 24, information is passed to PLC control centre by optoelectronic switch 24, PLC control centre is by the information obtaining, close four hot pressing mechanism lifting hydraulic cylinders 23, hot pressing mechanism stops rising action, open four rotating liquid cylinder pressures 18 simultaneously, both sides heating platen lifting hydraulic cylinder seat 19 is closed to accompanying drawing 3 positions, completed the sheet material hot-press gluing action between heating platen 34 and heating platen 35. third and fourth, the turnover of five blocks of sheet materials repeats the process of second block of sheet material. move to 5 whole hot pressing of sheet material, send instruction by plc data logical operation, four hot pressing mechanism lifting hydraulic cylinders 23 are opened to be shunk, drive hot pressing mechanism entirety to decline, in the time that heating platen 34 drops to optoelectronic switch 24, information is passed to PLC control centre by optoelectronic switch 24, and PLC control centre is by the information obtaining, and next round circulation is carried out in instruction.

Claims (2)

1. a full-automatic multi-layer continuous feeding and discharging hot-press arrangement, it is characterized in that: it comprises automatic feed/discharge system, full-automatic continuous hot-press glue system, induction system and PLC electrical apparatus control system, and automatic feed/discharge system and induction system are located at respectively full-automatic continuous hot-press glue system charging aperture and discharging opening two ends; Full-automatic continuous hot-press glue system comprises elevating mechanism and hot pressing mechanism, elevating mechanism is made up of main stand, Hydraulic Station, hot pressing mechanism lifting hydraulic cylinder, heating platen lifting hydraulic cylinder, heating platen lifting hydraulic cylinder seat, equalizer bar, rotating liquid cylinder pressure and photoelectric control switch, main stand is frame structure, and Hydraulic Station is loaded on main stand upper end; Hot pressing mechanism lifting hydraulic cylinder is arranged on four jiaos of main stands straight up, is fixed on four jiaos of hot pressing mechanism lifting hydraulic cylinder seats of main stand; Heating platen lifting hydraulic cylinder seat has two, is plank frame, is arranged on the main stand left and right sides, and bottom is articulated with on main stand base through bearing pin; Heating platen lifting hydraulic cylinder is divided equally two groups, is separately fixed on the heating platen lifting hydraulic cylinder seat of both sides; Two equalizer bars are loaded on respectively on the flange of heating platen lifting hydraulic cylinder piston rod end of both sides, and equalizer bar inner side is evenly equipped with heating platen saddle; Rotating liquid cylinder pressure is divided equally two groups, is arranged on respectively heating platen lifting hydraulic cylinder seat outside, and bottom is hinged on main stand by bearing pin, and the piston rod of upper end is hinged on heating platen lifting hydraulic cylinder seat top; Optoelectronic switch is arranged on respectively in corresponding frame; Hot pressing mechanism comprises frame, hot pressing mechanism lifting hydraulic cylinder falan seat, pressing hydraulic cylinder, upper hot pressboard, heating platen, lower hot pressing board, slide block, guide shaft, heating system; Frame is frame structure, pressing hydraulic cylinder is arranged in the middle of frame top, upper hot pressboard is connected to pressing hydraulic cylinder piston rod end portion, lower hot pressing board is fixed in gantry base, heating platen has polylith to form, every heating platen is equipped with a strip boss on two sides, and all heating platens are in slide block is arranged on frame on the guide shaft of four jiaos; Hot pressing mechanism entirety is placed in main stand, the hot pressing mechanism lifting hydraulic cylinder of the corresponding elevating mechanism of hot pressing mechanism lifting hydraulic cylinder flange seat, and be fixed on the flange seat of hot pressing mechanism lifting hydraulic cylinder piston rod end; On the conveyer frame lower plane of automatic feed/discharge system and the conveying cylinder top of induction system and the ground floor heating platen of full-automatic hot-pressing glue system, plane is corresponding.

2. full-automatic multi-layer continuous feeding and discharging hot-press arrangement according to claim 1, is characterized in that: at four vertical framework uppers of main stand, a tooth bar is installed respectively; A bascule is installed at hot pressing mechanism top, bascule is made up of two lateral balance axles, two longitudinal balance axles and four spur gears, eight bevel gears, trunnion shaft is located at hot pressing mechanism top surrounding, be fixed on hot pressing mechanism top through bearing block, between every two connected trunnion shafves by bevel gear transmission, be equipped with a synchronous transmission gear at each longitudinal balance axle two ends, four tooth bars on four corresponding transmission main stands of synchronous transmission gear difference.