CN205443807U - Make -up machine is moulded to two removing from mould paper - Google Patents

Abstract

The utility model provides a make -up machine is moulded to two removing from mould paper, includes the frame, indulges, sideslip mechanism, drag for the thick liquid and take embryo mould and a pair of hot -pressing die. The frame contains from north to south, horizontal portion, vertical, sideslip mechanism sets up in from north to south respectively, horizontal portion, drag for the thick liquid and take the embryo mould contain by indulge the telephone -moving construct drive take on the embryo mould with can with take on the embryo mould compound die and hand over the embryo drag for the thick liquid lower mould, hot -pressing die contains in the hot pressing mould and by the hot pressing lower mould that sideslip mechanism drove, takes on the embryo mould respectively with each hot pressing lower mould compound die and hand over the embryo, and the upper and lower mould of each hot pressing is compound die and hot pressing respectively then, wherein, drag for the thick liquid lower mould and hand over the embryo to give the time of each hot pressing lower mould indirectly many times, be close to or be same as each hot -pressing die mutually accomplishing the hot pressing total of dry indivedual times respectively. By adopting the above structure, the utility model the component can reach promotion frame stationarity and heavy water drags for the effect that the thick liquid stroke need not to wait for the dry stroke of hot pressing.

Description

Double removing from mould paper-plastic shaping machines

Technical field

This utility model relates to a kind of paper-plastic shaping machine, particularly relates to a kind of double removing from mould paper-plastic shaping machine.

Background technology

About existing paper (paper pulp mold) forming machine, the stock tank including support body and being arranged at support body and many digital-to-analogues, dragging for slurry with water heavy in stock tank and after matched moulds forms wet embryo, wet embryo is dried to required paper article by recycling matched moulds drying mode, reaches the purpose of paper plastic forming.

But, existing paper-plastic shaping machine exist have the disadvantage that one, support body is for in-line sectional board, the area that lands belongs to rectangle and unstable, and then causes shaking in operation, affect the matched moulds of the male and female mould of mould, even easily in the case of deviation matched moulds and cause mould impaired.Two, the time of the wet embryo of heat drying drags for slurry much larger than heavy water and forms the time of wet embryo, the mould causing heavy water to drag for slurry must wait drying die to complete to be dried, could then carry out next heavy water and drag for slurry action, therefore on manufacturing, have portion of time and be wasted in wait, affect efficiency to huge.Three, support body is to make for assembling, connecting, and causes overall structure more built on the sand, and is prone to because the wet embryo of heat drying etc. is prone to thermal deformation by thermal behavior, and then affects the tolerance of the male and female mould of mould, causes product yield low.

Summary of the invention

The purpose of this utility model is to provide a kind of double removing from mould paper-plastic shaping machine, frame can be allowed smoothly to stand on ground, to have the effect not shaking and not interfering with mould matched moulds；And heavy water can be allowed to drag for slurry stroke without waiting for hot-pressing drying stroke, lifting manufacture efficiency.

In order to reach above-mentioned purpose, this utility model provides a kind of double removing from mould paper-plastic shaping machine, including a frame, having an activity space and comprise the longitudinal part and a transverse part that crossover connects the most in length and breadth, the corresponding described activity space position of described frame is provided with a stock tank at described longitudinal part；One vertical shift mechanism, the roof of corresponding described activity space position is arranged at described longitudinal part；One drags for slurry and band embryo mould, comprise by move in a band embryo upper mold of described vertical shift mechanism and can lift in described stock tank and with described band embryo Ccope closing machine hand over the one of embryo to drag for slurry lower mold；One transverse-moving mechanism, the diapire of corresponding described activity space position is arranged at described transverse part；And a pair hot-die, each described hot-die comprises a hot pressing upper mold and by moving the hot pressing lower mold in described transverse-moving mechanism, described band embryo upper mold can respectively with described each hot pressing lower mold matched moulds hand over embryo, described each hot pressing upper mold then can be with described each hot pressing lower mold matched moulds hot pressing；Wherein, described in drag for slurry lower mold and repeatedly hand over embryo to give described band embryo upper mold and described band embryo upper mold hands over embryo to give the time of described each hot pressing lower mold the most respectively, be close or be same as the summation that described each hot-die is respectively completed the respective time of hot-pressing drying.

Preferably, above-mentioned frame is made of one piece.The described longitudinal part of above-mentioned frame and described transverse part are T-shaped configurations.

Preferably, above-mentioned each hot-die is disposed in two ends of described transverse part respectively, and described longitudinal part crossover is connected between described two ends of described transverse part.

Preferably, above-mentioned band embryo upper mold and each hot pressing upper mold are all a vac sorb mould.

Preferably, above-mentioned band embryo upper mold is provided with a band embryo elevating mechanism, described slurry lower mold of dragging for is provided with one and drags for slurry elevating mechanism, described drag for slurry lower mold moved in described drag for slurry elevating mechanism and energy matched moulds in described band embryo upper mold, described band embryo upper mold is moved can distinguish matched moulds in described hot pressing lower mold in described band embryo elevating mechanism.

Preferably, above-mentioned each hot pressing upper mold is respectively arranged with a hot pressing elevating mechanism, and described each hot pressing upper mold is moved can distinguish matched moulds in described each hot pressing lower mold in described hot pressing elevating mechanism.

Preferably, the rail structure and at least of indulging for a pair that above-mentioned vertical shift mechanism comprises the described longitudinal part being arranged at described frame indulges driving screw structure.

Preferably, above-mentioned transverse-moving mechanism comprises a pair horizontal rail structure and at least one horizontal driving screw structure of the described transverse part being arranged at described frame.

Preferably, described in the utility model pair of removing from mould paper-plastic shaping machine also includes a pair guiding carrier and a pair pallet, and the most corresponding above-mentioned each hot-die position of described each guiding carrier is also arranged at above-mentioned transverse part, and described each pallet is respectively provided with and is moved in described each guiding carrier.

Preferably, above-mentioned each guiding carrier guides above-mentioned each pallet respectively along the lower section longitudinally travelling to and fro between above-mentioned each hot pressing upper mold.

Compared to prior art, this utility model has following effect: frame can be made smoothly to stand on the ground, so that will not shake during machine operation, and then ensures the matched moulds of male and female mould and avoids impaired；Heavy water can also be made to drag for slurry stroke without waiting for hot-pressing drying stroke, thus promote manufacture efficiency.

Accompanying drawing explanation

Fig. 1 is this utility model front-view schematic diagram before action.

Fig. 2 is this utility model schematic top plan view before action.

Fig. 3 is this utility model another schematic top plan view before action.

Fig. 4 is this utility model another front-view schematic diagram before action, display stock tank in drag for slurry lower mold.

Fig. 5 is to drag for slurry lower mold rising matched moulds in this utility model in the front-view schematic diagram of band embryo upper mold.

Fig. 6 is to drag for the front-view schematic diagram in slurry lower mold sinking overfall groove in this utility model.

Fig. 7 is the schematic top plan view of band embryo upper mold reach in this utility model.

Fig. 8 is that in this utility model, band embryo upper mold declines and matched moulds is in the front-view schematic diagram of right hot pressing lower mold.

Fig. 9 is to move after band embryo upper mold in this utility model, and the schematic top plan view that left and right hot pressing lower mold moves to right simultaneously.

Figure 10 is to drag for slurry lower mold in this utility model to rise and matched moulds is in band embryo upper mold, and the front-view schematic diagram of the upper and lower mould of right hot pressing matched moulds hot pressing each other.

Figure 11 is the schematic top plan view that in this utility model, band embryo upper mold moves forward again.

Figure 12 is that in this utility model, band embryo upper mold declines again and matched moulds is in the front-view schematic diagram of left hot pressing lower mold.

Figure 13 is the front-view schematic diagram that in this utility model, band embryo upper mold rises.

Figure 14 is in this utility model, the schematic top plan view that left hot pressing lower mold moves to left and moves after band embryo upper mold.

Figure 15 is in this utility model, and left hot pressing upper mold declines and left hot pressing lower mold matched moulds and hot pressing, the front-view schematic diagram that right hot pressing upper mold then rises.

Figure 16 is in this utility model, and right pallet enters the schematic top plan view below right hot pressing upper mold.

Figure 17 is in this utility model, and right pallet enters the front-view schematic diagram below right hot pressing upper mold.

Figure 18 is in this utility model, moulding/demoulding in right hot pressing and fall on right pallet, and drag for slurry lower mold rise and matched moulds in the front-view schematic diagram of band embryo upper mold.

[main components symbol description]

100 ... frame

1 ... activity space

11 ... stock tank

200 ... longitudinal part

2 ... vertical shift mechanism

21 ... vertical rail structure

22 ... vertical driving screw structure

3 ... drag for slurry and band embryo mould

31 ... band embryo upper mold

311 ... band embryo elevating mechanism

32 ... drag for slurry lower mold

321 ... drag for slurry elevating mechanism

500 ... transverse part

5 ... transverse-moving mechanism

51 ... horizontal rail structure

52 ... horizontal driving screw structure

6 ... hot-die

61 ... hot pressing upper mold

62 ... hot pressing lower mold

63 ... hot pressing elevating mechanism

64 ... guide rod group

65 ... pallet

66 ... guiding carrier

7 ... hot-die

71 ... hot pressing upper mold

72 ... hot pressing lower mold

73 ... hot pressing elevating mechanism

74 ... guide rod group

75 ... pallet

S1 ... the first idiosome

S2 ... the second idiosome.

Detailed description of the invention

About detailed description of the present utility model and technology contents, coordinate accompanying drawing to be described as follows, but described accompanying drawing only provides reference and explanation use, and be not used to limit this utility model.

This utility model is to provide a kind of double removing from mould paper-plastic shaping machine, that is a heavy water drags for slurry stroke, arrange in pairs or groups two (more than or) hot-pressing drying strokes, and after completing hot-pressing drying, the paper article after molding are exported (two output points) respectively, so reach double go out and without waiting for effect.

As shown in Fig. 1 ~ Fig. 4, paper-plastic shaping machine described in the utility model includes: frame 100, vertical shift mechanism 2, drags for slurry and band embryo mould 3, transverse-moving mechanism 5 and a pair hot-die 6,7.

Frame 100 can be formed in one the support body made and have an activity space 1, for dragging for slurry and band embryo mould 3 and hot-die 6,7 is movable.Frame 100 comprises longitudinal part 200 and the transverse part 500 that a vertical and one horizontal ground crossover connects each other, preferably by longitudinal part 200 and the T-shaped configuration of transverse part 500 (see Fig. 2), therefore smoothly can stand on the ground in 3 coplanar modes.Wherein, frame 100 is that corresponding activity space 1 position is provided with a stock tank 11 at longitudinal part 200.

Vertical shift mechanism 2 is that the roof of corresponding activity space 1 position is arranged at longitudinal part 200.Vertical shift mechanism 2 preferably includes and is arranged at the rail structure 21 and at least of indulging for a pair of longitudinal part 200 and indulges driving screw structure 22, and vertical rail structure 21 and vertical driving screw structure 22 are all along longitudinal configuration.

The diapire of transverse-moving mechanism 5 then corresponding activity space 1 position is arranged at transverse part 500, and alleged roof and diapire are relative to each other.Transverse-moving mechanism 5 preferably then includes a pair horizontal rail structure 51 and at least one horizontal driving screw structure 52 being arranged at transverse part 500, and horizontal rail structure 51 and horizontal driving screw structure 52 are all along landscape configuration, as in figure 2 it is shown, and make one end crossover of vertical shift mechanism 2 be connected between the both ends of transverse part 500.

Drag for slurry and band embryo mould 3 comprise by move in a band embryo upper mold 31 of vertical shift mechanism 2 and can lift stock tank 11 in and with band embryo upper mold 31 matched moulds hand over the one of embryo (friendship embryo is to band embryo upper mold 31) to drag for starch lower mold 32.Drag for slurry lower mold 32 be provided with one drag for slurry elevating mechanism 321, with control drag for slurry lower mold 32 lift stock tank 11 in, and in drag for starch lower mold 32 rise time and band embryo upper mold 31 matched moulds and thereby form a wet embryo.Owing to band embryo upper mold 31 is a vac sorb mould, reach friendship embryo (the first idiosome S1 joins Fig. 5) action so that wet embryo can be adsorbed.Wherein, band embryo upper mold 31 is provided with a band embryo elevating mechanism 311, lifts controlling band embryo upper mold 31, and when band embryo upper mold 31 declines with hot pressing lower mold matched moulds described later hand over embryo (handing over embryo to hot pressing lower mold).

Paired hot-die 6,7, each hot-die 6,7 all comprises a hot pressing upper mold 61,71 and by moving the hot pressing lower mold 62,72 in transverse-moving mechanism 5.Aforementioned strip embryo upper mold 31 can respectively with each hot pressing lower mold 62,72 matched moulds hand over embryo (hand over embryo to hot pressing lower mold 62,72), each hot pressing upper mold 61,71 in order to each hot pressing lower mold 62,72 matched moulds hot pressing.Wherein, band embryo upper mold 31 can shed vacuum adsorption force and hand over embryo to hot pressing lower mold 62,72；Each hot pressing upper mold 61,71 can be the most all a vac sorb mould, with that can adsorb the idiosome (ginseng Figure 10 shown in first, second idiosome S1, S2) that comes from hot pressing lower mold 62,72 and reach the action of handing over embryo to each hot pressing upper mold 61,71.

In addition, each hot pressing upper mold 61,71 is also respectively provided with a hot pressing elevating mechanism 63,73, each hot pressing upper mold 61,71 is moved distinguishes matched moulds in each hot pressing lower mold 62,72 in each hot pressing elevating mechanism 63,73, and give hot pressing, to reach the purpose of the wet embryo of heat drying when each hot pressing upper mold 61,71 is respectively with each hot pressing lower mold 62,72 matched moulds.

Such as Figure 16 and arrange in pairs or groups shown in Fig. 1 ~ Fig. 4, better embodiment of the present utility model also includes a pair guiding carrier 66 (another guiding carrier does not shows in figure) and a pair pallet 65,75, the most corresponding two hot-die 6,7 positions of two guiding carriers 66 are arranged at transverse part 500, two 65,75, pallets are respectively provided with and are moved in two guiding carriers 66, to allow each guiding carrier 66 guide each pallet 65,75 respectively along the lower section longitudinally travelling to and fro between each hot pressing upper mold 61,71, thus allow the paper products after molding fall on pallet 65,75, and discharging according to this.

Moved starch elevating mechanism 321 and rise as it is shown in figure 5, drag for slurry lower mold 32 in dragging for, with band embryo upper mold 31 matched moulds form one first idiosome S1.

As shown in Figure 6, drag for slurry lower mold 32 to be moved and starch elevating mechanism 321 and decline and return and sink in stock tank 11 in dragging for；Meanwhile, band embryo upper mold 31 utilizes true absorption affinity to siphon away the first idiosome S1, to complete to hand over blastokinesis to make.

As it is shown in fig. 7, band embryo upper mold 31 is advanced to the centre of transverse part 500 by moving in vertical shift mechanism 2.Now, coordinating shown in Fig. 6, the hot pressing lower mold 62 on the right moves to left the centre to transverse part 500 the most in advance, makes above the band embryo upper mold 31 just position mould 62 under heat after reach.

As shown in Figure 8, band embryo upper mold 31 is moved to be declined in band embryo elevating mechanism 311, makes band embryo upper mold 31 matched moulds and hands over embryo to hot pressing lower mold 62.After handing over embryo, band embryo upper mold 31 is then moved rises (not showing in Fig. 8, can join shown in Figure 13) in band embryo elevating mechanism 311.

Then moved to drag for above slurry lower mold 32 as it is shown in figure 9, band embryo upper mold 31 moves in vertical shift mechanism 2；Meanwhile, hot pressing lower mold 62,72 being moved moves to right together in transverse-moving mechanism 5, makes hot pressing lower mold 62 come the lower section of hot pressing upper mold 61, and hot pressing lower mold 72 then comes the centre of transverse part 500.

As shown in Figure 10, drag for slurry lower mold 32 again moved in drag for starch elevating mechanism 321 and rise, with with band embryo upper mold 31 matched moulds form one second idiosome S2, band embryo upper mold 31 then vac sorb the second idiosome S2, drag for slurry lower mold 32 hand over embryo to band embryo upper mold 31 second idiosome S2 to allow；Meanwhile, hot pressing upper mold 61 is moved to be declined in hot pressing elevating mechanism 63, makes hot pressing upper mold 61 matched moulds in hot pressing lower mold 62 and to the first idiosome S1 heat drying.

As shown in figure 11, band embryo upper mold 31 is advanced to the centre of transverse part 500 by moving in vertical shift mechanism 2 again；Now, hot-die 6 is still in the first idiosome S1 hot-pressing drying.

As shown in figure 12, band embryo upper mold 31 is moved again to be declined in band embryo elevating mechanism 311, makes band embryo upper mold 31 matched moulds and hands over embryo to hot pressing lower mold 72 second idiosome S2；Now, hot-die 6 is still in the first idiosome S1 hot-pressing drying.

As shown in figure 13, band embryo upper mold 31 is again moved and is risen in band embryo elevating mechanism 311；Now, hot-die 6 is still in the first idiosome S1 hot-pressing drying.

As shown in figure 14, band embryo upper mold 31 is again moved and is then moved to drag for above slurry lower mold 32 in vertical shift mechanism 2；Meanwhile, hot pressing lower mold 72 also is subject to move the lower section moved to left to hot pressing upper mold 71 in transverse-moving mechanism 5.Now, hot-die 6 is still in the first idiosome S1 hot-pressing drying.

As shown in figure 15, hot pressing upper mold 71 is moved to be declined in hot pressing elevating mechanism 73, makes hot pressing upper mold 71 matched moulds in hot pressing lower mold 72 and to the second idiosome S2 heat drying；Meanwhile, hot-die 6 has completed hot-pressing drying journey and has given, and therefore, hot pressing upper mold 61 is moved to be risen in hot pressing elevating mechanism 63, and adsorbs the paper products that the first idiosome S1 is formed after drying by pull of vacuum.

As shown in Figure 16 and Figure 17, hot pressing lower mold 62 is moved left to the centre of transverse part 500 by moving in transverse-moving mechanism 5.Pallet 65 is then moved into the lower section of hot pressing upper mold 61 by moving in guiding carrier 66.Now, hot-die 7 is still in the second idiosome S2 hot-pressing drying.

As shown in figure 18, hot pressing upper mold 61, by shedding pull of vacuum, drops on pallet 65 with the paper products allowing the first idiosome S1 be formed after drying and exports.Now, drag for slurry lower mold 32 moved in drag for starch elevating mechanism 321 and rise, with with band embryo upper mold 31 matched moulds form another the first idiosome, as long as making band embryo upper mold 31 move forward again and decline the most as shown in Figure 7 and Figure 8, just embryo can be handed over another first idiosome to hot pressing lower mold 62, then according still further to the sequentially-operating of Fig. 9 ~ Figure 18 and circulate, just can constantly with double go out mode (both ends at transverse part 500 utilize two pallets 65,75 outputs respectively) make required paper products.

Briefly, dragging for slurry lower mold 32 hands over embryo to hand over embryo to two hot pressing lower molds 62,72 times the most once the most respectively to band embryo upper mold 31 twice and band embryo upper mold 31, by can close to or be same as the summation that two hot-dies 6,7 are respectively completed the respective time of hot-pressing drying, thus reach heavy water and drag for slurry row and move the journey purpose without waiting for hot-pressing drying stroke.

Additionally, the better embodiment of aforementioned each hot-die 6,7 is to be disposed in two ends of transverse part 500 respectively, longitudinal part 200 then crossover is connected between described two ends of transverse part 500.As for hot pressing elevating mechanism 63,73, then via being erected at two guide rod groups 64,74 of frame 100 and upper and lower displacement.

In sum, this utility model has following effect compared to prior art: owing to frame 100 is to comprise the longitudinal part 200 and transverse part 500 that crossover connects the most in length and breadth, to make the frame 100 can be in 3 coplanar modes, smoothly stand on the ground, therefore in this utility model paper-plastic shaping machine operation, will not shake, and because will not shake and ensure the matched moulds of male and female mould and avoid impaired.Design due to special mechanism and distinctive configuration again, so that heavy water drags for slurry stroke without waiting for hot-pressing drying stroke, thus without having influence on product manufacturing efficiency.

In addition, this utility model is also to have other effect: owing to frame 100 is to be formed in one, so that overall structure is the most firm, and because the characteristic of stabilized structure, so that such as hot-pressing dryings etc. are all made it difficult for frame 100 by thermal behavior or mold hot deforms, in other words, the tolerance between the male and female mould of mould will not be affected because of thermal deformation, can also improve the problem that passing product yield is low simultaneously.

As described above, it is only preferable possible embodiments of the present utility model, do not limit to the scope of the claims of the present utility model, such as use the equivalent structure change that this utility model description and accompanying drawing content are done, be intended to be limited solely by interest field of the present utility model.

Claims (11)

1. a double removing from mould paper-plastic shaping machine, it is characterised in that including:

One frame, has an activity space and comprises the longitudinal part and a transverse part that crossover connects the most in length and breadth, and the corresponding described activity space position of described frame is provided with a stock tank at described longitudinal part；

One vertical shift mechanism, the roof of corresponding described activity space position is arranged at described longitudinal part；

One drags for slurry and band embryo mould, comprise by move in a band embryo upper mold of described vertical shift mechanism and can lift in described stock tank and with described band embryo Ccope closing machine hand over the one of embryo to drag for slurry lower mold；

One transverse-moving mechanism, the diapire of corresponding described activity space position is arranged at described transverse part；And

A pair hot-die, each described hot-die comprises a hot pressing upper mold and by moving the hot pressing lower mold in described transverse-moving mechanism, described band embryo upper mold can respectively with each described hot pressing lower mold matched moulds hand over embryo, each described hot pressing upper mold then can be with each described hot pressing lower mold matched moulds hot pressing；

Wherein, described in drag for slurry lower mold and repeatedly hand over embryo to give described band embryo upper mold and described band embryo upper mold hands over embryo to give the time of each described hot pressing lower mold the most respectively, be close or be same as the summation that each described hot-die is respectively completed the respective time of hot-pressing drying.

2. double removing from mould paper-plastic shaping machine as claimed in claim 1, it is characterised in that above-mentioned frame is made of one piece.

3. double removing from mould paper-plastic shaping machine as claimed in claim 1, it is characterised in that the described longitudinal part of above-mentioned frame and described transverse part are T-shaped configurations.

4. double removing from mould paper-plastic shaping machine as claimed in claim 1, it is characterised in that above-mentioned each hot-die is disposed in two ends of described transverse part respectively, and described longitudinal part crossover is connected between described two ends of described transverse part.

5. double removing from mould paper-plastic shaping machine as claimed in claim 1, it is characterised in that above-mentioned band embryo upper mold and each hot pressing upper mold are all a vac sorb mould.

6. double removing from mould paper-plastic shaping machine as claimed in claim 1, it is characterized in that above-mentioned band embryo upper mold is provided with a band embryo elevating mechanism, described slurry lower mold of dragging for is provided with one and drags for slurry elevating mechanism, described drag for slurry lower mold moved in described drag for slurry elevating mechanism and energy matched moulds in described band embryo upper mold, described band embryo upper mold is moved can distinguish matched moulds in described each hot pressing lower mold in described band embryo elevating mechanism.

7. double removing from mould paper-plastic shaping machine as claimed in claim 1, it is characterised in that above-mentioned each hot pressing upper mold is respectively arranged with a hot pressing elevating mechanism, and described each hot pressing upper mold is moved can distinguish matched moulds in described each hot pressing lower mold in described each hot pressing elevating mechanism.

8. double removing from mould paper-plastic shaping machine as claimed in claim 1, it is characterised in that the rail structure and at least of indulging for a pair that above-mentioned vertical shift mechanism comprises the described longitudinal part being arranged at described frame indulges driving screw structure.

9. double removing from mould paper-plastic shaping machine as claimed in claim 1, it is characterised in that above-mentioned transverse-moving mechanism comprises a pair horizontal rail structure and at least one horizontal driving screw structure of the described transverse part being arranged at described frame.

10. double removing from mould paper-plastic shaping machine as claimed in claim 1, characterized by further comprising a pair guiding carrier and a pair pallet, the most corresponding above-mentioned each hot-die position of described each guiding carrier is arranged at above-mentioned transverse part, and described each pallet is respectively provided with and is moved in described each guiding carrier.

11. double removing from mould paper-plastic shaping machines as claimed in claim 10, it is characterised in that above-mentioned each guiding carrier guides above-mentioned each pallet respectively along the lower section longitudinally travelling to and fro between above-mentioned each hot pressing upper mold.