CN215696974U - Hanger shaping mechanism - Google Patents

Abstract

The utility model discloses a hanger shaping mechanism and aims to provide a hanger shaping mechanism which is rapid in correction and high in correction efficiency. The Z-axis moving die set comprises a Z-axis moving die set, a bottom plate and a jacking die set, wherein an installation seat is arranged at the movable end of the Z-axis moving die set, an upper die, a demoulding connecting plate and a demoulding pressing plate are arranged on the installation seat, a spring and a guide piece are arranged between the demoulding connecting plate and the installation seat, the demoulding pressing plate is fixed below the demoulding connecting plate, through holes are formed in the middle of the demoulding connecting plate and the middle of the demoulding pressing plate, the upper die extends out of the demoulding connecting plate and the demoulding pressing plate through the through holes, a first side pushing die set and a second side pushing die set are arranged on the bottom plate and are respectively positioned on two sides of the jacking die set, a lower die positioned below the upper die is arranged at the movable end of the jacking die set, and the first side pushing die set and the second side pushing die set are matched with the lower die. The utility model is applied to the technical field of hanger shaping.

Description

Hanger shaping mechanism

Technical Field

The utility model relates to a hanger shaping mechanism.

Background

At present, the mobile phone middle frame needs to be arranged in an anode hanger when an electroplating plant carries out anodic oxidation. The hanger is a primary and secondary hanger structure made of titanium alloy materials, the primary and secondary hanger structure is formed by combining a primary hanger and a secondary hanger, the primary hanger is pressed through an inverted buckle on a spring plate of the secondary hanger, and a pressing pin on the primary hanger fully contacts a mobile phone frame. The product is packed into to electroplating from the hanger and is accomplished, dismantles again, and whole process time is of a specified duration, makes the female shell fragment of hanging produce titanium alloy deformation memory, after repeatedly putting into use many times, shell fragment compression deformation, when putting into use again, the back-off on the shell fragment can not push down the son and hang, leads to the pressing needle that the son hung can not fully contact cell-phone frame, and then leads to the positive pole to switch on the failure. At the moment, the compression amount of the elastic sheet needs to be manually corrected, and manual correction cannot be performed quickly, accurately and efficiently in lean production. Therefore, there is a need to develop a hanger reshaping mechanism with fast calibration and high calibration efficiency.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects of the prior art and provides a hanger shaping mechanism with quick correction and high correction efficiency.

The technical scheme adopted by the utility model is as follows: the utility model comprises a Z-axis movement module, a bottom plate and a jacking module, wherein the movable end of the Z-axis movement module is provided with a mounting seat, an upper die, a demoulding connecting plate and a demoulding pressing plate are arranged on the mounting seat, a spring and a guide piece are arranged between the demoulding connecting plate and the mounting seat, the demoulding pressure plate is fixed below the demoulding connecting plate, the middle part of the demoulding connecting plate and the middle part of the demoulding pressure plate are both provided with through holes, the upper die extends out of the demoulding connecting plate and the demoulding pressing plate through the through hole, the bottom plate is provided with a first side push module and a second side push module which are respectively positioned at two sides of the jacking module, the movable end of the jacking module is provided with a lower die mold located below the upper die mold, and the first side pushing module and the second side pushing module are matched with the lower die mold.

Further, the Z-axis movement module comprises a fixed support, a motor, a screw rod assembly and a first linear sliding rail are arranged on the fixed support, the motor drives the screw rod assembly, a driving block is arranged on the screw rod assembly in a matched mode, a mounting seat is in sliding fit with the first linear sliding rail, and the mounting seat is arranged on the driving block in a matched mode.

Further, the jacking module includes the jacking cylinder, the cooperation is provided with the cylinder connecting plate on the jacking cylinder.

Further, the first side pushes away the module and the second side pushes away the module and all includes second linear slide rail, sliding fit has the side that is located jacking module side to push away the supporting seat on the second linear slide rail, the side push away the supporting seat with the lower mould cooperatees.

Further, the guide piece is including connecting the drawing of patterns connecting plate with the guiding axle between the mount pad, the upper end of guiding axle is provided with and is located the separation blade of mount pad top, the bearing briquetting has still been cup jointed to the upper end of guiding axle, the bearing briquetting is located the separation blade reaches between the mount pad.

Furthermore, a plurality of photoelectric sensors are arranged on the fixed support, and sensing pieces matched with the photoelectric sensors are arranged on the mounting seat.

Further, a coupler is arranged between the motor and the screw rod assembly in a matched mode.

Furthermore, a limiting seat is further arranged on the bottom plate and located between the first side pushing module and the second side pushing module, and buffers matched with the limiting seat are arranged on the first side pushing module and the second side pushing module.

The utility model has the beneficial effects that: the utility model completes reliable and uniform correction deformation by completely pressing the elastic sheets by the upper die and the lower die and adopting mechanical elastic deformation and plastic deformation, is rapid, uniform and efficient, provides reliable technical support for the shaping and correction production requirements of a large-scale, standardized and professional automatic anode hanger, and compared with the defects of the traditional technology, in the utility model, the first side push module, the second side push module and the jacking module are all in a retraction state in an initial state, the female hanger is placed on the lower die during shaping, the jacking module jacks the lower die and the female hanger to the highest position, and further the first side push module and the second side push module simultaneously move towards the direction of the jacking module so that the first side push module and the second side push module are positioned below the lower die, meanwhile, the Z-axis movement module drives the upper die to descend for a certain distance and then pre-presses the female hanger, the jacking module further drives the lower die and the female hanger to descend, so that the lower die falls on the first side pushing module and the second side pushing module, the Z-axis movement module further drives the upper die to continue descending, so that the female hanger can be completely pressed between the upper die and the lower die for shaping, and second, after shaping is finished, the Z-axis movement module drives the upper die to a pre-pressing position, the upper die and the female hanger are separated by the demoulding pressure plate under the elastic action of the spring, the jacking module further jacks the lower die, the first side pushing module and the second side pushing module reset, and the jacking module resets to an initial position, the Z-axis movement module drives the upper die to a safe height to finish shaping, so that the utility model has the advantages of quick correction and high correction efficiency.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic perspective view of the Z-axis motion module, the mounting base and the upper mold;

fig. 3 is a schematic perspective view of the jacking module, the lower mold, the first side pushing module 11 and the second side pushing module.

Detailed Description

As shown in fig. 1 to 3, in this embodiment, the present invention includes a Z-axis moving module 1, a bottom plate 2 and a jacking module 3, wherein a mounting seat 4 is disposed on a movable end of the Z-axis moving module 1, an upper mold 5, a demolding connecting plate 6 and a demolding press plate 7 are disposed on the mounting seat 4, a spring 8 and a guide 9 are disposed between the demolding connecting plate 6 and the mounting seat 4, the demolding press plate 7 is fixed below the demolding connecting plate 6, through holes 10 are formed in a middle portion of the demolding connecting plate 6 and a middle portion of the demolding press plate 7, the upper mold 5 extends out of the demolding connecting plate 6 and the demolding press plate 7 through the through holes 10, a first side-pushing module 11 and a second side-pushing module 12 are disposed on the bottom plate 2, the first side-pushing module 11 and the second side-pushing module 12 are respectively located on two sides of the jacking module 3, the movable end of the jacking module 3 is provided with a lower die 13 positioned below the upper die 5, and the first side pushing module 11 and the second side pushing module 12 are matched with the lower die 13. Compared with the defects of the prior art, in the utility model, in the initial state, the first side pushing module 11, the second side pushing module 12 and the jacking module 3 are all in the retraction state, the female hanger is placed on the lower die 13 during shaping, the jacking module 3 jacks the lower die 13 and the female hanger to the highest position, the first side pushing module 11 and the second side pushing module 12 move towards the direction of the jacking module 3 simultaneously, so that the first side pushing module 11 and the second side pushing module 12 are positioned below the lower die 13, meanwhile, the Z-axis moving module 1 drives the upper die 5 to descend for a certain distance to pre-press the female hanger, and the jacking module 3 drives the lower die 13 and the female hanger to descend, so that the lower die 13 falls on the first side pushing module 11 and the second side pushing module 12, further, the Z-axis movement module 1 drives the upper die 5 to continuously descend, so that a female hanger can be completely pressed between the upper die 5 and the lower die 13 for shaping for 1.5 seconds, after shaping is finished, the Z-axis movement module 1 drives the upper die 5 to a pre-pressing position, the demolding press plate 7 separates the upper die 5 from the female hanger under the elastic action of the spring 8, the jacking module 3 jacks the lower die 13, the first side pushing module 11 and the second side pushing module 12 are reset, the jacking module 3 is reset to an initial position, and the Z-axis movement module 1 drives the upper die 5 to a safe height to finish shaping, so that the quick correction and high correction efficiency are achieved.

In this embodiment, the Z-axis movement module 1 includes a fixed bracket 14, a motor 15, a lead screw assembly 16 and a first linear sliding rail 17 are disposed on the fixed bracket 14, the motor 15 drives the lead screw assembly 16, a driving block 18 is disposed on the lead screw assembly 16 in a matching manner, the mounting base 4 is slidably fitted on the first linear sliding rail 17, and the mounting base 4 is fitted on the driving block 18.

In this embodiment, the jacking module 3 includes a jacking cylinder 19, and a cylinder connecting plate 20 is arranged on the jacking cylinder 19 in a matching manner.

In this embodiment, the first side pushes away module 11 and the second side pushes away module 12 and all includes second linear slide rail 21, sliding fit has on the second linear slide rail 21 and is located the side of 3 sides of jacking module pushes away supporting seat 22, the side push away supporting seat 22 with lower mould 13 cooperatees.

In this embodiment, the guide member 9 includes a guide shaft 23 connected between the demolding connecting plate 6 and the mounting seat 4, a blocking piece 24 located above the mounting seat 4 is disposed at the upper end of the guide shaft 23, a bearing pressing block 25 is further sleeved at the upper end of the guide shaft 23, and the bearing pressing block 25 is located between the blocking piece 24 and the mounting seat 4.

In this embodiment, a plurality of photoelectric sensors 26 are disposed on the fixing bracket 14, and a sensing piece 27 matched with the photoelectric sensors 26 is disposed on the mounting seat 4.

In this embodiment, a coupling 28 is disposed between the motor 15 and the lead screw assembly 16.

In this embodiment, the bottom plate 2 is further provided with a limiting seat 29, the limiting seat 29 is located between the first side pushing module 11 and the second side pushing module 12, and the first side pushing module 11 and the second side pushing module 12 are both provided with a buffer 30 matched with the limiting seat 29.

While the embodiments of the present invention have been described in terms of practical embodiments, they are not to be construed as limiting the meaning of the present invention, and modifications of the embodiments and combinations with other embodiments will be apparent to those skilled in the art in light of the present description.

Claims (8)

1. The utility model provides a hanger plastic mechanism which characterized in that: the die comprises a Z-axis movement module (1), a bottom plate (2) and a jacking module (3), wherein a mounting seat (4) is arranged at the movable end of the Z-axis movement module (1), an upper die (5), a demolding connecting plate (6) and a demolding pressing plate (7) are arranged on the mounting seat (4), a spring (8) and a guide piece (9) are arranged between the demolding connecting plate (6) and the mounting seat (4), the demolding pressing plate (7) is fixed below the demolding connecting plate (6), through holes (10) are formed in the middle of the demolding connecting plate (6) and the middle of the demolding pressing plate (7), the upper die (5) extends out of the demolding connecting plate (6) and the demolding pressing plate (7) through the through holes (10), a first side pushing module (11) and a second side pushing module (12) are arranged on the bottom plate (2), first side pushes away module (11) and second side pushes away module (12) and is located respectively the both sides of jacking module (3), be provided with on the activity end of jacking module (3) and be located go up lower mould (13) of mould (5) below, first side push away module (11) and second side push away module (12) all with lower mould (13) cooperate.

2. The hanger shaping mechanism of claim 1, wherein: z axle motion module (1) is including fixed bolster (14), be provided with motor (15), lead screw subassembly (16) and first linear slide rail (17) on fixed bolster (14), motor (15) drive lead screw subassembly (16), the cooperation is provided with drive block (18) on lead screw subassembly (16), mount pad (4) sliding fit is in on first linear slide rail (17), mount pad (4) cooperation sets up on drive block (18).

3. The hanger shaping mechanism of claim 1, wherein: jacking module (3) are including jacking cylinder (19), the cooperation is provided with cylinder connecting plate (20) on jacking cylinder (19).

4. The hanger shaping mechanism of claim 1, wherein: first side pushes away module (11) and second side pushes away module (12) and all includes second linear slide rail (21), sliding fit has on second linear slide rail (21) and is located the side of jacking module (3) side pushes away supporting seat (22), side push away supporting seat (22) with lower mould (13) cooperate.

5. The hanger shaping mechanism of claim 1, wherein: guide (9) are including connecting drawing of patterns connecting plate (6) with guiding axle (23) between mount pad (4), the upper end of guiding axle (23) is provided with and is located separation blade (24) of mount pad (4) top, bearing briquetting (25) have still been cup jointed to the upper end of guiding axle (23), bearing briquetting (25) are located separation blade (24) reach between mount pad (4).

6. The hanger shaping mechanism of claim 2, wherein: the fixing support (14) is provided with a plurality of photoelectric sensors (26), and the mounting seat (4) is provided with an induction sheet (27) matched with the photoelectric sensors (26).

7. The hanger shaping mechanism of claim 2, wherein: and a coupling (28) is arranged between the motor (15) and the screw rod assembly (16) in a matching manner.

8. The hanger shaping mechanism of claim 1, wherein: the bottom plate (2) is further provided with a limiting seat (29), the limiting seat (29) is located between the first side pushing module (11) and the second side pushing module (12), and buffers (30) matched with the limiting seat (29) are arranged on the first side pushing module (11) and the second side pushing module (12).

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