CN212633970U - Reverse duplex position aluminum product hardware cold press - Google Patents

Abstract

The utility model discloses a reverse duplex position aluminum product hardware cold press, it includes the base and establishes two parallel arrangement's on the base left feed guide rail and right feed guide rail, be equipped with controlled movement's left lower mould on the left feed guide rail, be equipped with controlled movement's right lower mould on the right feed guide rail, the middle part top position of base is fixed with the control box through the support, be equipped with on the bottom plate of control box with the upper left mould of left lower mould compound die, and with the upper right mould of right lower mould compound die, be equipped with the left side that is connected with the upper left mould in the control box and push down the pneumatic cylinder, and push down the pneumatic cylinder with the right side that the upper right mould is connected. The utility model discloses a hardware cold press sets up through the material loading end with left feeding guide rail and right feeding guide rail's material loading end relatively for the operative employee who has guaranteed the feed end of monoblock guide rail has comparatively spacious operating space at relative both ends, can not influence mutually, and the operative employee can realize efficient assistance cooperation, has improved machining efficiency greatly.

Description

Reverse duplex position aluminum product hardware cold press

Technical Field

The utility model relates to an aluminum product hardware machine-shaping equipment field, concretely relates to reverse duplex position aluminum product hardware cold press.

Background

The aluminum hardware cold press completes the curved surface forming of the sheet aluminum material by driving the template to be matched with the die by the hydraulic cylinder, is commonly used for cold pressing of hardware, and is particularly suitable for cold pressing forming of the sheet aluminum material with better ductility. The existing aluminum hardware cold press mostly adopts the cold pressing processing of manually completing the thin aluminum product through semi-automatic cooperation of a machine, a rail is adopted for feeding, after the cold pressing processing is completed, a driving device drives a lower die on the rail to reset, a cold-pressed finished product is taken out, a thin aluminum product to be processed is placed to complete the next processing period, and the production efficiency of the single-rail aluminum hardware cold press is lower for a workshop with limited operating space. In view of this, the application provides a reverse duplex position aluminum product hardware cold press that machining efficiency is high.

SUMMERY OF THE UTILITY MODEL

In order to solve the defect that above-mentioned technique exists, the utility model provides a knot reverse duplex position aluminum product hardware cold press.

The utility model discloses realize that the technical scheme that above-mentioned technological effect adopted is:

the utility model provides a reverse duplex position aluminum product hardware cold press, includes the base and establishes two parallel arrangement's on the base left feeding guide rail and right feeding guide rail, be equipped with controlled movement's left lower mould on the left side feeding guide rail, be equipped with controlled movement's right lower mould on the right side feeding guide rail, the middle part top position of base is fixed with the control box through the support, be equipped with on the bottom plate of control box with the upper left mould of left lower mould compound die, and with the upper right mould of right lower mould compound die, be equipped with in the control box with the left side push down the pneumatic cylinder that the upper left mould is connected, and with the right side push down the pneumatic cylinder that the upper right mould is connected.

Preferably, in the above reverse double-station aluminum hardware cold press, a left stepping screw transmission mechanism is arranged at the feeding end of the left feeding guide rail, the left stepping screw transmission mechanism is in threaded transmission connection with the left lower die, a right stepping screw transmission mechanism is arranged at the feeding end of the right feeding guide rail, the right stepping screw transmission mechanism is in threaded transmission connection with the right lower die, and the feeding end of the left feeding guide rail is opposite to the feeding end of the right feeding guide rail.

Preferably, in the above reverse double-station aluminum hardware cold press, the right feeding guide rail comprises a right power rail and a right guide rail arranged in parallel with the right power rail, the right stepping screw transmission mechanism is arranged in the right power rail, and a threaded transmission seat in transmission connection with a stepping screw in the right stepping screw transmission mechanism and a right sliding member in sliding connection with the right guide rail are fixed at the bottom of the right lower die.

Preferably, in the above reverse double-station aluminum hardware cold press, the left feeding guide rail comprises a left power rail and a left guide rail arranged in parallel with the left power rail, the left stepping screw transmission mechanism is arranged in the left power rail, and a threaded transmission seat in transmission connection with a stepping screw in the left stepping screw transmission mechanism and a left sliding member in sliding connection with the left guide rail are fixed at the bottom of the left lower die.

Preferably, in the above reverse double-station aluminum hardware cold press, a left feeding button for controlling the start and stop of the left stepping screw transmission mechanism is arranged on one side of the base corresponding to the feeding end of the left feeding guide rail, and a right feeding button for controlling the start and stop of the right stepping screw transmission mechanism is arranged on one side of the base corresponding to the feeding end of the right feeding guide rail.

Preferably, in the above reverse double-station aluminum hardware cold press, a right reset proximity switch is arranged at a position close to the feeding end of the right feeding guide rail on the rail side edge of the right power rail, a right overtravel-prevention proximity switch is arranged at a position far away from the feeding end of the right feeding guide rail on the rail side edge of the right power rail, and a right mold closing proximity switch is arranged at a position corresponding to the lower position of the right upper mold on the rail side edge of the right power rail.

Preferably, in the above reverse double-station aluminum hardware cold press, a left reset proximity switch is arranged at a position close to the feeding end of the left feeding guide rail on the rail side edge of the left power rail, a left overtravel-preventing proximity switch is arranged at a position far away from the feeding end of the left feeding guide rail on the rail side edge of the left power rail, and a left mold closing proximity switch is arranged at a position corresponding to the lower position of the upper left mold on the rail side edge of the left power rail.

Preferably, in the above reverse double-station aluminum hardware cold press, a left guide rod fixedly connected with the left upper die and a right guide rod fixedly connected with the right upper die are arranged in the control box, and the left guide rod and the right guide rod are slidably sleeved in corresponding sliding sleeves on a bottom plate of the control box.

Preferably, in the reverse double-station aluminum hardware cold press, a hydraulic valve is arranged on the side wall of the control box and is respectively communicated with oil cavities of the left lower hydraulic cylinder and the right lower hydraulic cylinder.

The utility model has the advantages that: the utility model discloses a reverse duplex position aluminum product hardware cold press is through setting up two reverse left feed guide rails and right feed guide rail, and the material loading end of left feed guide rail sets up with right feed guide rail's material loading end relatively promptly for left feed guide rail and right feed guide rail's the operative employee that corresponds can the split at relative both ends, and the operative employee who has guaranteed the feed end of single guide rail has comparatively spacious operating space, can not influence mutually. In addition, when the finished product on the left feeding guide rail is discharged, an operator positioned on the right feeding guide rail can take out the finished product output on the left feeding guide rail, so that efficient assistance cooperation is realized, and the processing efficiency is greatly improved.

Drawings

Fig. 1 is a perspective view of the present invention;

fig. 2 is a top view of the present invention;

FIG. 3 is a structural diagram of the control box of the present invention;

fig. 4 is a side view of the present invention;

fig. 5 is a structural diagram of the left feeding guide rail and the right feeding guide rail on the base of the present invention;

fig. 6 is a perspective view of the right power rail of the present invention.

Detailed Description

For a further understanding of the invention, reference is made to the following description taken in conjunction with the accompanying drawings and specific examples, in which:

in the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

As shown in fig. 1 to 6, the embodiment of the utility model provides a reverse duplex position aluminum product hardware cold press, it includes base 1 and establishes two parallel arrangement's on base 1 left feeding guide rail 2 and right feeding guide rail 3. A left lower die 4 which can be controlled to move is arranged on the left feeding guide rail 2, and a right lower die 5 which can be controlled to move is arranged on the right feeding guide rail 3. A control box 61 is fixed at the upper position of the middle part of the base 1 through a bracket 6, and a left upper die 7 matched with the left lower die 4 and a right upper die 8 matched with the right lower die 5 are arranged on the bottom plate of the control box 61. As shown in fig. 3, the control box 61 is provided with a left hold-down cylinder 71 connected to the left upper die 7 and a right hold-down cylinder 81 connected to the right upper die 8.

Further, the feeding end of the left feeding guide rail 2 is provided with a left stepping screw transmission mechanism, the left stepping screw transmission mechanism is in threaded transmission connection with the left lower die 4, the feeding end of the right feeding guide rail 3 is provided with a right stepping screw transmission mechanism, the right stepping screw transmission mechanism is in threaded transmission connection with the right lower die 5, and the feeding end of the left feeding guide rail 2 is opposite to the feeding end of the right feeding guide rail 3.

Further, as shown in fig. 5, the right feeding rail 3 includes a right power rail 31 and a right guide rail 32 disposed parallel to the right power rail 31, a right step screw transmission mechanism is disposed on the right power rail 31, and a threaded transmission seat 51 drivingly connected to a step screw in the right step screw transmission mechanism and a right slider 52 slidably connected to the right guide rail 32 are fixed to the bottom of the right lower mold 5. The left feeding guide rail 2 comprises a left power rail 21 and a left guide rail 22 arranged in parallel with the left power rail 21, and a left stepping screw transmission mechanism is arranged in the left power rail 21. The bottom of the left lower die 4 is fixed with a thread transmission seat in transmission connection with a stepping screw in a left stepping screw transmission mechanism, and a left sliding piece in sliding connection with the left guide rail 22.

Further, as shown in fig. 2, the base 1 is provided with a left feeding button 23 for controlling the start and stop of the left stepping screw transmission mechanism on one side corresponding to the feeding end of the left feeding guide rail 2, and the base 1 is provided with a right feeding button 33 for controlling the start and stop of the right stepping screw transmission mechanism on one side corresponding to the feeding end of the right feeding guide rail 3.

Further, as shown in fig. 6, a right reset proximity switch 311 is provided at a position close to the feeding end of the right feeding rail 3 on the rail side edge of the right power rail 31, a right overtravel-prevention proximity switch 312 is provided at a position away from the feeding end of the right feeding rail 3 on the rail side edge of the right power rail 31, and a right mold closing proximity switch 313 is provided at a position corresponding to the lower position of the right upper mold 8 on the rail side edge of the right power rail 31. Correspondingly, the induction magnetic head is arranged on the corresponding side of the right lower die 5, when an operator places the sheet aluminum material to be processed on the right lower die 5, the right feeding button 33 is pressed, the right stepping screw transmission mechanism is started to drive the right lower die 5 to move linearly, when the induction magnetic head on the side of the right lower die 5 induces the right die closing proximity switch 313, the right stepping screw transmission mechanism stops running under the control of the controller, and the right pressing hydraulic cylinder 81 is started to enable the right upper die 8 to move downwards to be matched with the right lower die 5. After the die is closed for a preset time, the controller controls the right lower pressing hydraulic cylinder 81 to retract and reset, the right upper die 8 moves upwards to be demoulded with the right lower die 5, then the right stepping screw transmission mechanism is started to drive the right lower die 5 to continue to move linearly, and when the right overtravel-preventing approach switch 312 is reached, the right stepping screw transmission mechanism reversely runs under the control of the controller to drive the right lower die 5 to reset so as to enable the right lower die 5 to return to the feeding end.

The rail side of left power rail 21 is followed and is equipped with left reset proximity switch in the position department that is close to the material loading end of left feeding guide rail 2, and the rail side of left power rail 21 is followed and is equipped with left overtravel-preventing proximity switch in the position department of keeping away from the material loading end of left feeding guide rail 2, and the rail side of left power rail 21 is followed and is equipped with left compound die proximity switch in the below position department that corresponds upper left mould 7. The principle of the left feeding guide rail 2 is the same as the working principle of the right feeding guide rail 3, and the description is omitted here.

Further, as shown in fig. 3, a left guide rod 72 fixedly connected with the left upper die 7 and a right guide rod 82 fixedly connected with the right upper die 8 are arranged in the control box 61, and both the left guide rod 72 and the right guide rod 82 are slidably inserted into corresponding sliding sleeves on the bottom plate of the control box 61. The side wall of the control box 61 is provided with a hydraulic valve 9, and the hydraulic valve 9 is respectively communicated with oil chambers of the left lower hydraulic cylinder 71 and the right lower hydraulic cylinder 81.

To sum up, the utility model discloses a reverse duplex position aluminum product hardware cold press is through setting up two reverse left feeding guide rails and right feeding guide rail, and the material loading end of left feeding guide rail sets up with right feeding guide rail's material loading end relatively promptly for left feeding guide rail and right feeding guide rail's the operative employee that corresponds can the separated residence at relative both ends, the operative employee of the feed end of having guaranteed the monoblock guide rail has comparatively spacious operating space, can not influence each other. In addition, when the finished product on the left feeding guide rail is discharged, an operator positioned on the right feeding guide rail can take out the finished product output on the left feeding guide rail, so that efficient assistance cooperation is realized, and the processing efficiency is greatly improved.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, but rather is described in the foregoing embodiments and the description with reference to the principles of the invention and that various changes and modifications may be made without departing from the spirit and scope of the invention, and it is intended that all such changes and modifications fall within the scope of the invention as claimed, which is defined by the claims appended hereto and their equivalents.

Claims (9)

1. A reverse double-station aluminum hardware cold press is characterized by comprising a base (1), and a left feeding guide rail (2) and a right feeding guide rail (3) which are arranged on the base (1) in parallel, a left lower die (4) which can be controlled to move is arranged on the left feeding guide rail (2), a right lower die (5) which can be controlled to move is arranged on the right feeding guide rail (3), a control box (61) is fixed at the upper position of the middle part of the base (1) through a bracket (6), a left upper die (7) matched with the left lower die (4) is arranged on a bottom plate of the control box (61), and a right upper die (8) matched with the right lower die (5), a left pressing hydraulic cylinder (71) connected with the left upper die (7) is arranged in the control box (61), and a right downward-pressing hydraulic cylinder (81) connected with the right upper die (8).

2. The reverse double-station aluminum hardware cold press according to claim 1, wherein a left stepping screw transmission mechanism is arranged at the feeding end of the left feeding guide rail (2), the left stepping screw transmission mechanism is in threaded transmission connection with the left lower die (4), a right stepping screw transmission mechanism is arranged at the feeding end of the right feeding guide rail (3), the right stepping screw transmission mechanism is in threaded transmission connection with the right lower die (5), and the feeding end of the left feeding guide rail (2) is opposite to the feeding end of the right feeding guide rail (3).

3. The reverse double-station aluminum hardware cold press according to claim 2, wherein the right feeding guide rail (3) comprises a right power rail (31) and a right guide rail (32) arranged in parallel with the right power rail (31), the right stepping screw transmission mechanism is arranged in the right power rail (31), and a threaded transmission seat (51) in transmission connection with a stepping screw in the right stepping screw transmission mechanism and a right sliding piece (52) in sliding connection with the right guide rail (32) are fixed at the bottom of the right lower die (5).

4. The reverse double-station aluminum hardware cold press according to claim 3, wherein the left feed rail (2) comprises a left power rail (21) and a left guide rail (22) arranged in parallel with the left power rail (21), the left stepping screw transmission mechanism is arranged in the left power rail (21), and a threaded transmission seat in transmission connection with a stepping screw in the left stepping screw transmission mechanism and a left sliding piece in sliding connection with the left guide rail (22) are fixed at the bottom of the left lower die (4).

5. The reverse double-station aluminum hardware cold press according to claim 3, wherein the base (1) is provided with a left feeding button (23) for controlling the left stepping screw transmission mechanism to start and stop at one side corresponding to the feeding end of the left feeding guide rail (2), and the base (1) is provided with a right feeding button (33) for controlling the right stepping screw transmission mechanism to start and stop at one side corresponding to the feeding end of the right feeding guide rail (3).

6. The reverse double-station aluminum hardware cold press according to claim 3, wherein a right reset proximity switch (311) is arranged on the rail side edge of the right power rail (31) at a position close to the feeding end of the right feeding guide rail (3), a right overtravel-preventing proximity switch (312) is arranged on the rail side edge of the right power rail (31) at a position far away from the feeding end of the right feeding guide rail (3), and a right die closing proximity switch (313) is arranged on the rail side edge of the right power rail (31) at a position corresponding to the lower part of the right upper die (8).

7. The reverse double station aluminum hardware cold press according to claim 4, wherein the rail side edge of the left power rail (21) is provided with a left reset proximity switch at a position close to the feeding end of the left feeding rail (2), the rail side edge of the left power rail (21) is provided with a left overtravel prevention proximity switch at a position far away from the feeding end of the left feeding rail (2), and the rail side edge of the left power rail (21) is provided with a left mold closing proximity switch at a position corresponding to the lower position of the left upper mold (7).

8. The reverse double-station aluminum hardware cold press according to claim 1, characterized in that a left guide rod (72) fixedly connected with the left upper die (7) and a right guide rod (82) fixedly connected with the right upper die (8) are arranged in the control box (61), and the left guide rod (72) and the right guide rod (82) are slidably sleeved in corresponding sliding sleeves on a bottom plate of the control box (61).

9. The reverse double station aluminum hardware cold press according to claim 1, wherein a side wall of said control box (61) is provided with a hydraulic valve (9), said hydraulic valve (9) being in communication with oil chambers of said left lower hydraulic cylinder (71) and said right lower hydraulic cylinder (81), respectively.

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