CN216152880U - Continuous foaming piece production equipment - Google Patents

Abstract

The utility model discloses continuous foaming piece production equipment, which comprises a transfer track; a mold frame structure; a transfer drive device; a mold structure; a first guide rail; a second guide rail. Move and carry drive arrangement drive mould frame structure along moving to move on the track removes corresponding process operation position, first adjustment frame area first mould of first guide rail guide simultaneously opens, and the second guide rail guide first adjustment frame area first mould lid closes the second mould on, need not to adopt the manpower to open or cover and close the mould structure, has saved the manpower, has improved production efficiency.

Description

Continuous foaming piece production equipment

Technical Field

The utility model relates to continuous foaming piece production equipment.

Background

The mould position of present foaming spare apparatus for producing is all fixed, and when production, the process of the die sinking, getting, the material of irritating and the compound die of a plurality of moulds need be maintained simultaneously to a workman, and the workman need make a round trip to shuttle back and forth between the foaming spare apparatus for producing of a plurality of different positions and operate, and the operation process is wasted time and energy, and production efficiency is low, and it is not high shortcoming to see that present foaming spare apparatus for producing has production efficiency.

SUMMERY OF THE UTILITY MODEL

To solve at least one of the problems of the prior art described above, according to an aspect of the present invention, there is provided a mold frame structure including: a transfer track; the mold frame structure is movably arranged on the transfer track and comprises a first adjusting frame, a second adjusting frame and a base, the second adjusting frame is pivotally connected with the first adjusting frame, the second adjusting frame is arranged on the base, and a first sliding part is arranged on the first adjusting frame; the transferring driving device is used for driving the mould frame structure to transfer on the transferring track; the mould structure comprises a first mould and a second mould, wherein the first mould is arranged on the first adjusting frame, and the second mould is arranged on the second adjusting frame, so that when the first adjusting frame rotates to cover the second adjusting frame, the first mould and the second mould are matched; the first guide rail is arranged to be gradually lifted along the transferring direction of the die frame structure, so that when the first adjusting frame passes through the first guide rail, the first sliding part slides on the first guide rail, and the first guide rail guides the first adjusting frame to gradually deviate and open relative to the second adjusting frame; and the second guide rail is arranged at the downstream position of the first guide rail along the transferring direction of the die frame structure, and gradually descends along the transferring direction of the die frame structure, so that when the first adjusting frame passes through the second guide rail, the first sliding part slides on the second guide rail, and the second guide rail guides the first adjusting frame to gradually close and cover relative to the second adjusting frame.

When in use, the transfer rails are arranged along the production process operation stations, wherein a workpiece taking station for taking out the solidified and molded foaming part from the mold is arranged between the first guide rail and the second guide rail; initially, pouring the foaming material into the mold structure, wherein the first adjusting frame is covered on the second adjusting frame, namely the first mold and the second mold are in a mold closing state, so that the foaming material is expanded and shaped in the mold structure; then the mould frame structure is driven by the transferring driving device to move to the first guide rail along the transferring rail, the first sliding part slides on the first guide rail along with the continuous transferring of the mould frame structure, the first guide rail guides the first adjusting frame to gradually deviate and open relative to the second adjusting frame, namely, the first mould and the second mould are driven to deviate and open, and an operator takes out the formed foaming piece from the mould structure; then the mould frame structure is continuously moved to the next operation station for corresponding procedures (such as cleaning residues in the mould structure, coating release agent, pouring materials and the like), and then the mould frame structure is moved to a second guide rail, the first sliding part slides on the second guide rail, the second guide rail guides the first adjusting frame to gradually close the cover relative to the second adjusting frame, and the first mould and the second mould are covered; in the process, the transfer driving device drives the die frame structure to move to the corresponding working procedure operation position along the transfer track, meanwhile, the first guide track guides the first adjusting frame to drive the first die to be opened, the second guide track guides the first adjusting frame to drive the first die cover to be closed to the second die, manual opening or closing of the die structure is not needed, labor is saved, and production efficiency is improved.

In some embodiments, the first mold is provided with a first mold cavity, the second mold is provided with a second mold cavity, and the second mold is matched with the first mold cover so that when the first mold and the second mold cover, the first mold cavity and the second mold cavity are combined in a sealing mode to form a product mold cavity.

Therefore, the foaming material is poured into the second die cavity at the beginning, then the first die and the second die are covered, and the foaming material is expanded and shaped in the product die cavity to form a foaming piece which is in accordance with the outline of the product die cavity.

In some embodiments, the second adjustable mount is pivotally disposed on the base.

Thus, when a user needs to adjust the inclination angle of the mold structure (for example, after the raw material is solidified in the closed mold structure to form a finished product, the position of the mold structure is far away from a worker, so that the worker is not convenient to take out the finished product, and the mold structure can be inclined towards the position of the worker to facilitate the operation of the worker), the worker applies external force to the second adjusting frame to drive the whole mold structure to generate a relative angle inclination action on the base according to a preset direction, so that the worker can perform a corresponding operation procedure conveniently, convenience is provided for the worker, and the production efficiency is improved.

In some embodiments, a hinge structure is provided between the first and second adjustment brackets.

In this way, the first adjusting frame and the second adjusting frame are connected in a pivoting mode through the hinge structure.

In some embodiments, a support frame is arranged on the base, an axle slot is arranged on the support frame, and a rotating shaft which is in pivot fit with the axle slot is arranged on the second adjusting frame.

In this way, the second adjusting frame is pivotally arranged on the base through the pivot matching of the rotating shaft and the shaft groove. In other embodiments, the specific structure for realizing that the second adjusting frame is pivotally arranged on the base can be adjusted according to the practical situation.

In some embodiments, the base is further provided with a support portion for supporting the second adjustment frame, so that the second adjustment frame abuts against the support portion when the second adjustment frame is not driven by external force.

Like this, exert the back that drives on the second alignment jig, the second alignment jig supports under the effect of self gravity and leans on the supporting part and keep quiescent condition, avoids the second alignment jig to produce reciprocal rocking and run into equipment or workman after losing drive power, has improved the security performance.

In some embodiments, a second sliding part is arranged on the second adjusting frame; the second adjusting frame is obliquely arranged relative to the horizontal plane in a natural state; the continuous type foamed member production apparatus further includes a third guide rail provided between the first guide rail and the second guide rail along a transfer direction of the mold frame structure, the third guide rail being provided to gradually rise along the transfer direction of the mold frame structure so that the second sliding portion slides on the third guide rail when the second adjustment frame passes the third guide rail, the third guide rail guiding the second adjustment frame to rotate from an inclined state to a parallel state with respect to the horizontal plane.

Therefore, after the foaming part is taken out of the mold structure on the part taking station by an operator, the mold frame structure is continuously moved to the material injection station and the position of the third guide rail, along with the continuous moving of the mold frame structure, the second sliding part of the second adjusting frame slides on the third guide rail, the third guide rail guides the second adjusting frame to rotate to be parallel relative to the horizontal plane from an inclined state, and then the second adjusting frame drives the second mold to be adjusted to be in a horizontal state, so that the second mold can contain enough foaming materials, and then the foaming materials are injected into the second mold, the second adjusting frame does not need to be driven by manpower to rotate to be in the horizontal state, and the production efficiency is improved.

In some embodiments, the second sliding portion is a roller member.

In some embodiments, the third guide rail is provided with a third holding portion in abutment with the third guide rail, the third holding portion being provided at a position downstream of the third guide rail in the transfer direction of the mold frame structure, the third holding portion being provided in parallel with the transfer rail.

In this way, since the third holding portion is disposed parallel to the transfer rail, when the second adjustment frame is guided by the third guide rail to be adjusted to a horizontal state with the second mold, the second sliding portion continues to slide on the third holding portion, so that the second adjustment frame and the second mold continue to be maintained in a horizontal state, and a sufficient time is allowed for filling the foaming material into the second mold.

Drawings

FIG. 1 is a schematic view of a continuous foamed member production apparatus according to an embodiment of the present invention;

FIG. 2 is a schematic view of a mold frame structure movably disposed on a transfer rail in the continuous foam member production apparatus shown in FIG. 1;

FIG. 3 is a schematic view showing a structure of a mold frame in the continuous foamed member producing apparatus shown in FIG. 1;

FIG. 4 is a schematic view of a mold structure mounted on the mold frame structure of FIG. 3;

FIG. 5 is a schematic view of the first die of FIG. 4 mounted on a first adjustable mount and the second die mounted on a second adjustable mount;

FIG. 6 is an exploded view of the mold structure and mold frame structure of FIG. 4;

fig. 7 is a schematic view of the mold structure of fig. 4.

Wherein the reference numerals have the following meanings:

3. a mold structure; 31. a first die; 311. a first mold cavity; 32. a second mold; 321. a second mold cavity; 5. a mold frame structure; 51. a first adjusting bracket; 52. a second adjusting bracket; 521. a second sliding section; 511. a hinge structure; 512. a first sliding section; 53. a base; 531. a support frame; 5311. a shaft groove; 5211. a rotating shaft; 532. a support portion; 6. a transfer track; 71. a first guide rail; 72. a second guide rail; 73. a third guide rail; 731. and a third holding part.

Detailed Description

For better understanding and implementation, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the utility model herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model.

The present invention will be described in further detail with reference to the accompanying drawings.

Fig. 1 to 7 schematically show a mold frame structure according to an embodiment of the present invention, which includes: a transfer rail 6; the mold frame structure 5 is movably arranged on the transfer rail 6, the mold frame structure 5 comprises a first adjusting frame 51, a second adjusting frame 52 and a base 53, the second adjusting frame 52 is pivotally connected with the first adjusting frame 51, the second adjusting frame 52 is arranged on the base 53, and a first sliding part 512 is arranged on the first adjusting frame 51; a transfer drive device configured to drive the mold frame structure 5 to transfer on the transfer rail 6; the mold structure 3 comprises a first mold 31 and a second mold 32, wherein the first mold 31 is arranged on a first adjusting frame 51, the second mold 32 is arranged on a second adjusting frame 52, and when the first adjusting frame 51 is rotated to cover the second adjusting frame 52, the first mold 31 and the second mold 32 are matched; a first guide rail 71 configured to be gradually raised along a transfer direction of the mold frame structure 5, so that when the first adjustment frame 51 passes through the first guide rail 71, the first sliding portion 512 slides on the first guide rail 71, and the first guide rail 71 guides the first adjustment frame 51 to gradually open away from the second adjustment frame 52; the second guide rail 72 is provided downstream of the first guide rail 71 in the transfer direction of the mold frame structure 5, and the second guide rail 72 is provided so as to gradually descend in the transfer direction of the mold frame structure 5, so that the first sliding portion 512 slides on the second guide rail 72 and the second guide rail 72 guides the first adjustment frame 51 to gradually come closer to the second adjustment frame 52 and close the cover when the first adjustment frame 51 passes the second guide rail 72. In detail, the transfer rail 6 is arranged along the production process operation station, and in the present embodiment, a workpiece taking station for taking out the solidified and molded foamed workpiece from the mold is provided, and the workpiece taking station is disposed between the first guide rail 71 and the second guide rail 72. In detail, in the present embodiment, the first sliding portion 512 is a roller member.

As shown in fig. 1, in use, the transfer rail 6 is arranged along the production process operation station, wherein a part taking station for taking out the solidified and molded foamed part from the mold is arranged between the first guide rail 71 and the second guide rail 72; initially, the foaming material is poured into the mold structure, and the first adjusting frame 51 is pressed on the second adjusting frame 52, that is, the first mold 31 and the second mold 32 are in a mold closing state, so that the foaming material is expanded and shaped in the mold structure; then the transfer driving device drives the mold frame structure 5 to move to the first guide rail 71 along the transfer rail 6, as the mold frame structure 5 continues to transfer, the first sliding part 512 slides on the first guide rail 71, the first guide rail 71 guides the first adjusting frame 51 to gradually separate and open relative to the second adjusting frame 52, namely, the first die 31 and the second die 32 are driven to separate and open, and the operator takes out the molded foaming piece from the mold structure 3; then the mold frame structure 5 is continuously moved to the next operation station for corresponding processes (for example, cleaning residues in the mold structure 3, applying a release agent, pouring materials and the like), and then is moved to the second guide rail 72, the first sliding part 512 slides on the second guide rail 72, the second guide rail 72 guides the first adjusting frame 51 to gradually close and cover the first mold 31 and the second mold 32 relative to the second adjusting frame 52; in the process, the transfer driving device drives the mold frame structure 5 to move to the corresponding process operation position along the transfer rail 6, meanwhile, the first guide rail 71 guides the first adjusting frame 51 to drive the first mold 31 to open, the second guide rail 72 guides the first adjusting frame 51 to drive the first mold 31 to cover the second mold 32, manual opening or cover closing of the mold structure 3 is not needed, labor is saved, and production efficiency is improved.

As shown in fig. 3-7, in the present embodiment, the first mold 31 has a first mold cavity 311, the second mold 32 has a second mold cavity 321, and the second mold 32 is configured to cover the first mold 31, so that when the first mold 31 and the second mold 32 are covered, the first mold cavity 311 and the second mold cavity 321 are combined in a sealing manner to form a product mold cavity. Thus, the foaming material is initially poured into the second mold cavity 321, and then the first mold 31 and the second mold 32 are closed, so that the foaming material is expanded and shaped in the product mold cavity to form a foaming member conforming to the contour of the product mold cavity.

As shown in fig. 3-6, in this embodiment, the second adjustment bracket 52 is pivotally disposed on the base 53. In this way, when a user needs to adjust the inclination angle of the mold structure 3 (for example, after the raw material is solidified in the closed mold structure 3 to form a finished product, the position of the mold structure 3 is far away from the worker, which is inconvenient for the worker to take out the finished product, and the mold structure 3 can be inclined toward the position of the worker, which is convenient for the worker to operate), the worker applies an external force to the second adjusting frame 52 to drive the second adjusting frame 52 to bring the whole mold structure 3 to generate a relative angle inclination action on the base 53 according to a predetermined direction, so that the worker can perform a corresponding operation procedure, convenience is provided for the worker, and the production efficiency is improved.

In the present embodiment, a hinge structure 511 is provided between the first adjustment frame 51 and the second adjustment frame 52. In this way, the first adjustment frame 51 and the second adjustment frame 52 are pivotally connected by the hinge structure 511. In other embodiments, the specific structure and manner of achieving the pivotal connection between the first adjustment frame 51 and the second adjustment frame 52 can also be adjusted according to practical situations, for example, the pivotal connection between the first adjustment frame 51 and the second adjustment frame 52 can also be achieved through a bearing joint.

In this embodiment, the base 53 is provided with a support frame 531, the support frame 531 is provided with a shaft groove 5311, and the second adjusting frame 52 is provided with a rotating shaft 5211 pivotally engaged with the shaft groove 5311. Thus, the second adjustment frame 52 is pivotally disposed on the base 53 by the pivotal engagement of the shaft 5211 with the shaft groove 5311. In other embodiments, the specific structure for pivotally arranging the second adjusting frame 52 on the base 53 can be adjusted according to the practical situation.

In this embodiment, the base 53 is further provided with a support portion 532 for supporting the second adjustment frame 52, so that the second adjustment frame 52 can abut against the support portion 532 when not driven by external force. In this way, after the driving force applied to the second adjusting bracket 52 is cancelled, the second adjusting bracket 52 abuts against the support part 532 under the action of self gravity to keep a static state, so that the second adjusting bracket 52 is prevented from shaking back and forth to touch equipment or workers after losing the driving force, and the safety performance is improved.

In detail, the present embodiment is further provided with an injection station for injecting the foaming material into the mold, the injection station is disposed between the first guide rail 71 and the second guide rail 72, and the injection station is located at a downstream position of the picking station; in this embodiment, the second adjusting bracket 52 is provided with a second sliding portion 521; the second adjusting frame 52 is arranged obliquely relative to the horizontal plane in a natural state, so that the whole die structure 3 is also arranged obliquely, the space height of the inner space of the die structure 3 in the gravity direction is increased relative to the horizontal state, the foaming material is gradually expanded upwards from the bottom in the inner space of the die structure 3, so that the air is gradually gathered to the top of the inner space of the die structure 3, and then the air is discharged from the pressure relief structure arranged on the first die 31, so that the air is conveniently discharged from the inner space of the die structure 3, the probability of air holes of the foaming piece is reduced, and the yield of the foaming piece is improved; the continuous type foamed member producing apparatus further includes a third guide rail 73, the third guide rail 73 is provided between the first guide rail 71 and the second guide rail 72 along the transfer direction of the mold frame structure 5, the third guide rail 73 is provided to gradually rise along the transfer direction of the mold frame structure 5 so that the second sliding portion 521 slides on the third guide rail 73 when the second adjustment frame 52 passes the third guide rail 73, and the third guide rail 73 guides the second adjustment frame 52 to rotate from the inclined state to the parallel state with respect to the horizontal plane. Thus, after the foam part is taken out from the mold structure 3 by the operator at the part taking station, the mold frame structure 5 is continuously moved to the material injection station and the position of the third guide rail 73, along with the continuous movement of the mold frame structure 5, the second sliding part 521 of the second adjusting frame 52 slides on the third guide rail 73, the third guide rail 73 guides the second adjusting frame 52 to rotate to the parallel state from the inclined state relative to the horizontal plane, and then the second adjusting frame 52 carries the second mold 32 to adjust to the horizontal state, so that the second mold 32 can contain a sufficient amount of foam material, and then the foam material is injected into the second mold 32, and the second adjusting frame 52 does not need to be driven by manpower to rotate to the horizontal state, thereby improving the production efficiency.

In the present embodiment, the second sliding portion 521 is a roller member. In other embodiments, the specific configuration of the second sliding portion 521 may be appropriately adjusted according to actual conditions.

In the present embodiment, the third guide rail 73 is provided with a third holding portion 731 in contact with the third guide rail 73, the third holding portion 731 is provided at a position downstream of the third guide rail 73 along the transfer direction of the mold frame structure 5, and the third holding portion 731 is provided in parallel with the transfer rail 6. In this way, since the third holding part 731 is disposed in parallel with the transfer rail 6, when the second adjusting frame 52 is guided by the third guide rail 73 to be adjusted to a horizontal state with the second mold 32 being carried, the second sliding part 521 continues to slide on the third holding part 731, so that the second adjusting frame 52 and the second mold 32 continue to be kept in a horizontal state, and a sufficient time is allowed for filling the foaming material into the second mold 32.

The technical means disclosed in the utility model scheme are not limited to the technical means disclosed in the above embodiments, but also include the technical scheme formed by any combination of the above technical features. It should be noted that those skilled in the art can make various improvements and modifications without departing from the principle of the present invention, and such improvements and modifications are also considered to be within the scope of the present invention.

Claims (10)

1. Continuous type foaming piece production facility, its characterized in that includes:

a transfer rail (6);

the mold frame structure (5) is movably arranged on the transfer rail (6), the mold frame structure (5) comprises a first adjusting frame (51), a second adjusting frame (52) and a base (53), the second adjusting frame (52) is pivotally connected with the first adjusting frame (51), the second adjusting frame (52) is arranged on the base (53), and a first sliding part (512) is arranged on the first adjusting frame (51);

a transfer drive device configured to drive the mold frame structure (5) to transfer on the transfer rail (6);

the mould structure (3) comprises a first mould (31) and a second mould (32), the first mould (31) is arranged on the first adjusting frame (51), the second mould (32) is arranged on the second adjusting frame (52), and when the first adjusting frame (51) is rotated to cover the second adjusting frame (52), the first mould (31) and the second mould (32) are matched;

a first guide rail (71) provided to be gradually raised in a transfer direction of the mold frame structure (5) so that the first sliding portion (512) slides on the first guide rail (71) when the first adjustment frame (51) passes the first guide rail (71), the first guide rail (71) guiding the first adjustment frame (51) to be gradually opened away from the second adjustment frame (52);

and a second guide rail (72) disposed downstream of the first guide rail (71) along a transfer direction of the mold frame structure (5), wherein the second guide rail (72) is configured to gradually descend along the transfer direction of the mold frame structure (5) so that the first sliding portion (512) slides on the second guide rail (72) when the first adjustment frame (51) passes through the second guide rail (72), and the second guide rail (72) guides the first adjustment frame (51) to gradually close and cover the second adjustment frame (52).

2. Continuous blister production plant according to claim 1, wherein the first mould (31) is provided with a first mould cavity (311) and the second mould (32) is provided with a second mould cavity (321), the second mould (32) being arranged in a mating relationship with the first mould (31) such that when the first mould (31) and the second mould (32) are closed, the first mould cavity (311) and the second mould cavity (321) are sealingly joined to form a product mould cavity.

3. Continuous blister production plant according to claim 1, wherein the second adjustment frame (52) is pivotably arranged on the base (53).

4. Continuous blister production plant according to claim 1, wherein a hinge structure (511) is provided between said first adjustment frame (51) and said second adjustment frame (52).

5. The continuous foaming member production apparatus according to claim 3, wherein the base (53) is provided with a support frame (531), the support frame (531) is provided with a shaft groove (5311), and the second adjusting frame (52) is provided with a rotating shaft (5211) which is in pivot fit with the shaft groove (5311).

6. Continuous blister production plant according to claim 3, wherein the base (53) is further provided with a support (532) for supporting the second adjustment carriage (52) so as to rest on the support (532) when the second adjustment carriage (52) is not driven by external forces.

7. The continuous blister production plant according to claim 3, wherein the second adjustment frame (52) is provided with a second sliding portion (521);

the second adjusting frame (52) is arranged obliquely relative to the horizontal plane in a natural state;

the continuous type foamed member production apparatus further includes a third guide rail (73), the third guide rail (73) being provided between the first guide rail (71) and the second guide rail (72) along a transfer direction of the mold frame structure (5), the third guide rail (73) being provided to gradually rise along the transfer direction of the mold frame structure (5) so that the second sliding portion (521) slides on the third guide rail (73) when the second adjustment frame (52) passes the third guide rail (73), the third guide rail (73) guiding the second adjustment frame (52) to rotate from an inclined state to a parallel state with respect to a horizontal plane.

8. The continuous blister production apparatus according to claim 7, wherein the second sliding part (521) is a roller member.

9. The continuous type foam member producing apparatus according to claim 7, wherein a third holding portion (731) is provided in the third guide rail (73) in a joint manner, the third holding portion (731) is provided at a position downstream of the third guide rail (73) in a transfer direction of the mold frame structure (5), and the third holding portion (731) is provided in parallel with the transfer rail (6).

10. The continuous blister production apparatus according to claim 1, wherein the first sliding part (512) is a roller member.

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