CN108425291A - Layered product double suction starches the manufacturing method of two sections of hot pressing automatic mouldings of cold extrusion - Google Patents

Abstract

The present invention relates to the manufacturing methods that a kind of layered product double suction starches two sections of hot pressing automatic mouldings of cold extrusion, two sections of hot pressing automatic moulding machines of cold extrusion are starched with double suction, by a midge upper mold, midge is completed to be upper simultaneously with a midge lower die, lower embryo material layer, chill is completed at the same time with the cold pressing upper mold of a cold pressing mold mechanism and cold pressing lower die again to squeeze, it again will be in the midge, lower die molding makes on this, lower embryo material is laminated and becomes the thick stock product of double thickness, using two sections of thermocompression forming operations, have letter and saves assembling space, accelerate manufacturing speed, increase layered product thickness and shock-absorbing space, with gain buffer shock-proof effect, and surface is made to be all the practical effect of smooth surface.

Description

Layered product double suction starches the manufacturing method of two sections of hot pressing automatic mouldings of cold extrusion

Technical field

The present invention relates to the manufacturing method that a kind of layered product double suction starches two sections of hot pressing automatic mouldings of cold extrusion, espespecially one Kind simple can save assembling space, accelerate manufacturing speed, increase layered product thickness and shock-absorbing space, with gain buffer shock-absorbing effect Fruit, and surface is made to be all the manufacture of two sections of hot pressing automatic moulding machine manufacture layered products of layered product double suction slurry cold extrusion of smooth surface Method.

Background technology

With plastic product made of plastic material, it is easy to disengage toxin and generate environment seriously to pollute, it is difficult to which recycling is again It utilizes, or recycling decomposes and is difficult to handle, and is recycled the problems such as expense is huge, causes for many years to have generated global environmental protection Grievous injury.In the surging age of environmental consciousness now, material that is nontoxic, being easy recovery processing is found, it has also become study and real Apply upper mainstream in border.

Existing development is mixed with beating with pulp fluff material and/or sponge to starch material, by suction at present Mould midge attachment material is starched, is generally all claimed to be distinguished with " plastic product " using the product that thermocompression forming technology is fabricated Be " layered product ".Layered product has the advantage that recycling remanufactures recycling that is easy, and meets environmental protection recycling and carbon reduction Trend, therefore it is quickly big well-established and be happy to use by industrial and commercial circles and general sieve, layered product often it is visible for example： The products such as bowl, disk, cup lid, packing timber, shock-absorbing material, mat material all gradually have use.

The manufacture of layered product has to pass through " midge is moulding " and " thermocompression forming " two operation, wherein " midge is moulding " Be by a midge lower die decline immerse one full of slurry slurry case in, then by a suction unit via the midge mould to slurry case in Slurry carries out vacuum attraction, makes to form one " embryo material layer " in the die face of the midge mould, when the midge mould is lifted off slurry case, because Continuing swabbing action makes the gradual wet down of embryo material layer, and then the midge mould rises together with embryo material layer and overturns and a cold stamping die jointly Molding squeezes the embryo material layer, so that the pulp layer is reduced humidity and is shaped as one " germule product " simultaneously, and then changing the absorption of midge mould should Germule product leave cold stamping die, complete the moulding operation of midge, then carry out " thermocompression forming " operation, be by hot-die pair Embryo material layer after midge is moulding carries out thermocompression forming operation, keep original embryo material layer dry and shape as layered product at Product.

The present inventor specializes in the manufacture work of layered product, and the experience of layered product is contacted via long-time, is realized To layered product with the presence of missing once in manufacture：

1. manufacturing speed is slow.The absorption of embryo material layer is acted when conventionally manufactured layered product, unilateral side is only capable of and (attaches die face Side) carry out, therefore the wet down speed of embryo material layer entirety is slow and inconsistent, and then influences manufacturing speed.

2. thickness can not increase, cause shock-proof effect bad.When conventionally manufactured layered product, midge mould can only make embryo material layer Disposable single layer is covered in die face, and embryo material layer can not be multilayer laminated, therefore thickness can not increase, and it is outer to be generally only applicable to molding It sees more smooth-going and thickness is not necessarily to blocked up small sized product (such as bowl, disk, cup lid etc.), if it is desired to which it is thicker to manufacture thickness, shock-absorbing The preferable layered product of effect (such as：Packing timber with preferable shock-proof effect), classical production process is still difficult to reach.

3. there are non-optimum faces on surface, cause sense of worth not high.It is excellent face that side can be clearly present on known layered product And the other side be two kinds of non-optimum face surface, be for non-high commodity (such as packing egg) fashion of Packaging Value it is suitable, If, then can be because there is " non-optimum face " to deposit in the packing timber of layered product but when for the higher commodity of Packaging Value (such as mobile phone) It is causing vision perception bad, the sense of worth of whole commodity but will be dragged down.

Because known layered product has, manufacturing speed is slow, thickness is difficult to increase and what surface had a non-optimum face both deposits missing In the presence of so that layered product is very limited in the popularization of usage, cannot be used directly for the high quotient of Packaging Value Product.

Invention content

The technical problem to be solved in the present invention is to provide a kind of manufactures of layered product automatic moulding machine that contexture is completely new The manufacturing method of layered product, to overcome the drawbacks described above of the prior art.

It is a primary object of the present invention to provide one kind simple saving assembling space, and accelerates the layered product of manufacturing speed Double suction starches the manufacturing method of two sections of hot pressing automatic moulding machine manufacture layered products of cold extrusion.

Another main purpose of the present invention, then finished product thickness and shock-absorbing space can be increased by being to provide one kind, with sharp gain The manufacturing method of two sections of hot pressing automatic moulding machine manufacture layered products of layered product double suction slurry cold extrusion of buffering and shock-proof effect.

The present invention another main purpose, then be to provide it is a kind of make surface be all smooth surface layered product double suction slurry cold-extruded The manufacturing method of two sections of hot pressing automatic moulding machine manufacture layered products of pressure.

To reach above-mentioned purpose, the present invention adopts the following technical scheme that：

A kind of manufacturing method of layered product double suction slurry two sections of hot pressing automatic mouldings of cold extrusion, is starched with layered product double suction Two sections of hot pressing automatic moulding machines of cold extrusion, the layered product double suction starch two sections of hot pressing automatic moulding machines of cold extrusion, include：One inhales Upper mold is starched, is supported and is present in one first rack space by installing, downward, the midge upper mold is by one for the die face of the midge upper mold The drive of extrinsic motive mechanism can do upper and lower displacement action when needing, which connect with one first pumping device, can connect By first pumping device swabbing action or blow effect；One slurry case, is set to the lower section of first rack space, and inside holds Slurry is filled, the top surface of the slurry case is openning shape；One midge lower die is supported and is present in the top surface opening of the slurry case by installing, The die face of the midge lower die upward, and, when the not operating die face of the midge lower die symmetrical with the midge upper mold die face directed downwardly Higher than the slurry face of the slurry case, which connect with one second pumping device, is subjected to the suction of second pumping device Effect is acted on or blows, which is also driven by an extrinsic motive mechanism and can do upper and lower displacement action；One cold stamping die machine Structure is supported by installing and is present on one second rack space top surface that second rack space is located at first rack space A side, which is provided with a cold pressing upper mold and bottom surface is provided with a cold pressing lower die, the mould of the cold pressing upper mold Up, downward, which integrally can be done horizontal cross to the die face of the cold pressing lower die by an extrinsic motive mechanism urges It is mobile；One first hot pressing upper mold is supported by installing and is set up on the top bottom surface of a third rack space that the third rack is empty Between be located at another side of first rack space, be positioned adjacent to first rack space existing for the first hot pressing upper mold, should Downward, it is dynamic which can do upright upper and lower displacement to the die face of first hot pressing upper mold by an extrinsic motive mechanism urges Make, which connect with a third pumping device, is subjected to the swabbing action of the third pumping device or blows work With；One first hot pressing lower die, by installing support and be present in the third rack space, the first hot pressing lower die be located at this first The lower section of hot pressing upper mold, the first hot pressing lower die is stayed in the third rack space far from first hot pressing when not operating At mould, which can do horizontal transverse movement by an extrinsic motive mechanism urges, the mould of the first hot pressing lower die Up, which connect with one the 4th pumping device, is subjected to the swabbing action of the 4th pumping device or blows Send effect；One second hot pressing upper mold is supported by installing and is set up on the top bottom surface of the third rack space, and second heat Pressure upper mold is located in the outer side edges space of the first hot pressing upper mold position, makes in the second hot pressing upper mold and first hot pressing Both moulds and it is adjacent set up, the second hot pressing upper mold is located at the surface of the first hot pressing lower die when not operating, in second hot pressing Downward, which can do upright upper and lower displacement action to the die face of mould by an extrinsic motive mechanism urges, this second Hot pressing upper mold is connect with one the 5th pumping device, is subjected to the swabbing action of the 5th pumping device or is blowed effect；One second Hot pressing lower die is present in outside the third rack space, the second hot pressing lower die and the first hot pressing lower die by installing support Horizontal transverse movement can be done via same extrinsic motive mechanism urges, the die face of the second hot pressing lower die upward, second hot pressing Lower die is connect with one the 6th pumping device, is subjected to the swabbing action of the 6th pumping device or is blowed effect；And a receiver, By installing support and be present in outside the second hot pressing lower die, and it is not operating when be present in outside the third rack space, this connects Charging tray is done level of synchronization transverse shifting with the second hot pressing lower die and the first hot pressing lower die by same extrinsic motive mechanism urges, The receiver is equipped with a platform, and the finished product for receiving layered product falls stop；Following steps are carried out again：

(1) it enables the midge lower die be driven by the extrinsic motive mechanism connected and the slurry case is immersed to by initial position decline Slurry in；

(2) it enables the midge upper mold be driven by the extrinsic motive mechanism connected and the slurry case is immersed to by initial position decline Slurry in, and the midge upper mold stop position be higher than the midge lower die, immediately first suction unit and this second suction Device all starts swabbing action, makes the midge upper mold and the midge lower die midge simultaneously, with the shape in the die face of the midge upper mold At embryo material layer on one, and embryo material layer is formed in the die face of the midge lower die；

(3) suction time one arrives, and the midge upper mold is together with the upper embryo material layer and the midge lower die adsorbed together with being adsorbed Lower embryo material layer driven by the extrinsic motive mechanism that is connected be moved back into original position respectively, in the process, first suction Device and second suction unit still all continue swabbing action, so that all gradually dehydration is dropped for embryo material layer and the lower embryo material layer on this It is wet；

(4) start the extrinsic motive mechanism urges cold pressing mold mechanism integral level laterally shifting that the cold pressing mold mechanism is connected Move the underface of the midge upper mold, the surface of the midge lower die；

(5) the midge upper mold is enabled to decline with the cold pressing Ccope closing machine for a period of time, with to being adsorbed in the midge upper mold Upper embryo material layer is squeezed, and is risen with the season midge lower die and is molded a period of time with the cold pressing lower die, with to the midge lower die On the lower embryo material layer that is adsorbed squeezed, in the process, the first pumping device and the midge lower die which is connected The second pumping device connected all continues swabbing action, and embryo material layer and lower embryo material layer on this is made persistently to be dehydrated wet down；

(6) extrusion time one arrives, and enables the midge upper mold adsorb embryo material layer on this and rises return, while the midge lower die is inhaled Attached firmly lower embryo material layer is lowered back to place, immediately the cold pressing mold mechanism integral level transverse shifting return；

(7) the midge upper mold, which declines to decline to immerse with the midge lower die, molds a period of time under pulp surface, then in the midge Mould, the midge lower die hold up the midge upper mold by the midge lower die in the state of molding and leave pulp surface, which is inhaled The lower embryo material layer that attached upper embryo material layer is adsorbed with the midge lower die squeezes knot jointly by the midge upper mold and the midge lower die A complete thick stock product are combined into, the first pumping device and the midge lower die that the midge upper mold is connected during molding squeezes connect The second pumping device connect continues swabbing action, and the thick stock product is made persistently to be dehydrated wet down；

(8) molding extrusion time one arrives, and stops the swabbing action for the second pumping device that the midge lower die is connected, and converts At effect is blowed, so that the thick stock product are disengaged with intermode under the midge, the first pumping device which is connected continues Swabbing action then enables the midge upper mold adsorb thick stock product rising so that the thick stock product are adsorbed in the midge upper mold Return, then holding position is motionless for the midge lower die；

(9) start the extrinsic motive mechanism that the first hot pressing lower die is connected, push the first hot pressing lower die horizontal cross It is moved to the underface of the midge upper mold；

(10) it enables the midge upper mold adsorb thick stock product decline, enters in the first hot pressing lower die to the midge upper mold eventually Molding makes thick stock product intermode under the midge upper mold and first hot pressing；

(11) the 4th pumping device that the first hot pressing lower die is connected starts swabbing action, and the first hot pressing lower die is made to inhale Attached firmly thick stock product, while the first pumping device that midge upper mold is connected stops swabbing action, is converted into blowing effect, so that The thick stock product are disengaged with intermode in the midge, and then the midge upper mold moves up return immediately；

(12) the extrinsic motive mechanism urges that the first hot pressing lower die is connected the first hot pressing lower die horizontal cross is back Mobile, the underface for briefly returning to the first hot pressing upper mold stops；

(13) the extrinsic motive mechanism urges that the first hot pressing upper mold is connected the first hot pressing upper mold declines, eventually to this One hot pressing upper mold enters molding in the first hot pressing lower die, and the thick stock product are between the first hot pressing upper mold and first hot pressing at this time Lower intermode, therefore the first hot pressing upper mold is that jointly the thick stock product are carried out with the thermocompression forming of first segment with the first hot pressing lower die Operation makes thick stock product drying become a layered product；

(14) the thermocompression forming time one of first segment arrives, and the 4th pumping device which is connected, which starts, to be taken out Suction acts on, and so that the first hot pressing lower die is adsorbed the layered product, while the third that the first hot pressing upper mold is connected pumps dress Set startup and blow effect so that intermode disengages in the layered product and first hot pressing, then the first hot pressing upper mold immediately to Upper mobile return；

(15) the extrinsic motive mechanism urges that the first hot pressing lower die is connected the first hot pressing lower die horizontal cross is more past Return is dynamic, and the underface for returning to the second hot pressing upper mold stops；

(16) the extrinsic motive mechanism urges that the second hot pressing upper mold is connected the second hot pressing upper mold decline, make this second Hot pressing upper mold enters molding in the first hot pressing lower die, and the thick stock product are i.e. between the second hot pressing upper mold and first hot pressing at this time Lower intermode, the 5th pumping device that then the second hot pressing upper mold is connected start swabbing action, and the second hot pressing upper mold is made to inhale Attached firmly layered product, while the 4th pumping device startup that the first hot pressing lower die is connected blows effect, and the molding is made to produce Product are disengaged with intermode under first hot pressing；

(17) the extrinsic motive mechanism urges that the second hot pressing upper mold is connected the second hot pressing upper mold adsorbs the molding Product moves up return；

(18) start the extrinsic motive mechanism that the first hot pressing lower die is connected, push the second hot pressing lower die horizontal cross It is moved to the underface of the second hot pressing upper mold；

(19) the extrinsic motive mechanism urges that the second hot pressing upper mold is connected the second hot pressing upper mold declines, eventually to this Two hot pressing upper molds enter molding in the second hot pressing upper mold, and the layered product is between the second hot pressing upper mold and second heat at this time Intermode is depressed, therefore the second hot pressing upper mold is to carry out the hot pressing of second segment to the layered product jointly with the second hot pressing lower die Sizing operation, smooth surface is shaped as by the surface of the layered product；

(20) the thermocompression forming time one of second segment arrives, and the 5th pumping device which is connected, which starts, to be taken out Suction acts on, and the second hot pressing upper mold is made to adsorb the layered product, at the same the second hot pressing lower die connected the 6th pump dress It sets startup and blows effect, so that the layered product is disengaged with intermode under second hot pressing, then the second hot pressing upper mold is connected Extrinsic motive mechanism urges the second hot pressing upper molds adsorb the layered product and move up return；

(21) start the extrinsic motive mechanism that the first hot pressing lower die is connected, the receiver horizontal transverse movement is pushed to arrive The underface of the second hot pressing upper mold, the 5th pumping device that the second hot pressing upper mold is connected immediately stop swabbing action, turn It is changed to the effect of blowing, makes to disengage between the second hot pressing upper mold and the layered product, and the layered product is blown off the receiver Upper stop；

(22) start the extrinsic motive mechanism horizontal cross that the first hot pressing lower die is connected and move return outward, gearing makes The receiver returns to the position outside the third rack space, then the layered product can be taken from the receiver from.

In the manufacturing method of above-mentioned layered product double suction slurry two sections of hot pressing automatic mouldings of cold extrusion, the thickness of the thick stock product is At least two times of embryo material layer or the lower embryo material layer on this.

In the manufacturing method of above-mentioned layered product double suction slurry two sections of hot pressing automatic mouldings of cold extrusion, which certainly should Taken on receiver from action by make the receiver platform overturn an angle so that the layered product slide and collect.

In the manufacturing method of above-mentioned layered product double suction slurry two sections of hot pressing automatic mouldings of cold extrusion, which certainly should Taken on receiver from action by manually directly take taken automatically from or by mechanical arm from.

In the manufacturing method of above-mentioned layered product double suction slurry two sections of hot pressing automatic mouldings of cold extrusion, the midge upper mold and the suction The upper embryo material layer and lower embryo material layer that lower die is adsorbed respectively are starched, has part moulding and position something in common between the two, also there is part The different place of moulding and position.

In the manufacturing method of above-mentioned layered product double suction slurry two sections of hot pressing automatic mouldings of cold extrusion, the midge upper mold and the suction The upper embryo material layer and lower embryo material layer that slurry lower die is adsorbed respectively, when the two is merged as thick stock product, the two moulding and position are identical Position be bonded, the different position of the two moulding and position is not bonded then, and generates a space and exist.

Compared with prior art, the present invention has significant progress：

1. present invention design makes both the midge upper mold and the midge lower die be inhaled simultaneously in starching case in same processing procedure Slurry, can accelerate manufacturing speed；Such tectonic sieving is current any known layered product manufacturing machine institute nothing.

2. the present invention in processing procedure by both the midge upper mold and the midge lower die, complete to be upper and lower embryo material simultaneously by midge Layer, then be completed at the same time chill with the cold pressing upper mold of a cold pressing mold mechanism and cold pressing lower die and squeeze, then the upper and lower mould of the midge is immersed Molding after starching in the slurry of case keeps the upper and lower embryo material laminated and becomes the thick stock product of double thickness, therefore can increase thickness, With the shock-proof effect of sharp gain layered product；Meanwhile the present invention can make to be formed inside layered product because of the selection in size design Several spaces, so as to enhancing buffering and shock-proof effect.

3. present invention design makes the midge upper mold only account for an operating position jointly with the midge lower die, therefore can reduce The working space of single unit system.

After 4. upper and lower embryo material layer is completed chill extruding by the present invention in processing procedure, then pass through two sections of thermocompression forming operations, The surface of the layered product is shaped as absolute excellent face, especially enables the surface of the layered product be rendered as smooth surface, uses upper foot To promote the overall value sense of package goods.

Description of the drawings

Fig. 1 is the contexture schematic diagram of layered product double suction slurry two sections of hot pressing automatic moulding machines of cold extrusion in the present invention.

Fig. 2 to Figure 23 is the manufacturing method consecutive steps schematic diagram that layered product is manufactured in the present invention.

Figure 24 is the effect schematic diagram that the upper and lower mould of midge while midge form upper and lower embryo material layer in the present invention.

Figure 25 is that the upper and lower mould molding of midge keeps upper and lower embryo material laminated and as the effect schematic diagram of thick stock product in the present invention.

In figure：

1, automatic moulding machine 11, midge upper mold

10, the first rack space 100, slurry case

12, midge lower die 20, cold pressing mold mechanism

200, the second rack space 21, cold pressing upper mold

22, lower die 31, the first hot pressing upper mold are cold-pressed

30, third rack space 32, the first hot pressing lower die

41, the second hot pressing upper mold 42, the second hot pressing lower die

50, receiver 111, space

Specific implementation mode

The specific implementation mode of the present invention is described in further detail below in conjunction with the accompanying drawings.These embodiments are only used for Illustrate the present invention, and not limitation of the present invention.

The present invention provides a kind of manufacturing method of layered product double suction slurry two sections of hot pressing automatic mouldings of cold extrusion, this method fortune Two sections of hot pressing automatic moulding machines of cold extrusion are starched with layered product double suction.

The integrated model of layered product double suction slurry two sections of hot pressing automatic moulding machines of cold extrusion of the present invention is formed such as Fig. 1 institutes Show, is the automatic moulding machine 1 to be a kind of especially suitable for producing layered product, is mainly included on contexture：

One midge upper mold 11 is supported by installing and is present in 10 in one first rack space, the die face of the midge upper mold 11 Downward, which can be done up and down by an extrinsic motive mechanism (such as power cylinder, be not limited) drive when needing Displacement action, the midge upper mold 11 are connect with one first pumping device, and the suction (vacuum) for being subjected to first pumping device is made With or blow (air-supply) effect.

One slurry case 100, is set to the lower section of first rack space 10, inside contains slurry, and the top surface of the slurry case 100 is Openning shape.

One midge lower die 12 is supported and is present in the top surface opening of the slurry case 100, the mould of the midge lower die 12 by installing Up, and symmetrical with 11 die face directed downwardly of midge upper mold, the die face of the midge lower die 12 is higher than the slurry case when not operating 100 slurry face, the midge lower die 12 are connect with one second pumping device, are subjected to the suction (vacuum) of second pumping device (air-supply) effect is acted on or blows, which is also driven by an extrinsic motive mechanism and can do upper and lower displacement when needing Action.The die face of the die face of the midge upper mold 11 and the midge lower die 12 is symmetrical shape person, such as：The mould of the midge upper mold 11 Face is evagination person, then the die face of the midge lower die 12 is indent person.

One cold pressing mold mechanism 20, is supported by installing and is present on one second rack space, 200 top surface, second rack is empty Between 200 be located at first rack space 10 a side, which is provided with a cold pressing upper mold 21 and bottom surface Be provided with a cold pressing lower die 22, the die face of the cold pressing upper mold 21 upward, and the die face of the cold pressing upper mold 21 and the midge upper mold 11 Die face be symmetrical shape, therefore be indent person.The die face of the cold pressing lower die 22 downward, and the die face of the cold pressing lower die 22 and the suction The die face for starching lower die 12 is symmetrical shape, therefore is evagination person.The cold pressing mold mechanism 20 is whole by an extrinsic motive mechanism (such as horse Reach, the configuration of sliding rail and idler wheel, be not limited) push can do horizontal transverse movement.

One first hot pressing upper mold 31 is supported by installing and is set up on the top bottom surface of a third rack space 30 that this Three rack spaces 30 are located at another side of first rack space 10, and the space of the third rack space 30 is relatively long. It is positioned adjacent to first rack space 10 existing for the first hot pressing upper mold 31, therefore its outer side edges still has space.First hot pressing Downward, and the die face of the first hot pressing upper mold 31 and the die face of the midge upper mold 11 are that shape is identical, therefore is to the die face of upper mold 31 Evagination person.The first hot pressing upper mold 31 can be pushed by an extrinsic motive mechanism (such as power cylinder, be not limited) and be done uprightly Upper and lower displacement acts, which connect with a third pumping device, is subjected to the suction of the third pumping device (vacuum) acts on or blows (air-supply) effect.

One first hot pressing lower die 32 is supported by installing and is present in the third rack space 30, the first hot pressing lower die 32 are located at the lower section of the first hot pressing upper mold 31, and the first hot pressing lower die 32 stops in the third rack space 30 when not operating In far from the first hot pressing upper mold 31, the first hot pressing lower die 32 can by an extrinsic motive mechanism (such as motor, sliding rail and The configuration of idler wheel, is not limited) push do horizontal transverse movement, the die face of the first hot pressing lower die 32 upward, and this first heat Die face and the die face of the midge lower die 12 for depressing mould 32 are identical for shape, therefore are indent person.The first hot pressing lower die 32 and one 4th pumping device connects, and the suction (vacuum) of acceptable 4th pumping device acts on or blow (air-supply) effect.

One second hot pressing upper mold 41 is equally set up in by installing support on the top bottom surface of the third rack space 30, And the second hot pressing upper mold 41 is located in the outer side edges space of 31 position of the first hot pressing upper mold, makes the second hot pressing upper mold Both 41 and the first hot pressing upper mold 31 and adjacent erection, the second hot pressing upper mold 41 is located at the first hot pressing lower die 32 when not operating Surface, the die face of the second hot pressing upper mold 41 downward, and the die face of the second hot pressing upper mold 41 and the first hot pressing upper mold 31 die face is identical for shape, therefore is evagination person.The second hot pressing upper mold 41 can be by an extrinsic motive mechanism (such as power cylinder Body is not limited) it pushes and does upright upper and lower displacement action, which connect with one the 5th pumping device, can connect (vacuum) effect is aspirated by the 5th pumping device or blows (air-supply) effect.

One second hot pressing lower die 42 is supported by installing and is present in outside the third rack space 30, under second hot pressing Mould 42 can do horizontal transverse movement with the first hot pressing lower die 32 via same extrinsic motive mechanism urges, the second hot pressing lower die Upward, and the die face of the second hot pressing lower die 42 and the die face of the first hot pressing lower die 32 are that shape is identical, therefore is to 42 die face Indent person.The second hot pressing lower die 42 is connect with one the 6th pumping device, is subjected to the suction (vacuum) of the 6th pumping device Act on or blow (air-supply) effect.

One receiver 50, by installing support and be present in outside the second hot pressing lower die 42, and it is not operating when be present in this Outside third rack space 30, the receiver 50 is with the second hot pressing lower die 42 and the first hot pressing lower die 32 by same external dynamic Level of synchronization transverse shifting is done in force mechanisms promotion, which is equipped with a platform, and the finished product for receiving layered product, which is fallen, to stop It stays.

Above-mentioned construction is the layered product double suction slurry two sections of hot pressing automatic moulding machines of cold extrusion for forming the present invention, wherein institute The extrinsic motive mechanism referred to and first, second, third and fourth, five, six pumping devices are because of the main composition of all non-present invention, and it is made With can obviously set up, therefore it is not illustrated in figure, in case drawing excessively complicated difficult is distinguished.

The contexture of two sections of hot pressing automatic moulding machines of cold extrusion is starched according to above-mentioned layered product double suction, it is provided by the invention Layered product double suction starches the manufacturing method of two sections of hot pressing automatic mouldings of cold extrusion, is to starch cold extrusion with above-mentioned layered product double suction Two sections of hot pressing automatic moulding machines, then carry out following steps：

(1) declined by initial position as shown in Fig. 2, the midge lower die 12 is enabled to be driven by the extrinsic motive mechanism connected It is immersed in the slurry of the slurry case 100.

(2) declined by initial position as shown in figure 3, the midge upper mold 11 is enabled to be driven by the extrinsic motive mechanism connected It is immersed in the slurry of the slurry case 100, and the position that the midge upper mold 11 stops is higher than the midge lower die 12, immediately first pumping It inhales device and second suction unit all starts swabbing action, make the midge upper mold 11 and the midge lower die 12 midge simultaneously, with Embryo material layer on one is formed in the die face of the midge upper mold 11, and embryo material layer is formed in the die face of the midge lower die 12.

(3) as shown in figure 4, suction time one arrives, the midge upper mold 11 is together under the upper embryo material layer adsorbed and the midge Mould 12 is driven respectively by the extrinsic motive mechanism connected together with the lower embryo material layer adsorbed and is moved back into original position, process In, first suction unit and second suction unit still all continue swabbing action, so that embryo material layer and the lower embryo material layer on this All gradually it is dehydrated wet down.

(4) as shown in figure 5, the extrinsic motive mechanism urges cold pressing mold mechanism 20 for starting that the cold pressing mold mechanism 20 is connected Whole (including the cold pressing upper mold 21 and the cold pressing lower die 22) horizontal transverse movement is to the underface of the midge upper mold 11, simultaneously Namely the surface of the midge lower die 12.

(5) as shown in fig. 6, the midge upper mold 11 is enabled to decline with the cold pressing upper mold 21 molding for a period of time, with to the midge The upper embryo material layer adsorbed in upper mold 11 is squeezed, and is risen with the season midge lower die 12 and is molded one section with the cold pressing lower die 22 Time, to squeeze the lower embryo material layer adsorbed in the midge lower die 12, in the process, the midge upper mold 11 connected The second pumping device that one pumping device and the midge lower die 12 are connected all continues swabbing action, make on this embryo material layer and this under Embryo material layer is persistently dehydrated wet down.

(6) it as shown in fig. 7, extrusion time one arrives, enables the midge upper mold 11 adsorb embryo material layer on this and rises return, simultaneously The midge lower die 12 adsorbs the lower embryo material layer and is lowered back to place, and the cold pressing mold mechanism 20 is whole immediately (includes the cold pressing upper mold 21 and the cold pressing lower die 22) horizontal transverse movement return, return on 200 top surface of the second rack space and stop, wait for next line The progress of journey.

(7) as shown in figure 8, then, midge lower die 12 declines and the decline of midge upper mold 11 is immersed under pulp surface when molding one section Between, then, midge upper mold 11, midge lower die 12 hold up midge upper mold 11 by midge lower die 12 under molding state and leave pulp surface, Both lower embryo material layers that the upper embryo material layer that the midge upper mold 11 is adsorbed at this time is adsorbed with the midge lower die 12 are i.e. by the midge Upper mold 11 squeezes with the midge lower die 12 and is combined into a complete thick stock product jointly, and thickness is embryo material layer or lower embryo on this Two times of the bed of material, what the first pumping device and the midge lower die 12 that the midge upper mold 11 is connected during molding squeezes were connected Second pumping device all continues swabbing action, and the thick stock product is made persistently to be dehydrated wet down.

(8) as shown in figure 9, molding extrusion time one arrives, stop the second pumping device that the midge lower die 12 is connected Swabbing action is converted into blowing (air-supply) effect, so as to disengage between the thick stock product and the midge lower die 12,11 institute of midge upper mold First pumping device of connection then continues swabbing action, so that the thick stock product are adsorbed in the midge upper mold 11, then enabling should Midge upper mold 11 adsorbs the thick stock product and rises return, and then holding position is motionless for the midge lower die 12.

(9) as shown in Figure 10, start the extrinsic motive mechanism that the first hot pressing lower die 32 is connected, push first hot pressing 32 horizontal transverse movement of lower die is to the underface of the midge upper mold 11, in the process, the second hot pressing lower die 42 and the receiver 50 Follow movement.

(10) as shown in figure 11, it enables the midge upper mold 11 adsorb thick stock product decline, enters eventually to the midge upper mold 11 Molding, makes the thick stock product between the midge upper mold 11 and the first hot pressing lower die 32 in the first hot pressing lower die 32.

(11) as shown in figure 12, the 4th pumping device that the first hot pressing lower die 32 is connected immediately starts swabbing action, The first hot pressing lower die 32 is set to adsorb the thick stock product, while the first pumping device that midge upper mold 11 is connected stops suction work With being converted into blowing (air-supply) effect, so as to disengaged between the thick stock product and the midge upper mold 11, then the midge upper mold 11 is immediately It moves up and is repositioned to initial position stop, wait for the progress of next stroke.

(12) as shown in figure 13, which is connected extrinsic motive mechanism urges the first hot pressing lower die 32 horizontal cross back move, and the underface for briefly returning to the first hot pressing upper mold 31 stops, the midge upper mold 11, suction at this time Next stroke (i.e. expanded view 2 to the step shown in Figure 12) can be unfolded in slurry lower die 12 and 20 three of the cold pressing mold mechanism simultaneously.

(13) as shown in figure 14, which is connected extrinsic motive mechanism urges the first hot pressing upper mold 31 decline, and enter molding in the first hot pressing lower die 32 to the first hot pressing upper mold 31 eventually, at this time the thick stock product be between this Between one hot pressing upper mold 31 and the first hot pressing lower die 32, therefore the first hot pressing upper mold 31 and the first hot pressing lower die 32 are i.e. common To the thick stock product carry out first segment thermocompression forming operation for a period of time, make the thick stock product drying become a layered product.

(14) as shown in figure 15, the thermocompression forming time one of first segment arrives, the first hot pressing lower die 32 connected the 4th Pumping device starts swabbing action, and the first hot pressing lower die 32 is made to adsorb the layered product, while the first hot pressing upper mold 31 The third pumping device startup connected blows (air-supply) effect, so as to be taken off between the layered product and the first hot pressing upper mold 31 It opens, then the first hot pressing upper mold 31 moves up return immediately.

(15) as shown in figure 16, which is connected extrinsic motive mechanism urges the first hot pressing lower die 32 horizontal cross more back move, and the underface for returning to the second hot pressing upper mold 41 stops.

(16) as shown in figure 17, which is connected extrinsic motive mechanism urges the second hot pressing upper mold 41 decline, make the second hot pressing upper mold 41 enter the first hot pressing lower die 32 in molding, at this time the thick stock product i.e. between this second Between hot pressing upper mold 41 and the first hot pressing lower die 32, the 5th pumping device that then the second hot pressing upper mold 41 is connected starts pumping Suction acts on, and the second hot pressing upper mold 41 is made to adsorb the layered product, while the 4th pumping that the first hot pressing lower die 32 is connected It send device startup to blow (air-supply) effect, makes to disengage between the layered product and the first hot pressing lower die 32.

(17) as shown in figure 18, which is connected extrinsic motive mechanism urges the second hot pressing upper mold 41, which adsorb the layered product, moves up return.

(18) as shown in figure 19, start the extrinsic motive mechanism that the first hot pressing lower die 32 is connected, push second heat 42 horizontal transverse movement of mould is depressed to the underface of the second hot pressing upper mold 41.

(19) as shown in figure 20, which is connected extrinsic motive mechanism urges the second hot pressing upper mold 41 decline, and enter molding in the second hot pressing upper mold 41 to the second hot pressing upper mold 41 eventually, the layered product is i.e. between this at this time Between second hot pressing upper mold 41 and the second hot pressing lower die 42, therefore the second hot pressing upper mold 41 and the second hot pressing lower die 42 are i.e. total For a period of time with the thermocompression forming operation to layered product progress second segment, because of the second hot pressing upper mold 41 and second hot pressing Relatively more careful person can be used in the die face of lower die 42, therefore the thermocompression forming operation of second segment can be by the surface of the layered product It is shaped as absolute excellent face person, the surface of the layered product can at least be enabled to be rendered as smooth surface (the capillary rough surface for having loseed slurry).

(20) as shown in figure 21, the thermocompression forming time one of second segment arrives, the second hot pressing upper mold 41 connected the 5th Pumping device starts swabbing action, and the second hot pressing upper mold 41 is made to adsorb the layered product, while the second hot pressing lower die 42 The 6th pumping device startup connected blows (air-supply) effect, so as to be taken off between the layered product and the second hot pressing lower die 42 It opens, then the second hot pressing upper mold 41 is connected extrinsic motive mechanism urges the second hot pressing upper mold 41 adsorbs molding production Product move up return.

(21) as shown in figure 22, start the extrinsic motive mechanism that the first hot pressing lower die 32 is connected, push the receiver To the underface of the second hot pressing upper mold 41, what the second hot pressing upper mold 41 was connected immediately the 5th pumps 50 horizontal transverse movements Device stops swabbing action, is converted to and blows (air-supply) effect, makes to disengage between the second hot pressing upper mold 41 and the layered product, and The layered product is blown off and is stopped on the receiver 50.

(22) as shown in figure 23, start the extrinsic motive mechanism horizontal cross that the first hot pressing lower die 32 is connected to move outward Dynamic return, gearing make the position (returning to position shown in Fig. 2) that the receiver 50 returns to outside the third rack space 30, then The layered product can be taken from the receiver 50 from.The layered product is taken from the receiver 50 from action can borrow By making the platform of the receiver 50 overturn an angle, so that the layered product slides and collects, it can also be by manually straight Pick up taken automatically from or by mechanical arm from.

After the above all step 1 one carries out, desired mold product can be manufactured, and described be manufactured into The layered product of type except thickness obviously increases be at least two times in addition to, it is empty that buffering can be more produced inside the finished product of layered product Between, to promote pressure-resistant shock-proof effect.It refers to shown in Figure 24, this is i.e. according to abovementioned steps 2 (i.e. as shown in Figure 3), in the midge Mould 11 and the midge lower die 12 are carried out at the same time midge in slurry case 100, in the mould of the midge upper mold 11 and the midge lower die 12 When embryo material layer and lower embryo material layer on one are adsorbed on face respectively, die face set by the midge upper mold 11 with set by the midge lower die 12 The die face set can have part moulding and position something in common, it is possibility to have the different place of part moulding and position, that is, the suction It is the symmetrical fellow of moulding to starch the die face set by upper mold 11 and 12 the two of midge lower die, but has partial portion to have position The otherness set.

Therefore, as shown in figure 25, when according to abovementioned steps 7 (i.e. as shown in Figure 8), enable the midge upper mold 11 under the midge When mould 12 immerses molding in the slurry of slurry case 100, the upper embryo that is adsorbed respectively by the midge upper mold 11 and the midge lower die 12 originally The bed of material and lower embryo material layer are the thick stock product merged as a double thickness, if at this time as can be seen that inside the thick stock product there is Dry space 111, this is because the upper embryo material layer and lower embryo material that are adsorbed respectively by the midge upper mold 11 and the midge lower die 12 originally Layer, because the moulding of the two die face has part to have the otherness on position, when the two is merged as thick stock product, the two moulding and position Identical position to be set to be bonded, the different position of the two moulding and position is not bonded then, therefore after molding and becoming thick stock product, it is former The position of this die face position difference produces the space 111 inside the thick stock product, and thickness can be increased and can be with by reaching The effect for generating cushion space, so as to promoting practicability effect of pressure-resistant shock-absorbing.

In conclusion the present invention has following excellent effect in use：

1. present invention design makes both the midge upper mold 11 and the midge lower die 12 in starching case 100 in same processing procedure Midge simultaneously, can accelerate manufacturing speed；Such tectonic sieving is current any known layered product manufacturing machine institute nothing.

2. the present invention in processing procedure by both the midge upper mold 11 and the midge lower die 12, complete to be upper and lower embryo simultaneously by midge The bed of material, then with one cold pressing mold mechanism 20 cold pressing upper mold 21 and cold pressing lower die 22 be completed at the same time chill squeeze, then by the midge, Lower die immerses molding in the slurry of slurry case 100, keeps the upper and lower embryo material laminated and as the thick stock product of double thickness, therefore can be with Increase thickness, with the shock-proof effect of sharp gain layered product；Meanwhile the present invention can be such that molding produces because of the selection in size design Several spaces are formed inside product, so as to enhancing buffering and shock-proof effect.

3. present invention design makes the midge upper mold 11 and the midge lower die 12 are common only to account for an operating position, therefore can be with Reduce the working space of single unit system.

After 4. upper and lower embryo material layer is completed chill extruding by the present invention in processing procedure, then pass through two sections of thermocompression forming operations, The surface of the layered product is shaped as absolute excellent face, especially enables the surface of the layered product be rendered as smooth surface, uses upper foot To promote the overall value sense of package goods.

The above is only a preferred embodiment of the present invention, it is noted that for the ordinary skill people of the art For member, without departing from the technical principles of the invention, several improvement and replacement can also be made, these improve and replace Also it should be regarded as protection scope of the present invention.

Claims (6)

1. a kind of manufacturing method of layered product double suction slurry two sections of hot pressing automatic mouldings of cold extrusion, which is characterized in that with molding Product double suction starches two sections of hot pressing automatic moulding machines of cold extrusion, which starches two sections of hot pressing automatic moulding machines of cold extrusion, Include：

One midge upper mold, by installing support and be present in one first rack space, the die face of the midge upper mold downward, the midge Upper mold can be done upper and lower displacement action by an extrinsic motive mechanism drive when needing, which connects with one first pumping device It connects, be subjected to the swabbing action of first pumping device or blow effect；

One slurry case, is set to the lower section of first rack space, and inside contains slurry, and the top surface of the slurry case is openning shape；

One midge lower die supported by installing and is present in the top surface opening of the slurry case, the die face of the midge lower die upward, and with The midge upper mold die face directed downwardly is symmetrical, and the die face of the midge lower die is higher than the slurry face of the slurry case, the midge when not operating Lower die is connect with one second pumping device, is subjected to the swabbing action of second pumping device or is blowed effect, the midge lower die It is also driven by an extrinsic motive mechanism and upper and lower displacement action can be done；

One cold pressing mold mechanism is supported by installing and is present on one second rack space top surface, which is located at should A side of first rack space, which is provided with a cold pressing upper mold and bottom surface is provided with a cold pressing lower die, Upward, downward, which is integrally pushed away by an extrinsic motive mechanism die face of the cold pressing lower die die face of the cold pressing upper mold It is dynamic to do horizontal transverse movement；

One first hot pressing upper mold is supported by installing and is set up on the top bottom surface of a third rack space that the third rack is empty Between be located at another side of first rack space, be positioned adjacent to first rack space existing for the first hot pressing upper mold, should Downward, it is dynamic which can do upright upper and lower displacement to the die face of first hot pressing upper mold by an extrinsic motive mechanism urges Make, which connect with a third pumping device, is subjected to the swabbing action of the third pumping device or blows work With；

One first hot pressing lower die supported by installing and is present in the third rack space, the first hot pressing lower die be located at this The lower section of one hot pressing upper mold, the first hot pressing lower die is stayed in the third rack space far from first hot pressing when not operating At upper mold, which can do horizontal transverse movement by an extrinsic motive mechanism urges, the first hot pressing lower die Upward, which connect die face with one the 4th pumping device, be subjected to the 4th pumping device swabbing action or Blow effect；One second hot pressing upper mold, by installing support and be set up on the top bottom surface of the third rack space, and this second Hot pressing upper mold is located in the outer side edges space of the first hot pressing upper mold position, makes the second hot pressing upper mold and first hot pressing Both upper molds and adjacent erection, the second hot pressing upper mold is located at the surface of the first hot pressing lower die, second hot pressing when not operating Downward, which can do upright upper and lower displacement action to the die face of upper mold by an extrinsic motive mechanism urges, this Two hot pressing upper molds are connect with one the 5th pumping device, are subjected to the swabbing action of the 5th pumping device or are blowed effect；

One second hot pressing lower die supported by installing and is present in outside the third rack space, the second hot pressing lower die with this One hot pressing lower die can do horizontal transverse movement via same extrinsic motive mechanism urges, the die face of the second hot pressing lower die upward, The second hot pressing lower die is connect with one the 6th pumping device, is subjected to the swabbing action of the 6th pumping device or is blowed effect； And

One receiver, by installing support and be present in outside the second hot pressing lower die, and it is not operating when be present in the third rack Outside, the receiver are done with the second hot pressing lower die and the first hot pressing lower die by same extrinsic motive mechanism urges synchronous Horizontal transverse movement, the receiver are equipped with a platform, and the finished product for receiving layered product falls stop；

Following steps are carried out again：

(1) it enables the midge lower die be driven by the extrinsic motive mechanism connected and starching for the slurry case is immersed to by initial position decline In material；

(2) it enables the midge upper mold be driven by the extrinsic motive mechanism connected and starching for the slurry case is immersed to by initial position decline In material, and the position that the midge upper mold stops is higher than the midge lower die, immediately first suction unit and second suction unit All start swabbing action, makes the midge upper mold and the midge lower die midge simultaneously, to form one in the die face of the midge upper mold Upper embryo material layer, and embryo material layer is formed in the die face of the midge lower die；

(3) suction time one arrives, and the midge upper mold is together with the upper embryo material layer and the midge lower die adsorbed together with being adsorbed down Embryo material layer is driven by the extrinsic motive mechanism connected be moved back into original position respectively, in the process, first suction unit And second suction unit still all continues swabbing action, so that embryo material layer and the lower embryo material layer are all gradually dehydrated wet down on this；

(4) the extrinsic motive mechanism urges cold pressing mold mechanism integral level for starting that the cold pressing mold mechanism is connected moves laterally to The underface of the midge upper mold, the midge lower die surface；

(5) the midge upper mold is enabled to decline with the cold pressing Ccope closing machine for a period of time, with to the upper embryo adsorbed in the midge upper mold The bed of material is squeezed, and is risen with the season midge lower die and is molded a period of time with the cold pressing lower die, with to institute in the midge lower die The lower embryo material layer of absorption is squeezed, and in the process, the first pumping device and the midge lower die which is connected connect The second pumping device connect all continues swabbing action, and embryo material layer and lower embryo material layer on this is made persistently to be dehydrated wet down；

(6) extrusion time one arrives, and enables the midge upper mold adsorb embryo material layer on this and rises return, while the midge lower die adsorbs The lower embryo material layer is lowered back to place, immediately the cold pressing mold mechanism integral level transverse shifting return；

(7) the midge upper mold decline with the midge lower die decline immerse pulp surface under mold a period of time, then the midge upper mold, should Midge lower die holds up the midge upper mold by the midge lower die in the state of molding and leaves pulp surface, which is adsorbed upper The lower embryo material layer that embryo material layer is adsorbed with the midge lower die is squeezed by the midge upper mold and the midge lower die and is combined into one jointly Complete thick stock product, the first pumping device and the midge lower die that the midge upper mold is connected during molding squeezes connected the Two pumping devices continue swabbing action, and the thick stock product is made persistently to be dehydrated wet down；

(8) molding extrusion time one arrives, and stops the swabbing action for the second pumping device that the midge lower die is connected, is converted into blowing Effect is sent, so that the thick stock product are disengaged with intermode under the midge, the first pumping device which is connected persistently aspirates Effect then enables the midge upper mold adsorb the thick stock product and rises return so that the thick stock product are adsorbed in the midge upper mold, Then holding position is motionless for the midge lower die；

(9) start the extrinsic motive mechanism that the first hot pressing lower die is connected, push the first hot pressing lower die horizontal transverse movement To the underface of the midge upper mold；

(10) it enables the midge upper mold adsorb thick stock product decline, enters in the first hot pressing lower die to the midge upper mold close eventually Mould makes thick stock product intermode under the midge upper mold and first hot pressing；

(11) the 4th pumping device that the first hot pressing lower die is connected starts swabbing action, and the first hot pressing lower die is made to adsorb The thick stock product, while the first pumping device that midge upper mold is connected stops swabbing action, is converted into blowing effect, so that the thickness Embryo product are disengaged with intermode in the midge, and then the midge upper mold moves up return immediately；

(12) the extrinsic motive mechanism urges that the first hot pressing lower die is connected the first hot pressing lower die horizontal cross back moves, The underface for briefly returning to the first hot pressing upper mold stops；

(13) the extrinsic motive mechanism urges that the first hot pressing upper mold is connected the first hot pressing upper mold declines, eventually to first heat Upper mold is pressed to enter molding in the first hot pressing lower die, the thick stock product are between the first hot pressing upper mold and the first hot pressing lower die at this time Between, therefore the first hot pressing upper mold is that jointly the thick stock product are carried out with the thermocompression forming work of first segment with the first hot pressing lower die Industry makes thick stock product drying become a layered product；

(14) the thermocompression forming time one of first segment arrives, and the 4th pumping device which is connected starts suction and makees With making the first hot pressing lower die adsorb the layered product, while the third pumping device that the first hot pressing upper mold is connected opens Dynamic to blow effect, so that the layered product and intermode disengagement in first hot pressing, then the first hot pressing upper mold is immediately to moving up Dynamic return；

(15) the extrinsic motive mechanism urges that the first hot pressing lower die is connected more past return of the first hot pressing lower die horizontal cross It is dynamic, and the underface for returning to the second hot pressing upper mold stops；

(16) the extrinsic motive mechanism urges that the second hot pressing upper mold is connected the second hot pressing upper mold declines, and makes second hot pressing Upper mold enters molding in the first hot pressing lower die, and the thick stock product are i.e. between the second hot pressing upper mold and the first hot pressing lower die at this time Between, the 5th pumping device that then the second hot pressing upper mold is connected starts swabbing action, and the second hot pressing upper mold is made to adsorb The layered product, at the same the first hot pressing lower die connected the 4th pumping device startup blow effect, make the layered product and Intermode disengages under first hot pressing；

(17) the extrinsic motive mechanism urges that the second hot pressing upper mold is connected the second hot pressing upper mold adsorbs the layered product Move up return；

(18) start the extrinsic motive mechanism that the first hot pressing lower die is connected, push the second hot pressing lower die horizontal transverse movement To the underface of the second hot pressing upper mold；

(19) the extrinsic motive mechanism urges that the second hot pressing upper mold is connected the second hot pressing upper mold declines, eventually to second heat Upper mold is pressed to enter molding in the second hot pressing upper mold, the layered product is under the second hot pressing upper mold and second hot pressing at this time Intermode, therefore the second hot pressing upper mold is to carry out the thermocompression forming of second segment to the layered product jointly with the second hot pressing lower die The surface of the layered product is shaped as smooth surface by operation；

(20) the thermocompression forming time one of second segment arrives, and the 5th pumping device which is connected starts suction and makees With making the second hot pressing upper mold adsorb the layered product, while the 6th pumping device that the second hot pressing lower die is connected opens Dynamic to blow effect, so that the layered product is disengaged with intermode under second hot pressing, then the second hot pressing upper mold is connected outer It pushes the second hot pressing upper mold to adsorb the layered product in actuating unit and moves up return；

(21) start the extrinsic motive mechanism that the first hot pressing lower die is connected, push the receiver horizontal transverse movement to this The underface of two hot pressing upper molds, the 5th pumping device that the second hot pressing upper mold is connected immediately stop swabbing action, are converted to Effect is blowed, makes to disengage between the second hot pressing upper mold and the layered product, and the layered product is blown off and on the receiver is stopped It stays；

(22) start the extrinsic motive mechanism horizontal cross that the first hot pressing lower die is connected and move return outward, gearing makes this connect Charging tray returns to the position outside the third rack space, then the layered product can be taken from the receiver from.

2. the manufacturing method of layered product double suction slurry two sections of hot pressing automatic mouldings of cold extrusion according to claim 1, special Sign is, the thickness of the thick stock product is at least two times of embryo material layer or the lower embryo material layer on this.

3. the manufacturing method of layered product double suction slurry two sections of hot pressing automatic mouldings of cold extrusion according to claim 1, special Sign is, which is taken from the receiver from action by making the platform of the receiver overturn an angle so that The layered product slides and collects.

4. the manufacturing method of layered product double suction slurry two sections of hot pressing automatic mouldings of cold extrusion according to claim 1, special Sign is, which is taken from the receiver from action by manually directly take from or by mechanical arm from It is dynamic take from.

5. the manufacturing method of layered product double suction slurry two sections of hot pressing automatic mouldings of cold extrusion according to claim 1, special Sign is, the upper embryo material layer and lower embryo material layer that the midge upper mold and the midge lower die are adsorbed respectively, has part moulding between the two And position something in common, also there is the different place of part moulding and position.

6. the manufacturing method of layered product double suction slurry two sections of hot pressing automatic mouldings of cold extrusion according to claim 5, special Sign is that the upper embryo material layer and lower embryo material layer that the midge upper mold and the midge lower die are adsorbed respectively, the two, which merges, becomes thick stock When product, the identical position of the two moulding and position is bonded, and the different position of the two moulding and position is not bonded then, and is produced A raw space exists.