CN217671195U - Hot-pressing edge covering machine - Google Patents

Abstract

The application relates to a hot-pressing edge covering machine, which belongs to the technical field of automobile interior decoration processing and comprises a frame; the upper die device comprises an upper die base arranged on the rack and an upper die driving mechanism for driving the upper die base to slide in a reciprocating manner along the vertical direction; the first lower die device comprises a first lower die holder and a lower die driving mechanism, wherein the first lower die holder is positioned below the upper die holder and is arranged on the rack, and the lower die driving mechanism is used for driving the first lower die holder to slide back and forth along the horizontal direction; and the second lower die device comprises a second lower die holder positioned below the upper die holder, a vertical driving mechanism which is arranged on the rack and drives the second lower die holder to slide in a reciprocating manner along the vertical direction, and a horizontal driving mechanism which drives the second lower die holder to slide in a reciprocating manner along the horizontal direction between the upper die holder and the first lower die holder, the horizontal sliding direction of the second lower die holder is consistent with the horizontal sliding direction of the first lower die holder, and the structure of the second lower die holder is the same as that of the first lower die holder. This application has the effect that improves production efficiency.

Description

Hot-pressing edge covering machine

Technical Field

The application relates to the field of automotive interior processing, in particular to a hot-pressing edge covering machine.

Background

The plastic parts in the automotive interior are usually subjected to edge treatment by a hot-pressing edge covering process of a hot-pressing edge covering machine. The hot-pressing covering machine comprises a rack, an upper die, a lower die and a heating device, wherein the upper die is installed on the rack and slides in a reciprocating mode in the vertical direction, the lower die is installed on the rack and located below the upper die, and the heating device is installed on the rack and slides in the horizontal direction.

In the related technology, when the hot-pressing taping machine works, a worker firstly places a material on a lower die, a heating device moves to the position of the lower die and heats glue on the material, so that the glue on the material has good viscosity, and then the heating device moves to an initial position; then the upper die descends and is matched with the lower die to press the material into a specific shape; and finally, the upper die rises, and the worker takes the product off the lower die. Thus, the above steps are always circulated.

In the production and processing process, the upper die must be taken down from the lower die by workers and then can move downwards to be matched with the lower die to process the material after the material is placed on the lower die, so that the production efficiency is reduced.

SUMMERY OF THE UTILITY MODEL

In order to improve production efficiency, the application provides a hot pressing taping machine.

The application provides a hot pressing taping machine adopts following technical scheme:

a hot-pressing taping machine comprises a frame;

the upper die device comprises an upper die base arranged on the rack and an upper die driving mechanism for driving the upper die base to slide in a reciprocating manner along the vertical direction;

the first lower die device comprises a first lower die holder and a lower die driving mechanism, wherein the first lower die holder is positioned below the upper die holder and is arranged on the rack, and the lower die driving mechanism drives the first lower die holder to slide in a reciprocating manner along the horizontal direction;

the second lower die device comprises a second lower die holder positioned below the upper die holder, a vertical driving mechanism which is arranged on the rack and drives the second lower die holder to slide in a reciprocating manner along the vertical direction, and a horizontal driving mechanism which drives the second lower die holder to slide in a reciprocating manner along the horizontal direction between the upper die holder and the first lower die holder, the horizontal sliding direction of the second lower die holder is consistent with the horizontal sliding direction of the first lower die holder, and the structure of the second lower die holder is the same as that of the first lower die holder.

Through adopting above-mentioned technical scheme, the staff places the material on first die holder, and lower mould actuating mechanism drives first die holder and slides to the station of processing, goes up the removal of mould actuating mechanism drive upper die base and processes the material with the cooperation of first die holder. In the process, the second lower die holder moves to the material preparation station under the driving of the vertical driving mechanism and the horizontal driving mechanism, and the worker places the material on the second lower die holder on the material preparation station.

After the materials on the first die holder are processed, the first die holder moves to a material preparation station, and meanwhile, the second die holder moves to give way for the first die holder. When the first lower die holder moves to the material preparation station, the second lower die holder moves to the processing station, the upper die holder and the second lower die holder are matched to process materials on the second lower die holder, meanwhile, workers place the materials on the first lower die holder, and the process is repeated.

Through the structure, when a worker places materials on the first lower die holder, the upper die holder processes the materials on the second lower die holder; when the staff prevented the material to the second die holder, the material of upper die base on to the first die holder was processed, and then has improved production efficiency.

Optionally, the vertical driving mechanism includes a vertical base and a screw rod lifter installed on the vertical base;

the vertical base is positioned above the second lower die base, one end of a screw rod in the screw rod lifter is installed on the second lower die base, and the other end of the screw rod penetrates through the vertical base.

Optionally, the vertical driving mechanism further includes a guide post mounted on the second lower die base, and one end of the guide post, which faces away from the second lower die base, passes through the vertical base.

Through adopting above-mentioned technical scheme, the pneumatic cylinder drive second die holder removes of comparing, and the elevator motor operation makes the lead screw drive second die holder remove comparatively stably, has reduced the risk of polluted environment because of hydraulic oil reveals simultaneously. The arrangement of the guide columns enables the second lower die holder to move directionally in the moving process, and the stability of the second lower die holder in moving is improved.

Optionally, the horizontal driving mechanism includes a sliding assembly mounted on the frame and a horizontal driving member for driving the vertical driving mechanism to slide on the sliding assembly.

Optionally, the horizontal driving part includes a horizontal screw rod and a horizontal motor for driving the horizontal screw rod to rotate, and the horizontal screw rod is matched with the vertical driving mechanism to move along the central axis direction of the horizontal screw rod.

Optionally, a supporting part is fixedly mounted on the frame, and the sliding assembly and the horizontal driving part are mounted on the supporting part.

Through adopting above-mentioned technical scheme, the setting up of supporting piece has increased the area of contact between subassembly and the horizontal drive spare of sliding and the frame, makes subassembly and the horizontal drive spare installation back more stable that slides. Meanwhile, the horizontal driving piece drives the vertical driving mechanism to slide on the sliding assembly, so that the friction force of the vertical driving mechanism during sliding is reduced, and the horizontal driving piece can drive the vertical driving mechanism to move in a labor-saving manner.

Compare the vertical actuating mechanism of cylinder drive and remove, vertical actuating mechanism removes more stably through the cooperation of horizontal motor with horizontal lead screw, has also reduced the risk that the material takes place to rock on the second die holder.

Optionally, the upper die device further comprises an upper die support and a fixed support, the upper die support is slidably mounted on the frame in the vertical direction, the fixed support is fixedly mounted on the frame, the upper die base is mounted on the upper die support, and the upper die driving mechanism is mounted on the fixed support.

Optionally, the rack is provided with a vertical sliding group matched with the upper die support.

By adopting the technical scheme, due to the arrangement of the horizontal driving mechanism, the arrangement of the upper die support reduces the risk of interference between the upper die base and the horizontal driving mechanism in the moving process. And the upper die support can stably slide on the rack through the vertical sliding group in the sliding process.

The upper die driving mechanism is arranged on the fixed support which is fixedly arranged on the rack, so that the upper die driving mechanism is convenient to install.

Optionally, the hot-pressing taping machine further comprises a heating device slidably mounted on the frame, the heating device comprises a sliding frame, a heating lamp tube mounted on the sliding frame for heating glue on the material, and a heating driving piece for driving the sliding frame to horizontally slide, and the moving direction of the sliding frame is consistent with the sliding direction of the first die holder.

Through adopting above-mentioned technical scheme, the frame that slides removes to first die holder or second die holder position department, heats through heating fluorescent tube to gluing on the material, makes to glue and has better viscidity, and then two materials that stack together in the hot pressing process can be better glue together.

In summary, the present application includes at least one of the following beneficial technical effects:

when the upper die holder is arranged on the first lower die holder and is matched with the first lower die holder to process materials, a worker can place the materials for processing on the second lower die holder at the material preparation station, the first lower die holder moves to the material preparation station after the materials are processed by the upper die holder and the first lower die holder, and the second lower die holder moves to the processing station and is matched with the upper die holder to process the materials, so that the production efficiency is improved;

the upper die base finishes processing of materials on the first lower die base, and after workers place the materials on the second lower die base, the second lower die base stably ascends from a material preparation station to the position between the upper die base and the first lower die base through the lead screw lifter to yield the first lower die base, and then the risk that the first lower die base and the second lower die base interfere in the moving process is reduced.

Drawings

Fig. 1 is a schematic view of the overall structure of a hot-press taping machine in the embodiment of the present application.

Fig. 2 is a schematic view of the entire structure of the upper die apparatus in the embodiment of the present application.

Fig. 3 is a schematic view illustrating an installation of the first lower mold device, the second lower mold device and the heating device on the frame in the embodiment of the present application.

Fig. 4 is a schematic view illustrating an installation of the heating device on the frame according to the embodiment of the present application.

Description of reference numerals: 1. a frame; 11. a vertical sliding group; 12. a support member; 2. an upper die device; 21. an upper die holder; 22. an upper die driving mechanism; 23. an upper die support; 24. a fixed bracket; 3. a first lower die device; 31. a first lower die holder; 32. a lower die driving mechanism; 4. a second lower die device; 41. a second lower die holder; 42. a vertical drive mechanism; 421. a vertical base; 422. a screw rod lifter; 423. a guide post; 43. a horizontal driving mechanism; 431. a sliding component; 432. a horizontal drive member; 5. a heating device; 51. a sliding frame; 52. heating the lamp tube; 53. the drive member is heated.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses a hot-pressing covering machine. Referring to fig. 1, the hot press taping machine includes a frame 1, an upper die device 2, a first lower die device 3, a second lower die device 4, and a heating device 5. The middle part of the rack 1 is provided with a processing chamber, a processing station and a material preparation station are arranged in the processing chamber, and the upper die device 2, the first lower die device 3, the second lower die device 4 and the heating device 5 are all slidably arranged in the processing chamber. When the first lower die device 3 is positioned at a processing station and is matched with the upper die device 2 to process materials, the second lower die device 4 is positioned at a material preparation station to prepare materials; after the material processing on the first lower die device 3 is completed, the first lower die device 3 moves to the material preparation station, and meanwhile, the second lower die device 4 moves to the processing station, and the upper die device 2 processes the material on the second lower die device 4.

Referring to fig. 1, the upper die device 2 is reciprocally slid in the vertical direction in the processing chamber. The first lower die device 3 and the heating device 5 slide in the processing chamber in a reciprocating manner along the horizontal direction, and the horizontal sliding directions of the first lower die device 3 and the heating device 5 are consistent. The second lower die device 4 can slide in the processing chamber in a reciprocating manner in the vertical direction and can also slide in a reciprocating manner in the horizontal direction between the upper die device 2 and the first lower die device 3, and the horizontal sliding direction of the second lower die device 4 is consistent with the horizontal sliding direction of the first lower die device 3.

An opening is arranged on one side of the frame 1 and communicated with the processing chamber. The upper die device 2, the first lower die device 3, the second lower die device 4, and the heating device 5 are installed inside the processing chamber through openings. The material preparation station is positioned at the opening, so that a worker can conveniently place the material on the first lower die device 3 or the second lower die device 4.

Referring to fig. 2, the upper die device 2 includes an upper die base 21, an upper die driving mechanism 22, an upper die holder 23, and a fixing holder 24. An upper die is mounted at the bottom of the upper die holder 21, and the upper die holder 21 is fixedly mounted at the bottom of the upper die support 23 through bolts. Install a set of vertical group 11 that slides on two relative lateral walls in the processing cavity respectively, the vertical group 11 that slides is taken as linear guide and slider for the example to use in this embodiment, goes up the mould support 23 and all installs on the slider that corresponds through the bolt near the relative both sides of processing cavity, and then goes up mould support 23 and follow vertical direction orientation and slide under the drive of upper die actuating mechanism 22. The fixed support 24 is located above the upper die base 21, the fixed support 24 is fixedly installed at the top of the processing cavity through bolts, and the upper die driving mechanism 22 is installed on the fixed support 24.

Referring to fig. 1 and 2, the upper die driving mechanism 22 includes a reduction motor, a transmission shaft, a gear box, and a rack bar. The transmission gear is installed in the gear box, the reduction motor and the gear box are installed on the fixing support 24, one end of the transmission shaft is connected with the gear, the other end of the transmission shaft is connected with the reduction motor, and the reduction motor can drive the gear to rotate when in operation. One end of the rack column is fixedly arranged at the top of the upper die holder 21, the other end of the rack column sequentially penetrates through the upper die support 23, the gear box, the fixed support 24 and the rack 1 and protrudes out of the rack 1, wherein the rack column is meshed with a gear in the gear box, and the rack column can be driven to move in the vertical direction when the gear rotates.

Referring to fig. 3, the first lower die device 3 includes a first lower die base 31 and a lower die driving mechanism 32 for driving the first lower die base 31 to slide. The top of the first lower die holder 31 is provided with a lower die, and when the lower die driving mechanism 32 drives the upper die holder 21 to a processing station (i.e. right below the upper die holder 21), the upper die holder 21 moves downward and cooperates with the first lower die holder 31 to process the material.

The lower mold driving mechanism 32 includes a screw motor, a horizontal guide rail and a sliding block sliding on the horizontal guide rail. The first lower die holder 31 is fixedly installed on the sliding block through a bolt, and the screw rod motor operates to further drive the first lower die holder 31 to slide in a reciprocating mode between the machining station and the material preparation station along the horizontal direction.

Referring to fig. 3, the second lower die device 4 includes a second lower die base 41, a vertical driving mechanism 42, and a horizontal driving mechanism 43. The second die holder 41 has the same structure as the first die holder 31, and a lower die identical to the first die holder 31 is mounted on the top of the second die holder 41. When the first lower die holder 31 moves from the processing station to the material preparation station, the vertical driving mechanism 42 drives the second lower die holder 41 to ascend for abdicating, meanwhile, the horizontal driving mechanism 43 drives the second lower die holder 41 to move right above the processing station, then the vertical driving mechanism 42 moves the second lower die holder 41 to the processing station, and then the upper die holder 21 and the second lower die holder 41 are matched to process the material placed on the second lower die holder 41.

Referring to fig. 3, the vertical driving mechanism 42 includes a vertical base 421, a lead screw lifter 422, and guide posts 423. The screw rod lifter 422 is installed on the vertical base 421, and one end of a screw rod on the screw rod lifter 422 is fixedly installed on the second lower die holder 41, so that the second lower die holder 41 can be driven to reciprocate along the vertical direction. The guiding column 423 is installed on the second lower die holder 41, and the guiding column 423 plays a role of guiding when the second lower die holder 41 slides.

In detail, a through hole for a screw rod of the screw rod lifter 422 to pass through is formed in the vertical base 421, and one end of the screw rod lifter 422, which is away from the second lower die base 41, passes through the through hole and protrudes out of the vertical base 421. One end of the guiding column 423 is fixedly installed on the top of the second lower template, and the other end of the guiding column penetrates through the vertical base 421 along the vertical direction and protrudes out of the vertical base 421.

Referring to fig. 3, the horizontal driving mechanism 43 is located between the upper die base 21 and the first die base 31, and further, the second die base 41 can be moved between the upper die base 21 and the first die base 31, so that the second die base 41 does not interfere with the first die base 31 when horizontally sliding.

The horizontal driving mechanism 43 includes a sliding assembly 431 and a horizontal driving member 432, the support 12 is fixedly installed on the sidewall of the processing chamber, the sliding assembly 431 is installed on the top of the support 12, and the horizontal driving member 432 is installed on the bottom of the support 12. The sliding assembly 431 includes a guide rail fixedly installed on the support 12 and a slider slidably installed on the guide rail, the vertical base 421 is fixedly installed on the slider, and the horizontal driving member 432 can drive the vertical base 421 and the second lower die base 41 to slide along the horizontal direction.

The horizontal driving member 432 is a horizontal screw rod and a horizontal motor. The bottom of the vertical base 421 is fixedly provided with a connecting plate, and the connecting plate is provided with a screw nut matched with the horizontal screw, so that the second lower die holder 41 moves along the horizontal direction.

Referring to fig. 1 and 4, the heating device 5 includes a sliding frame 51, a heating lamp 52 and a heating driving member 53, the heating lamp 52 is mounted on the sliding frame 51, and a linear guide rail and a sliding block sliding on the linear guide rail are mounted at the bottom of the processing chamber. The sliding frame 51 is fixedly installed on the sliding block, and the sliding frame 51 reciprocates in the horizontal direction under the driving of the heating driving member 53. That is, the sliding frame 51 moves to the processing station to heat the glue on the material by the heating lamp 52, so that the glue on the material has better viscosity. The heating lamp 52 moves to the initial position after heating the glue on the material. In this embodiment, the heating driving member 53 is preferably an air cylinder, the heating driving member 53 is mounted on the frame 1 through a bolt, and a piston rod of the heating driving member 53 is connected to the sliding frame 51, so as to drive the sliding frame 51 to slide.

The implementation principle of the hot-pressing covering machine in the embodiment of the application is as follows: when the first lower die holder 31 filled with the material is located at the processing station, the heating device 5 moves to the processing station to heat the glue on the material, then the heating device 5 moves to the position before sliding, and the upper die holder 21 moves downwards and is matched with the first lower die holder 31 to process the material.

After the upper die holder 21 finishes processing the material on the first die holder 31, the upper die holder 21 moves upward to an initial position, and at this time, the second die holder 41, which is located at the material preparation station and is provided with the material, moves upward between the upper die holder 21 and the first die holder 31 under the driving of the vertical driving mechanism 42. Afterwards, the second lower die holder 41 is driven by the horizontal driving mechanism 43 to move to a position right above the processing station, and finally moves to the processing station through the vertical driving mechanism 42, at this time, the heating device 5 can move to the processing station to heat glue on the material, and after the heating device 5 moves out of the processing station, the upper die holder 21 can move downwards and cooperate with the second lower die holder 41 to process the material. Meanwhile, the first die holder 31 moves to the material preparation station, and after the first die holder 31 moves to the material preparation station, the worker detaches the product on the first die holder 31 and replaces the material.

After the material on the second lower die holder 41 is processed, the vertical driving mechanism 42 moves the second lower die holder 41 between the upper die holder 21 and the first lower die holder 31, and the horizontal driving mechanism 43 moves the second lower die holder 41 to a position right above the material preparation station and moves the material preparation station to the material preparation station through the vertical driving mechanism 42 again. At the same time, the first lower die holder 31 will move from the preparation station to the processing station, and so on.

The above are preferred embodiments of the present application, and the scope of protection of the present application is not limited thereto, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (9)

1. The utility model provides a hot pressing taping machine which characterized in that: comprises a frame (1);

the upper die device (2) comprises an upper die base (21) arranged on the rack (1) and an upper die driving mechanism (22) for driving the upper die base (21) to slide in a reciprocating manner along the vertical direction;

the first lower die device (3) comprises a first lower die holder (31) which is positioned below the upper die holder (21) and is arranged on the rack (1) and a lower die driving mechanism (32) for driving the first lower die holder (31) to slide in a reciprocating manner along the horizontal direction;

the second lower die device (4) comprises a second lower die holder (41) located below the upper die holder (21), a vertical driving mechanism (42) and a horizontal driving mechanism (43), wherein the vertical driving mechanism (42) and the horizontal driving mechanism are arranged on the rack (1) and drive the second lower die holder (41) to slide in a reciprocating mode along the vertical direction, the second lower die holder (41) is arranged between the upper die holder (21) and the first lower die holder (31) in a reciprocating mode along the horizontal direction, the horizontal sliding direction of the second lower die holder (41) is consistent with the horizontal sliding direction of the first lower die holder (31), and the second lower die holder (41) is identical to the first lower die holder (31) in structure.

2. A hot press taping machine according to claim 1, wherein: the vertical driving mechanism (42) comprises a vertical base (421) and a screw rod lifter (422) arranged on the vertical base (421);

the vertical base (421) is positioned above the second lower die holder (41), one end of a screw rod in the screw rod lifter (422) is installed on the second lower die holder (41), and the other end of the screw rod penetrates through the vertical base (421).

3. A hot press taping machine according to claim 2, wherein: the vertical driving mechanism (42) further comprises a guide column (423) installed on the second lower die holder (41), and one end, facing away from the second lower die holder (41), of the guide column (423) penetrates through the vertical base (421).

4. A hot press taping machine according to claim 1, wherein: the horizontal driving mechanism (43) comprises a sliding component (431) arranged on the rack (1) and a horizontal driving component (432) for driving the vertical driving mechanism (42) to slide on the sliding component (431).

5. A hot-press taping machine according to claim 4, wherein: the horizontal driving piece (432) comprises a horizontal screw rod (434) and a horizontal motor (435) for driving the horizontal screw rod (434) to rotate, and the horizontal screw rod (434) is matched with the vertical driving mechanism (42) to move along the direction of the central axis of the horizontal screw rod (434).

6. A hot press taping machine according to claim 4, wherein: the frame (1) is fixedly provided with a supporting piece (12), and the sliding component (431) and the horizontal driving piece (432) are both arranged on the supporting piece (12).

7. A hot press taping machine according to claim 1, wherein: go up mould device (2) still include along vertical direction slide install in last mould support (23) and fixed mounting in fixed bolster (24) on frame (1), upper die base (21) install in go up on mould support (23), go up mould actuating mechanism (22) install in on fixed bolster (24).

8. A hot press taping machine according to claim 7, wherein: and a vertical sliding group (11) matched with the upper die support (23) is arranged on the rack (1).

9. A hot press taping machine according to claim 1, wherein: still including install in sliding heating device (5) on frame (1), heating device (5) including sliding frame (51), install in heating fluorescent tube (52) and drive that glue on the material carries out the heating on sliding frame (51) horizontal gliding heating driving piece (53), sliding frame (51) the moving direction with the sliding direction of first die holder (31) is unanimous.

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