CN201304675Y

CN201304675Y - Multilayer mould-pressing production device for massive flakeboard

Info

Publication number: CN201304675Y
Application number: CNU2008202252172U
Authority: CN
Inventors: 穆国君
Original assignee: Individual
Current assignee: Individual
Priority date: 2008-11-04
Filing date: 2008-11-04
Publication date: 2009-09-09
Anticipated expiration: 2018-11-04

Abstract

The utility model relates to a multilayer mould-pressing producion device for massive flakeboard which belongs to the technical field of artificial board producion devices. The multilayer mould-pressing producion device comprises a feeder. The multilayer mould-pressing producion device is characterized in that a guide way of the feeder is provided with a mould the bottom of which is provided with rollers; a movable paver arranged on the upper part of the feeder paves lumber into the mould; the feeder is successively connected with charger, a hot press for hot-pressing shaping, an unloader and a discharging machine, wherein the charger, the hot press and the discharging machine are in multilayer design; guide ways of the charger, the hot press, the unloader and the discharging machine are respectively matched with the rollers of the mould; and the discharging machine and the charger form a circulating loop. The multilayer mould-pressing producing device can overcome the defect of the prior art, and the pavement, the lifting, the loading, the demoulding and the loopback of the mould are controlled by the machinery, meeting mechanized large-scale production, avoiding waste and improving quality.

Description

Thick and heavy particieboard multilayer mold pressing process units

One, technical field

The utility model relates to thick and heavy particieboard (compound chock) multilayer mold pressing process units, belongs to Wood-based Panel Production apparatus structure technical field.

Two, background technology

At present, existing thick and heavy particieboard (compound chock) production technology is two kinds of forms: 1, produce with existing ordinary particle board production line, and the limit of collapsing around the slab when suppressing owing to thick and heavy particieboard is serious, the very big waste of the too wide too thick generation of edges of boards during finished product saw limit.2, the single die in single machine production of manually mating formation can't be finished the mechanization production in enormous quantities though save, and the even quality of plank density unevenness can't guarantee.

Three, summary of the invention

The purpose of this utility model is to solve the weak point that above-mentioned prior art exists, provide a kind of and can produce the thick and heavy particieboard multilayer mold pressing process units that utilizes mould production not have leftover pieces, save cost, increase the benefit simultaneously again in enormous quantities with production line mechanization.

The utility model is achieved through the following technical solutions:

Thick and heavy particieboard multilayer mold pressing process units, special character is to comprise charger 13, the guide rail of charger 13 is provided with the mould 2 of bottom band roller 1, in mould 2, lay timber by the portable spreading machine 14 that charger 13 tops are set, charger 13 is connected with charger 5 in regular turn, the hot press 7 that is used for hot forming, unloader 6 and discharging machine 20, wherein charger 5, hot press 7 and unloader 6 are the multilayer design, charger 5, hot press 7, the roller 1 of the guide rail of unloader 6 and discharging machine 20 and mould 2 is used, and discharging machine 20 forms a closed circuit with charger 13, timber is packed into by portable spreading machine 14 in the mould 2 on the charger 13, the mould 2 that timber will be housed from charger 13 is written in the charger 5 in regular turn, by charger 5 multiple layers of molds of arranging 2 is pushed again and carry out hot forming in the hot press 7, multiple layers of molds 2 after the hot pressing is sent in the unloader 6, at last pass out to mould 2 in the closed circuit in regular turn by the discharging machine 20 that is connected with unloader 6 again, particieboard to multiple layers of molds 2 internal shapings carries out discharging, and empty mould 2 recycles in closed circuit is transmitted back to charger 13;

Described mould 2 adds spring 4 with roller 1 employing rotating shaft 3 and is connected; Be provided with locating wheel 10 outside the roller 1 of mould 2 bottoms, the two ends of mould 2 are provided with the hook 17 that is used to pull;

Described charger 5 is every layer of multilayer charger that is equipped with guide rail, its initial position be charger 5 front portion that is positioned at charger 13, charger 5 to go up number ground floor guide rails concordant with the guide rail of charger 13, control the lifting action of charger 5 by material cage set on the charger 5 22;

Described hot press 7 is connected with charger 5, hot press 7 is provided with and the consistent guide rail 9 of the charger 5 set numbers of plies, the below of every layer of guide rail 9 is equipped with the heating platen 8 with respect to mould 2, the bottom of hot press 7 is provided with hot pressing controller 21, when the guide rail on the guide rail on the charger 5 and hot press 7 heating platens 89 is concordant, mould 2 connects control by the charging controller 15 on charger 5 tops and drives and proceed on the guide rail 9 of heating platen 8, and it is corresponding that the set location-plate 11 in locating wheel 10 and hot press 7 ends is established in mould 2 ends;

Described unloader 6 is connected with hot press 7, the number of plies of set guide rail 9 is consistent on the guide rail of unloader 6 and the hot press 7, its top is provided with plate pulling device 16, the bottom is provided with locator 18, when the guide rail 9 of hot press 7 is concordant with the guide rail of unloader 6, by locator 18 latched positions, proceed to mould 2 ends by plate pulling device 16 then, establish by mould 2 fronts and be used for the hook 17 that plate pulling device 16 catches on;

Described discharging machine 20 is positioned at the bottom of unloader 6; unloader 6 is provided with the guide rail that matches with the guide rail of discharging machine 20; when unloader 6 carries out discharging; it is concordant with the guide rail of discharging machine 20 that unloader 6 drops to its orlop guide rail; this moment, discharging machine 20 was pulled out unloader 6 with undermost mould 2; enter on the guide rail of discharging machine 20; unloader 6 continues to descend then; successively every layer of mould 2 of unloader 6 all moved on the discharging machine 20 again; after with ingot stripper demoulding that discharging machine 20 is connected after; mould 2 is delivered to charger 13 by closed circuit again and is mated formation on the initial position, so far finishes a complete cycle period.

Multilayer mould pressing technology of the present utility model can overcome the defective that prior art exists, the mating formation of mould, lifting, loading and unloading, the demoulding and loopback have all adopted mechanical device control to carry out, both satisfy mechanization large-scale production, avoided waste again, improved quality.

Four, description of drawings

Fig. 1: be the utility model multilayer mold pressing process units structural representation;

Fig. 2: the structural representation of hot press; The left view of Fig. 3: Fig. 2;

Fig. 4: mould structure schematic diagram; The vertical view of Fig. 5: Fig. 4;

Fig. 6: the local enlarged diagram of mould;

Five, the specific embodiment

Following with reference to accompanying drawing, provide the specific embodiment of the present utility model, be used for formation of the present utility model is further specified.

The thick and heavy particieboard of present embodiment (compound chock) multilayer mold pressing process units is referring to figs. 1 to 6, comprise charger 13, the guide rail of charger 13 is provided with the mould 2 of bottom band roller 1, in mould 2, lay timber by the portable spreading machine 14 that charger 13 tops are set, charger 13 is connected with charger 5 in regular turn, the hot press 7 that is used for hot forming, unloader 6 and discharging machine 20, wherein charger 5, hot press 7 and unloader 6 are the multilayer design, charger 5, hot press 7, the roller 1 of the guide rail of unloader 6 and discharging machine 20 and mould 2 is used, and discharging machine 20 forms a closed circuit with charger 13, timber is packed into by portable spreading machine 14 in the mould 2 on the charger 13, the mould 2 that timber will be housed from charger 13 is written in the charger 5 in regular turn, by charger 5 multiple layers of molds of arranging 2 is pushed again and carry out hot forming in the hot press 7, multiple layers of molds 2 after the hot pressing is sent in the unloader 6, at last pass out to mould 2 in the closed circuit in regular turn by the discharging machine 20 that is connected with unloader 6 again, particieboard to multiple layers of molds 2 internal shapings carries out discharging, and empty mould 2 recycles in closed circuit is transmitted back to charger 13;

Mould 2 adds spring 4 with roller 1 employing rotating shaft 3 and is connected; Be provided with locating wheel 10 outside the roller 1 of mould 2 bottoms, the two ends of mould 2 are provided with the hook 17 that is used to pull; Charger 5 is every layer of multilayer charger that is equipped with guide rail, its initial position be charger 5 front portion that is positioned at charger 13, charger 5 to go up number ground floor guide rails concordant with the guide rail of charger 13, control the lifting action of charger 5 by material cage set on the charger 5 22; When mould 2 pushes the ground floor guide rail of charger 5 by charger 13, it is concordant with the guide rail of charger 13 that material cage drive charger 5 rises to number second layer guide rail, mould 2 is pushed on this layer guide rail of charger 5 by charger 13 again, according to above-mentioned cycling, charger 13 pushes mould 2 on each layer guide rail of charger 5 in regular turn, stop when concordant when charger 5 charging finishes to rise to, mould 2 is sent into hot press 7 by 15 controls of charging controller with every layer of guide rail of hot press 7;

Described hot press 7 is connected with charger 5, hot press 7 is provided with and the consistent guide rail 9 of the charger 5 set numbers of plies, the below of every layer of guide rail 9 is equipped with the heating platen 8 with respect to mould 2, the bottom of hot press 7 is provided with hot pressing controller 21, when the guide rail on the guide rail on the charger 5 and hot press 7 heating platens 89 is concordant, mould 2 is proceeded on the guide rail 9 of heating platen 8 by charging controller 15 drives on charger 5 tops, when the locating wheel 10 of mould 2 ends is run into the set location-plate 11 in hot press 7 ends, charging controller 15 is run into travel switch and is halted, mould 2 is fixed on the guide rail of hot press 7,7 beginnings of hot pressing this moment controller 21 control hot presses are closed, be pressed into mould 2 by heating platen 8, spring 4 on the roller 1 begins compression and contacts entirely with mould 2 until heating platen 8, when hot press 7 continues to be closed to the superiors' heating platen 8 and is pressed into the superiors' mould 2, closure stops, hot pressing controller 21 control hot presses 7 begin mould 2 is pressurizeed, after pressurization finishes, hot press 7 backhauls, mould 2 returns to initial position, prepares to enter unloader 6;

Unloader 6 is connected with hot press 7, the number of plies of set guide rail 9 is consistent on the guide rail of unloader 6 and the hot press 7, its top is provided with plate pulling device 16, the bottom is provided with locator 18, when the guide rail 9 of hot press 7 is concordant with the guide rail of unloader 6, by locator 18 latched positions, proceed to mould 2 ends by plate pulling device 16 then, catch on the hook 17 of mould 2 fronts by plate pulling device 16, when plate pulling device 16 retreats the mould 2 on hot press 7 guide rails 9 is moved on the guide rail of unloader 6 together, stopped after plate pulling device 16 playback, unlock by locator 18, this moment, unloader 6 rose to initial position, and mould 2 prepares to enter discharging machine 20;

Discharging machine 20 is positioned at the bottom of unloader 6; unloader 6 is provided with the guide rail that matches with the guide rail of discharging machine 20; when unloader 6 carries out discharging; it is concordant with the guide rail of discharging machine 20 that unloader 6 drops to its orlop guide rail; this moment, discharging machine 20 was pulled out unloader 6 with undermost mould 2; enter on the guide rail of discharging machine 20; unloader 6 continues to descend then; successively every layer of mould 2 of unloader 6 all moved on the discharging machine 20 again; after with ingot stripper demoulding that discharging machine 20 is connected after; mould 2 is delivered to charger 13 by closed circuit again and is mated formation on the initial position, so far finishes a complete cycle period.

Present embodiment is the removable die device of multilayer, and the mould of making has roller, and roller adds spring with mould employing rotating shaft and is connected.The mould initial position utilizes portable spreading machine to mat formation several times in mould on the charger guide rail, and each centre adds the bamboo bar up to being paved with mould.Mould is mated formation and is sent into charger by charger after finishing, and charger is a multilayer, and every layer has guide rail.Initial position is that number ground floor guide rails align with the charger guide rail on the charger, and mould pushes charger by pushing block along guide rail, the back charger rising that puts in place, and second layer guide rail stops when rising to and aliging with the charger guide rail.

Next step is that second mould mated formation, pushed.Charger rises, and the 3rd layer of guide rail stops when rising to and aliging with the charger guide rail.And the like, until last one deck charger mould of packing into.

Charger rises then, and hot press is on every layer of hot plate of multilayer guide rail to be housed, and charger rises to self guide rail when aliging with the hot press guide rail, and charger is stopped, and machinery is located.The controller of then feeding advances mould is sent into hot press along guide rail, and locating wheel is housed on the mould, runs into location-plate on the hot press when locating wheel, runs into travel switch with the fashion material controller, and the charging controller stops.Hot press began closed heating platen and was pressed into mould this moment, and the roller upper spring begins heat of compression pressing plate and contacts entirely with mould.Hot press continues closure and is pressed into mould until the superiors' hot plate, and closure is stopped.The mould location-plate is recalled, and hot press begins pressurization.Compacting finishes, the hot press backhaul.Unloader rises, and the unloader upper rail aligns with the hot press guide rail and locks, and plate pulling device begins to advance, and catches on mould after putting in place and stops.Then plate pulling device retreats every layer of mould is moved on the unloader from hot press upper edge guide rail simultaneously.Stop after putting in place.Unloader rises, and unlocks.Unloader descends, and following number ground floor guide rail stops when aliging with the discharging machine guide rail.Discharging machine work is pulled out unloader with the mould in bottom, enters discharging machine, continues to run until that ingot stripper top stops.Unloader continues second mould guide rail alignment of decline and stops.Then utilize ingot stripper that production board is ejected from mould.Production board hangs stowed location with crane.Mould is transmitted back to charger by roller platform and mould return conveyor mats formation on the initial position, finishes a complete cycle.Mould is mated formation, lifting, loading and unloading, the demoulding and loopback are all carried out with mechanical device.

Claims

1, thick and heavy particieboard multilayer mold pressing process units, be characterised in that and comprise charger (13), the guide rail of charger (13) is provided with the mould (2) of bottom band roller (1), in mould (2), lay timber by the portable spreading machine (14) that the top of charger (13) is set, charger (13) is connected with charger (5) in regular turn, the hot press (7) that is used for hot forming, unloader (6) and discharging machine (20), charger (5) wherein, hot press (7) and unloader (6) are the multilayer design, charger (5), hot press (7), the roller (1) of the guide rail of unloader (6) and discharging machine (20) and mould (2) is used, and discharging machine and closed circuit of charger (13) formation.

2,, it is characterized in that described mould (2) and roller (1) adopt rotating shaft (3) to add spring (4) and be connected according to the described thick and heavy particieboard multilayer mold pressing process units of claim 1; The roller (1) of mould (2) bottom is outer to be provided with locating wheel (10), and the two ends of mould (2) are provided with the hook (17) that is used to pull.

3, according to the described thick and heavy particieboard multilayer mold pressing process units of claim 1, it is characterized in that described charger (5) is every layer of multilayer charger that is equipped with guide rail, its initial position be charger (5) front portion that is positioned at charger (13), charger (5) to go up number ground floor guide rail concordant with the guide rail of charger (13), go up set material cage (22) by charger (5) and connect and control charger (5).

4, according to the described thick and heavy particieboard multilayer mold pressing process units of claim 1, it is characterized in that described hot press (7) is connected with charger (5), hot press (7) is provided with the guide rail (9) consistent with the set number of plies of charger (5), the below of every layer of guide rail (9) is equipped with the heating platen (8) with respect to mould (2), the bottom of hot press (7) is provided with hot pressing controller (21), when the guide rail on the charger (5) is concordant with the guide rail (9) on hot press (7) heating platen (8), mould (2) connects control by the charging controller (15) on charger (5) top and drives and proceed on the guide rail (9) of heating platen (8), and it is corresponding that the set location-plate (11) in locating wheel (10) and hot press (7) end is established in mould (2) end.

5, according to the described thick and heavy particieboard multilayer mold pressing process units of claim 1, it is characterized in that described unloader (6) is connected with hot press (7), the guide rail of unloader (6) is consistent with the number of plies that hot press (7) is gone up set guide rail (9), its top is provided with plate pulling device (16), the bottom is provided with locator (18), and mould (2) front is established and is used for the hook (17) that plate pulling device (16) catches on.

6, according to the described thick and heavy particieboard multilayer mold pressing process units of claim 1, it is characterized in that described discharging machine (20) is positioned at the bottom of unloader (6), unloader (6) is provided with the guide rail that matches with the guide rail of discharging machine (20), when unloader (6) carried out discharging, it is concordant with the guide rail of discharging machine (20) that unloader (6) drops to its orlop guide rail.