CN205130249U - Polychrome changes penetrates make -up machine - Google Patents

Abstract

The utility model discloses a polychrome changes penetrates make -up machine, include: hot press mechanism, bear the mechanism, reciprocal moving is carried a mechanism, is lifted mould mechanism and lifting and drop rotating mechanism. Limit the hot pressing region in the hot press mechanism, its outside is limitd and is taken off the compound die region. Bearing the weight of the mechanism and including upper and lower support plate and carousel, the carousel can be promoted to rise and the rotation on locating down the support plate. The support plate is between hot pressing and taking off the compound die region under reciprocating to move to carry mechanism's removal. Lifting mould mechanism and installing in taking off the compound die region, the mould group that is responsible for removing so far carries out the die sinking, puts actions such as foreseeing the compound die. Lifting and drop rotating mechanism includes elevating gear and rotary device, and elevating gear removes rotary device and rises to rise and rotating face plate. Utilize by this the utility model discloses a board just can be directed against solid -state silica gel or solid -state rubber materials with one set of mould group to carry out the polychrome commentaries on classics and penetrates the shaping operation.

Description

A kind of polychrome turns penetrates forming machine

Technical field

The utility model relates to turning penetrates forming machine field, particularly relates to a kind of adopt solid-state silica gel materials and solid rubber raw material to carry out polychrome that polychrome turns ejection formation and turns and penetrate forming machine.

Background technology

As long as the general male model of general Jet forming machine coordinates a master mold can go out a finished product by ejection formation, the raw material adopted generally needs first to be heated to soften into glue, could penetrate pressurization between logical long-distance stirring area flows in die cavity shaping, but also because its raw material flowing distance, easily cause material to go bad variable color and pollution and make product output bad.

Turn that to penetrate its processing mode of forming machine slightly different, generally include one turn in the set of molds adopted and penetrate mould, better simply unitary mould group from top to bottom generally includes pressing mold, turns and penetrate mould and shaping mould.This turn is penetrated die face and is formed at least one jumbo hopper to this pressing mold place, and longitudinally have several material hole, this material hole position is corresponding with multiple die cavitys of this shaping mould.In the process of ejection formation, solid state si (rubber) collagen material is positioned over this turn to penetrate in the hopper of mould, the pressing of each mold in turn storehouse, then vacuumize, thermoplastic the material hole that this turn penetrate mould that is pressed through through this pressing mold enters in the die cavity of shaping mould again, finally intensification baking is shaping.

General for carrying out the ejection formation operation of double-colored or polychrome finished product, usual needs two overlap or the two above set of molds of cover and the heat pressing forming machines of more than 2, solid color ejection formation is completed by one set of die group, take out the another set of set of molds that germule finished product inserts another heat pressing forming machines again, carry out polychrome in conjunction with hot-forming operation, complete finished product that is double-colored or polychrome by this, but by this kind of mode, germule finished product must take out and insert, easily the precision of impact location, and then affects end product quality.

In view of this, how to provide a kind of polychrome to turn and penetrate forming machine, first procedure can be adopted to carry out continuously turning of double-colored or polychrome and penetrate shaping, be the problem that those skilled in the art urgently overcome.

Utility model content

In order to solve the problems of the technologies described above, the utility model provides a kind of polychrome and turns and penetrate forming machine, can adopt first procedure carry out continuously double-colored or polychrome turn penetrate shaping.

According to an aspect of the present utility model, provide a kind of polychrome and turn and penetrate forming machine, it is characterized in that, comprising:

One hot pressing mechanism, portion defines a hot pressing region in the inner, defines a de-matched moulds region in its outside;

One load carrier, comprises support plate on, once support plate and a rotating disk, on this between support plate and rotating disk in order to install a set of molds, this rotating disk be installed on support plate on this and can be pushed rise and rotated;

One reciprocal transfer mechanism, is connected to this lower support plate and moves this lower support plate between this hot pressing region and this de-matched moulds region;

One lifts mold mechanism, is installed on de-matched moulds region, is responsible for mobile set of molds so far to carry out die sinking, mould assembling action; And

One lifting rotation mechanism, be located at the below in de-matched moulds region, comprise a lowering or hoisting gear and a whirligig, lowering or hoisting gear moves whirligig between a lifting position and a down position, and whirligig can contact with rotating disk and drive turntable rotation when lifting position.

Alternatively, load carrier comprises at least one elastic component, is located at the end face of lower support plate, and when upper support plate is in the level of matched moulds, upper support plate is against elastic component.

Alternatively, upper support plate is formed to a few through hole, and load carrier comprises at least one body of rod, and the body of rod protrudes from the end face of lower support plate and elastic component is sheathed on body of rod periphery, when upper support plate is in the level of matched moulds, the body of rod enters through hole and elastic component is resisted against support plate bottom surface.

Alternatively, hot pressing mechanism comprises heating plate on, lifting board and an once heating plate, lower heating plate to be located on lifting board and to be positioned at the below of heating plate, reciprocal transfer mechanism is located at lifting board, lifting board drives lower heating plate, back and forth transfer mechanism and lower support plate synchronously to move up and down, and the space definition wherein gone up between heating plate, lower heating plate is hot pressing region.

Alternatively, reciprocal transfer mechanism comprises a slide rail set and a mobile device, and lower support plate is slidedly arranged on slide rail set and is connected to mobile device, and mobile device drives lower support plate to be displaced between hot pressing region and de-matched moulds region along slide rail set.

Alternatively, mobile device comprises an oil hydraulic cylinder and a piston rod, oil hydraulic cylinder is located at the side of lifting board away from de-matched moulds region, and one end of piston rod connects a piston and is located in oil hydraulic cylinder, and the other end of piston rod extends through hot pressing region and is connected to lower support plate.

Alternatively, lower support plate forms a perforation in the middle of it, rotating disk comprises a disk body and a base, the bottom of disk body is resisted against the end face of lower support plate, base is located at the bottom of disk body, be positioned at perforation place of lower support plate, and form at least one jack, whirligig comprises a motor, one swivel head and at least one inserting column, motor has a driving shaft, swivel head is rotatably located at the driving shaft of motor, inserting column is located at swivel head, when whirligig is positioned at lifting position, inserting column inserts this jack, and swivel head is by the base upwards supporting rotating disk, to raise rotating disk, swivel head is again by the base of inserting column rotary turnplate, the disk body of rotating disk is made to rotate.

Alternatively, base forms two jacks, and whirligig comprises two inserting columns, and two inserting columns are located at swivel head and corresponding two jacks.

Alternatively, end face outstanding at least certain position tenon of lower support plate, disk body forms at least certain hole, position, and when rotating disk is placed on lower support plate by whirligig, location lug enters locating hole, and when whirligig raises rotating disk, this location lug leaves locating hole.

The beneficial effect of embodiment of the present utility model is:

1. can complete and adopt solid state si (rubber) glue to carry out the single board that polychrome turns ejection formation;

2. adopt a single set of set of molds just can carry out polychrome and turn ejection formation operation, save the cost of mould;

3. production efficiency is high, and quality is good, and adopt continous way semi-automation to produce, solid state si (rubber) the collagen material wherein only taking out finished product or storing different colours must be responsible for by manpower, and all the other are all automated job, and production efficiency is good; And do not have must take out the operation of germule finished product as existing mode in process, allow polychrome turn the better quality of injection finished product.

4. not easily there is colour mixture situation in finished product, though what the utility model utilized a single set of set of molds to carry out continuous polychrome turns ejection formation operation, but solid state si (rubber) the collagen material of same color is all positioned over same turn and penetrates in groove in set of molds, therefore colour mixture situation can not be found, and can avoid making a mistake when manually putting material, promote and produce yield.

Accompanying drawing explanation

Fig. 1 represents that polychrome of the present utility model turns the stereogram penetrating forming machine;

Fig. 2 A represents that polychrome of the present utility model turns the exploded view of the load carrier penetrating forming machine;

Fig. 2 B represents that polychrome of the present utility model turns the exploded view of the rotating disk penetrating forming machine;

Fig. 3 represents that polychrome of the present utility model turns the matched moulds stereogram penetrating forming machine;

Fig. 4 represents that polychrome of the present utility model turns and penetrates the stereogram that forming machine load carrier is positioned at hot pressing region;

Fig. 5 A represents that polychrome of the present utility model turns the demoulding of penetrating forming machine and rotating disk rises and revolves the stereogram of turnback;

Fig. 5 B represents the front view of Fig. 5 A;

Fig. 6 represents the schematic perspective view of wherein a kind of set of molds that the utility model adopts;

Fig. 7 A represents the schematic diagram of set of molds of the present utility model at solid state si (rubber) the collagen material of the first color of injection;

Fig. 7 B represents the matched moulds schematic diagram of set of molds of the present utility model;

Fig. 7 C represents that the hot pressing of set of molds of the present utility model turns and penetrates shaping schematic diagram;

Fig. 7 D represents the schematic diagram of solid state si (rubber) the collagen material of first, second color of injection of set of molds of the present utility model;

Fig. 7 E represents that the shaping mould of set of molds of the present utility model revolves the schematic diagram of turnback;

Fig. 7 F represents that set of molds hot pressing of the present utility model turns the schematic diagram penetrating the monochromatic semi-finished product in shaping place and double-colored finished goods;

Fig. 7 G represents that the set of molds demoulding of the present utility model obtains double-colored finished goods and another monochromatic semi-finished product hot pressing is turned the schematic diagram penetrated and mold another double-colored finished goods by preparation.

Wherein in figure:

10 hot pressing mechanisms

11 vacuum (-tight) housings

13 lifting boards

14 times heating plates

20 load carriers

Support plate on 21

211 through holes

2111 large footpath sections

2112 path sections

2113 terraces

212 first projections

22 times support plates

221 rail grooves

222 rotating disk rest areas

2221 perforation

223 location lugs

23 rotating disks

231 disk bodies

2311 first fixing holes

2312 locating holes

232 bases

2321 second fixing holes

2322 jacks

233 securing members

24 elastic components

25 bodies of rod

30 reciprocal transfer mechanisms

31 slide rail set

311 tracks

32 mobile devices

321 oil hydraulic cylinders

322 piston rods

40 first de-mold closing mechanisms

41 first lifting structures

42 first supporting constructions

421 brace tables

4211 first profile grooves

50 second de-mold closing mechanisms

51 second lifting structures

52 second supporting constructions

521 second support arms

5211 second profile grooves

53 cylinders

54 turning devices

60 lifting rotation mechanisms

61 lowering or hoisting gears

611 oil hydraulic cylinders

612 piston rods

62 whirligigs

621 motors

6211 driving shafts

622 swivel heads

623 inserting columns

70 hot pressing regions

80 de-matched moulds regions

100 pressing molds

101 first modules

102 second modules

200 shaping moulds

201 first die cavitys

202 second die cavitys

Penetrate mould for 300 turns

301 first turns of grooves that shoot material

302 second turns of grooves that shoot material

303 side arms

304 second projections

The solid-state silica gel of 400 the first color

401 monochromatic semi-finished product

The solid-state silica gel of 500 the second colors

501 double-colored finished goods

Detailed description of the invention

Below coordinating graphic and element numbers to do more detailed description to embodiment of the present utility model, can implement according to this after studying this description carefully in order to do making to have the knack of this those skilled in the art.

Refer to Fig. 1, Fig. 2 A and Fig. 2 B, Fig. 1 is the stereogram that polychrome of the present utility model turns the principal organ of penetrating forming machine; Fig. 2 A is the exploded view that polychrome of the present utility model turns the load carrier penetrating forming machine; Fig. 2 B is the exploded view that polychrome of the present utility model turns the rotating disk of the load carrier penetrating forming machine.The utility model provides a kind of polychrome to turn and penetrates forming machine, and principal organ comprises the reciprocal transfer mechanism 30, of hot pressing mechanism 10, load carrier 20, and lifts mold mechanism and a lifting rotation mechanism 60.This lifts mold mechanism and comprises the de-mold closing mechanism 50 of one first de-mold closing mechanism 40,1 second further.

This hot pressing mechanism 10 in the inner portion defines a hot pressing region 70, defines a de-matched moulds region 80 in its outside.More particularly, this hot pressing mechanism 10 comprises heating plate on a vacuum (-tight) housing 11, lifting board 13 and an once heating plate 14.On this, heating plate is located in this vacuum (-tight) housing 11, and this lower heating plate 14 to be located on this lifting board 13 and to be positioned at the below of heating plate on this, and this lifting board 13 drives this lower heating plate 14 to move up and down.Space definition wherein on this between heating plate and this lower heating plate 14 is this hot pressing region 70.Detailed construction and the use principle thereof of hot pressing mechanism 10 of the present utility model all belong to prior art, therefore do not repeat them here.In addition, above-mentioned hot pressing mechanism 10 is only an exemplary embodiment, and the hot pressing mechanism of other types also can be applicable in the utility model, and covered within protection domain of the present utility model.

This load carrier 20 comprises support plate 21 on, once support plate 22 and a rotating disk 23.Set of molds used in the present embodiment is installed between this support plate 21 and rotating disk 23, and the number of molds in this set of molds and shape use kenel and different because of manufacturer, are not limited to this single embodiment.This set of molds comprises a pressing mold 100, a turn and penetrates mould 300 and a molding 200 (as shown in Figure 1, only representing its installation site with imaginary line in figure) in the present embodiment.On this, support plate 21 is removably located at its bottom surface in order to pressing mold 100.As shown in Fig. 2 A, 3, in the present embodiment, on this, support plate 21 is I-shaped.In other embodiments, on this, support plate 21 can be rectangle or other geometries.On this, support plate 21 forms four through holes 211, four corners of these through holes 211 support plate 21 on this.Each through hole 211 has large footpath section 2111 and a path section 2112, and this large footpath section 2111 runs through the bottom surface of support plate 21 on this, and this path section 2112 runs through the end face of support plate 21 on this, forms a terrace 2113 between the internal face of this large and small footpath section 2111,2112.The area of this pressing mold 100 is less than the bottom surface of support plate 21 on this, and the centre of set position support plate 21 on this, and the large footpath section 2111 of these through holes 211 can not be hidden.On this, two sides of support plate 21 are respectively provided with 2 first projections 212.This lower support plate 22 is rectangular.The side, bottom surface two of this lower support plate 22 forms two rail grooves 221.The end face of this lower support plate 22 has a rotating disk rest area 222, forms the perforation 2221 of a circle in the middle of this rotating disk rest area 222.The end face of this lower support plate 22 gives prominence to the location lug 223 being at least, and the present embodiment is provided with four.These location lugs 223 are positioned at this rotating disk rest area 222, and equidistant arrangement each other.This load carrier 20 also comprises four elastic components 24, and these elastic components 24 are equidistantly located on the end face of this lower support plate 22, and to lay respectively at outside this rotating disk rest area 222 near four corners of this lower support plate 22 place of these through holes 211 should uploading plate 21.Preferably, this load carrier 20 also comprises four bodies of rod 25, these bodies of rod 25 protrude from the end face of this lower support plate 22 and equidistant around arrangement, and to lay respectively at outside this rotating disk rest area 222 near four corners of this lower support plate 22 to the place of these through holes 211 should uploading plate 21, these elastic components 24 are sheathed on these bodies of rod 25.In other words, an each through hole 211 correspondence wherein body of rod 25 and wherein elastic component 24.Wherein the external diameter of each body of rod 25 is less than the internal diameter of the path section 2112 of each through hole 211.This rotating disk rest area 222 is located at by this rotating disk 23 is be located at its end face with for this shaping mould 200.Specifically, this rotating disk 23 comprises disk body 231 and a base 232.The bottom of this disk body 231 is resisted against this rotating disk rest area 222.This disk body 231 is rounded.Wherein the bottom of this disk body 231 is formed with four the first fixing holes 2311 around its axle center, this base 232 is formed with four the second fixing holes 2321 around its axle center, this rotating disk 23 comprises four securing members 233, these securing members 233 pass these first, second fixing holes 2311,2321, as shown in Figure 2 A and 2 B.By this, this base 232 is fixed on the bottom of this disk body 231 and the axis of the two overlaps.This base 232 is positioned at perforation 2221 place of this lower support plate 22, and between every two the second fixing holes 2321, forms a jack 2322, so be altogether formed with four jacks 2322.This disk body 231 forms four locating holes 2312, and when this disk body 231 is placed on this rotating disk rest area 222, these location lugs 223 enter these locating holes 2312.Though therefore this rotating disk 23 is placed in this lower support plate 22 place, but still can promote to rise, when location lug 223 departs from this locating hole 2312, this rotating disk 23 just can be rotated.

Shown in Fig. 1 and 2A, this reciprocal transfer mechanism 30 is located at this lifting board 13, is connected to this lower support plate and is moved this lower support plate between this hot pressing region and this de-matched moulds region.By this, this lifting board 13 drives this lower heating plate 14, this reciprocal transfer mechanism 30 and this lower support plate synchronously to move up and down.In the present embodiment, this reciprocal transfer mechanism 30 comprises slide rail set 31 and a mobile device 32.This lower support plate 22 is slidedly arranged on this slide rail set 31 and connects this mobile device 32, and this mobile device 32 drives this lower support plate 22 to be displaced between this hot pressing region 70 and this de-matched moulds region 80 along this slide rail set 31.More particularly, this slide rail set 31 comprises two tracks be parallel to each other 311, and a part for this two track 311 is located at this lifting board 13, and another part extends to a de-matched moulds region 80.This mobile device 32 comprises oil hydraulic cylinder 321 and a piston rod 322.This oil hydraulic cylinder 321 is located at the side of this lifting board 14 away from this de-matched moulds region 80.One end of this piston rod 322 connects a piston (not shown) and is located in this oil hydraulic cylinder 321.The other end of this piston rod 322 extends through this hot pressing region 70 and is connected to this lower support plate 22.

This lifts mold mechanism is be placed in de-matched moulds region; the set of molds in mobile so far region is responsible for carry out the action such as die sinking, matched moulds; so that put solid-state silica gel materials and take out finished product; this is multiple different kenel for mechanism can be; in the present embodiment only just wherein a kind of kenel explain, therefore do not limit its scope.This lifts mold mechanism and comprises the first de-mold closing mechanism 40 and the second de-mold closing mechanism 50 in the present embodiment.Wherein this first de-mold closing mechanism is unlatching or the matched moulds of penetrating mould 300 in order to be responsible for this turn, and the second de-mold closing mechanism 50 is responsible for unlatching and the matched moulds of support plate 21 and this pressing mold 100 on this.

This first de-mold closing mechanism 40 is located at the outside in this de-matched moulds region 80, penetrates mould 300 between one first de-molding position and one first die-closed position in order to mobile turning.Specifically, this first de-mold closing mechanism 40 comprises about two groups the first lifting structure 41,2 first supporting constructions 42 configured.These first lifting structures 41 are located at two sides in this de-matched moulds region 80 respectively by middle, and are positioned at the outside of this two track 311.An inner side outstanding brace table 421 respectively of this 2 first supporting construction 42, end face longitudinally recessed 2 first profile grooves 4211 of this brace table 421.This device penetrates mould 300 in order to mobile this turn, and therefore this turn is penetrated mould 300 both sides and be separately fixed wtih a side arm 303, gives prominence to two the second projections 304 respectively outside this side arm 303, and the position that arranges of this second projection 304 is to should the first profile groove 4211.

This second de-mold closing mechanism 50 is located at the outside in this de-matched moulds region 80, and mobile on this support plate 31 between one second de-molding position and one second die-closed position.Specifically, this second de-mold closing mechanism 50 comprises the second lifting structure 51,2 second supporting construction 52, two cylinder 53 and turning device 54 of left and right configuration.These second lifting structures 51 are located at two sides in this de-matched moulds region 80 respectively, and are positioned at the outside of this two track 311.Each second supporting construction 52 takes the shape of the letter U and has 2 second support arms 521.These the second support arms 521 are located at the top of these the second lifting structures 51 respectively, and its end longitudinally recessed one second profile groove 5211.This two cylinder 53 is located at two sides in this de-matched moulds region 80, and is positioned at the outside of this two track 311, and near the position of this hot pressing mechanism 10.This turning device 54 is located between this two cylinder 53.

This lifting rotation mechanism 60 is located at the below in this de-matched moulds region 80, comprises lowering or hoisting gear 61 and a whirligig 62.The top of this lowering or hoisting gear 61 is located at by this whirligig 62.This lowering or hoisting gear 61 moves this whirligig 62 between a lifting position and a down position.More particularly, this lowering or hoisting gear 61 comprises oil hydraulic cylinder 611 and a piston rod 612, and one end of this piston rod 612 connects a piston (not shown) and is positioned at this oil hydraulic cylinder 611.This whirligig 62 comprises motor 621, swivel head 622 and two inserting columns 623.This motor 621 has a driving shaft 6211, and this swivel head 622 is rotatably located at the driving shaft 6211 of this motor 621.The other end of this piston rod 612 is connected to the bottom of this motor 621.This two inserting column 622 be located at this swivel head 621 top and to should wherein two jacks 2322 of base 232 of rotating disk 23.

Below by describing the mode of operation of polychrome Jet forming machine of the present utility model in detail, be only described with regard to two-color injection molding mode in the present embodiment.

One set of molds being installed in advance this load carrier 30, as shown in Figure 6, is the schematic diagram of the set of molds that the present embodiment adopts, but not because restriction only can use this kind of mould.As shown in Fig. 6 and Fig. 7 A, this set of molds comprises pressing mold 100, turns and penetrate mould 300 and shaping mould 200.Raw material is extruded by this pressing mold 100 primary responsibility, comprises two variform one first module 101 and one second modules 102, and this turn is penetrated mould 300 and had one first turn of shoot material groove 301 and one second turn of groove 302 that shoots material.This shaping mould 200 has multiple first die cavity 201 and the second die cavity 202.Have a plurality of material hole run through bottom this first turn shoot material groove 301 and second turn of groove 302 that shoots material, this material hole is relative with this first die cavity 201 and the second die cavity 202.As shown in Figure 1, this pressing mold 100 is fixed on the bottom surface of support plate 21 on this in the present embodiment, and this shaping mould 200 is fixed on the end face of the disk body 231 of this rotating disk 23, and this turn is penetrated mould 300 and be stacked on this shaping mould 200.This turn is penetrated mould 300 both sides and is separately fixed this side arm 303.

Be unlocked at each mould of initial conditions, this pressing mold 100 because being fixed on upper support plate 21, open by this second de-mold closing mechanism 50.This turn is penetrated mould 300 and is opened by this first de-mold closing mechanism 40 start.As shown in Figure 7 A, this pressing mold 100, turn and penetrate mould 300 and become pressing mold 200 in separated position, the solid-state silica gel materials 400 of the first color is inserted first turn of groove 301 that shoots material that this turn penetrates mould 300.

Refer to Fig. 3 and Fig. 7 B, Fig. 4 is the matched moulds stereogram of polychrome Jet forming machine of the present utility model; Fig. 7 B is the matched moulds schematic diagram of set of molds of the present utility model.These first lifting structures 41 of this first de-mold closing mechanism 40 move this 2 first supporting construction 42 and make this turn penetrate mould 300 to move to this first die-closed position.When this turn penetrate mould 300 be positioned at this first die-closed position time, this turn is penetrated mould 300 and is pressed on this shaping mould 200, and first turn of groove 301 that shoots material that this turn penetrates mould 300 aims at the first die cavity 201 of this shaping mould 200.These second lifting structures 51 of this second de-mold closing mechanism 50 move this 2 second supporting construction 52 and move down with support plate on this 21, make support plate 21 on this move to this second die-closed position.When support plate on this 21 is positioned at this second die-closed position.Now, these bodies of rod 25 enter these through holes 211, and this elastic component 243 is resisted against support plate 21 bottom surface on this.By the elastic force of these elastic components 24, make support plate 21 on this penetrate mould 300 with this pressing mold 100 with this turn and keep a distance a little, allow this pressing mold 100 penetrate above mould 300 at this turn, and the first module 101 of this pressing mold 100 aim at first turn of groove 301 that shoots material that this turn penetrates mould 300.

Refer to Fig. 4, the load carrier for polychrome Jet forming machine of the present utility model is positioned at the stereogram in hot pressing region.This piston rod 322 moves this lower support plate 21 along this two track 311 to this hot pressing region 70, this lower support plate 22 also can with this rotating disk 23, this pressing mold 200, this turn penetrate mould 300, this shaping mould 100 and on this support plate 21 to this hot pressing region 70.

As seen in figure 7 c, this set of molds is in feeding hot pressing region 70, vacuum (-tight) housing 11 decline is afterwards fitted with lower support plate 12 and vacuumizes, lifting board 13 rises, allow pressing mold 100 and this turn penetrate mould 300 contact, and then make the solid-state silica gel materials 400 of the first color by after thermal softening, entered this first die cavity 201 by first turn of groove 301 extruding that shoots material that this first module 101 penetrates mould 300 from this turn.Play heating plate 13 and lower heating plate 14 to heat extrusion forming afterwards, the solid-state silica gel materials 400 of this first color in the first die cavity 201 of this shaping mould 200 hot-forming go out monochromatic semi-finished product 401.

Then these monochromatic semi-finished product 401 are shifted out this folding mould region 80 operation by hot pressing region 70 is carried out.This lifting board 13 by this lower heating plate 14, this load carrier 20, this pressing mold 100, this shaping mould 200, this turn penetrates mould 300, this reciprocal transfer mechanism 30 moves down, and makes this lower heating plate 14, this load carrier 20, this pressing mold 100, this shaping mould 200, this turn penetrate mould 300, this reciprocal transfer mechanism 30 away from heating plate on this 12.Now, support plate on this 21 slightly struts by the elastic force of these elastic components 24.

As shown in Fig. 5 A and Fig. 5 B, this lower support plate 22 is moved back to this de-matched moulds region 80 along this two track 311 by this piston rod 322.Second lifting structure 51 of this second de-mold closing mechanism 50 moves this 2 second supporting construction 52 upwards.In the process that this 2 second supporting construction 52 moves up, on this, the first projection 212 of support plate 21 can enter these second profile grooves 5211 again, and moved to by this 2 second supporting construction 52, until one end of support plate 21 is met this turning device 54 and upwards overturns on this, by this, on this, support plate 21 gets back to this second de-molding position.First lifting structure 41 of this first de-mold closing mechanism 40 moves this 2 first supporting construction 42 upwards.In the process that this 2 first supporting construction 42 moves up, the second projection 802 that this turn penetrates mould 300 can enter these first profile grooves 4211 again, and is moved to by this 2 first supporting construction 42, and by this, this turn is penetrated mould 300 and departed from this shaping mould 200.As illustrated in fig. 7d, once again the solid-state silica gel materials 400 of the first color is penetrated first turn of groove 301 that shoots material of mould 300 in this turn, the solid-state silica gel materials 500 of the second color is positioned over second turn of groove 302 that shoots material that this turn penetrates mould 300 simultaneously.

Then carry out rotating this rotating disk 23, change the action of this shaping mould 200 position.The piston rod 612 of this lowering or hoisting gear 61 moves this whirligig 62 and rises to this lifting position, this two inserting column 623 inserts wherein two jacks 2322, and this swivel head 622 is by the base 232 upwards supporting this rotating disk 23, to raise this rotating disk 23, the disk body 231 of this rotating disk 23 leaves this lower support plate 21, and these location lugs 223 leave these locating holes 2312.The driving shaft 6211 of this motor 621 drives this swivel head 622 to rotate 180 degree, this swivel head 622 rotates the base 232 of this rotating disk 23 by this two inserting column 623, the disk body 231 of this rotating disk 23 is made to rotate 180 degree, change the position of the first die cavity 201 on this shaping mould 200 and the second die cavity 202 by this, as seen in figure 7e.After this rotating disk 23 completes rotation, the piston rod 612 of this lowering or hoisting gear 61 moves this whirligig 62 and drops to this down position, and the disk body 231 of this rotating disk 23 gets back to this rotating disk rest area 222, and these location lugs 223 enter these locating holes 2312.

According to aforesaid mould assembling action, the first turn of groove 301 that shoots material this turn being penetrated mould 300 aims at the second die cavity 202 of this shaping mould 200, and second turn of groove 302 that shoots material that this turn penetrates mould 300 aims at the first die cavity 201 of this shaping mould 200.Then according to aforesaidly to vacuumize, heat material extrusion, heating pressurization and add the heat press forming action such as sulphur, the solid-state silica gel materials 500 of this second color is molded on the monochromatic semi-finished product 401 of the first die cavity being positioned at this shaping mould, and mold a double-colored finished goods 501, second die cavity 202 of this shaping mould 200 molds another monochromatic semi-finished product 401, as shown in Figure 7 F.Last according to aforesaid stripping action and again by this turntable rotation 180 degree, a double-colored finished goods 501 can be obtained, these monochromatic semi-finished product 401 then can continue aforementioned mould assembling action, vacuumize, heat material extrusion, heating pressurization and add the heat press forming action such as sulphur and stripping action to mold another double-colored finished goods 501, as shown in Figure 7 G.

This hot pressing mechanism 10, this load carrier 20, this reciprocal transfer mechanism 30, this first de-mold closing mechanism 40, this second de-mold closing mechanism 50 and this lifting rotation mechanism 60 are integrated into the machinery that one set of die group (pressing mold 100, shaping mould 200 and turn penetrate mould 300) can be utilized automatically to carry out polychrome ejection formation continuously by polychrome Jet forming machine system of the present utility model, and be adopt solid-state silica gel materials to carry out polychrome ejection formation, production efficiency is high, quality is good, meets the important document of patent application.As described above is only to explain preferred embodiment of the present utility model; not attempt does any pro forma restriction to the utility model according to this; be with; all to have under identical creation spirit do relevant any modification of the present utility model or change, all must be included in the category of the utility model intention protection.

Claims (9)

1. polychrome turns and penetrates a forming machine, it is characterized in that, comprising:

One hot pressing mechanism, portion defines a hot pressing region in the inner, defines a de-matched moulds region in its outside;

One load carrier, comprises support plate on, once support plate and a rotating disk, and in order to install a set of molds between described upper support plate and described rotating disk, described rotating disk is installed on described upper support plate and can be pushed and rises and rotated;

One reciprocal transfer mechanism, is connected to described lower support plate and moves described lower support plate between described hot pressing region and described de-matched moulds region;

One lifts mold mechanism, is installed on described de-matched moulds region, is responsible for mobile described set of molds so far to carry out die sinking, mould assembling action; And

One lifting rotation mechanism, be located at the below in described de-matched moulds region, comprise a lowering or hoisting gear and a whirligig, described lowering or hoisting gear moves described whirligig between a lifting position and a down position, and described whirligig can contact with described rotating disk and drive described turntable rotation when described lifting position.

2. polychrome according to claim 1 turns and penetrates forming machine, and it is characterized in that, described load carrier comprises at least one elastic component, is located at the end face of described lower support plate, and when described upper support plate is in the level of matched moulds, described upper support plate is against described elastic component.

3. polychrome according to claim 2 turns and penetrates forming machine, it is characterized in that, described upper support plate is formed to a few through hole, described load carrier comprises at least one body of rod, the described body of rod protrudes from the end face of described lower support plate and described elastic component is sheathed on described body of rod periphery, when described upper support plate is in the level of matched moulds, the described body of rod enters described through hole and described elastic component is resisted against described upper support plate bottom surface.

4. polychrome according to claim 1 turns and penetrates forming machine, it is characterized in that, described hot pressing mechanism comprises heating plate on, lifting board and an once heating plate, described lower heating plate to be located on described lifting board and to be positioned at the below of described upper heating plate, described reciprocal transfer mechanism is located at described lifting board, described lifting board drives described lower heating plate, described reciprocal transfer mechanism and described lower support plate synchronously to move up and down, and the space definition between wherein said upper heating plate, lower heating plate is described hot pressing region.

5. polychrome according to claim 4 turns and penetrates forming machine, it is characterized in that, described reciprocal transfer mechanism comprises a slide rail set and a mobile device, described lower support plate is slidedly arranged on described slide rail set and is connected to described mobile device, and described mobile device drives described lower support plate to be displaced between described hot pressing region and described de-matched moulds region along described slide rail set.

6. polychrome according to claim 5 turns and penetrates forming machine, it is characterized in that, described mobile device comprises an oil hydraulic cylinder and a piston rod, described oil hydraulic cylinder is located at the side of described lifting board away from described de-matched moulds region, one end of described piston rod connects a piston and is located in described oil hydraulic cylinder, and the other end of described piston rod extends through described hot pressing region and is connected to described lower support plate.

7. polychrome according to claim 1 turns and penetrates forming machine, it is characterized in that, described lower support plate forms a perforation in the middle of it, described rotating disk comprises a disk body and a base, the bottom of described disk body is resisted against the end face of described lower support plate, described base is located at the bottom of described disk body, be positioned at perforation place of described lower support plate, and form at least one jack, described whirligig comprises a motor, one swivel head and at least one inserting column, described motor has a driving shaft, described swivel head is rotatably located at the driving shaft of described motor, described inserting column is located at described swivel head, when described whirligig is positioned at described lifting position, described inserting column inserts described jack, and described swivel head is by the base upwards supporting described rotating disk, to raise described rotating disk, described swivel head rotates the base of described rotating disk again by described inserting column, the disk body of described rotating disk is made to rotate.

8. polychrome according to claim 7 turns and penetrates forming machine, and it is characterized in that, described base forms two jacks, and described whirligig comprises two inserting columns, and described two inserting columns are located at described swivel head and corresponding two jacks.

9. polychrome according to claim 7 turns and penetrates forming machine, it is characterized in that, end face outstanding at least certain position tenon of described lower support plate, described disk body forms at least certain hole, position, when described rotating disk is placed on described lower support plate by described whirligig, described location lug enters described locating hole, and when described whirligig raises described rotating disk, described location lug leaves described locating hole.