CN209682841U - A kind of core-removing device - Google Patents

Abstract

The utility model relates to spool manufacturing technology fields, disclose a kind of core-removing device.The core-removing device includes depoling fixed plate；Slide assemblies are set in the depoling fixed plate；Clamping transfer component and lower clamp assemblies, it is all set on the slide assemblies, the clamping transfer component will be transferred to the lower clamp assemblies with cored spool by the slide assemblies, the clamping transfer component can clamp the upper end of the spool, and the lower clamp assemblies are used to clamp the lower end of the iron core；Component is pulled down, the drop-down component is set in the depoling fixed plate, for driving the lower clamp assemblies to move downward, disengages the iron core and the spool.The utility model can be realized automation depoling, reduce worker's workload and labor intensity, improve production efficiency.

Description

A kind of core-removing device

Technical field

The utility model relates to spool manufacturing technology field more particularly to a kind of core-removing devices.

Background technique

After moulding, the iron core in spool is deviate from for spool in the prior art, usually using artificial abjection, or Worker is needed to be placed constantly in equipment with cored spool during the core removal process using individual equipment abjection iron core, it Iron core is extracted using equipment afterwards.Above-mentioned depoling mode, working efficiency is low, and relies on manual operation, and labor intensity is big, easily The person is damaged, risk is high.

Utility model content

The purpose of this utility model is to provide a kind of core-removing devices, can be realized automation depoling, reduce worker's work Amount and labor intensity improve production efficiency.

For this purpose, the utility model uses following technical scheme:

A kind of core-removing device is provided, comprising:

Depoling fixed plate；

Slide assemblies are set in the depoling fixed plate；

Clamping transfer component and lower clamp assemblies, are all set on the slide assemblies, and the clamping transfer component passes through The slide assemblies will be transferred to the lower clamp assemblies with cored spool, and the clamping transfer component can clamp described The upper end of spool, the lower clamp assemblies are used to clamp the lower end of the iron core；

Pull down component, the drop-down component is set in the depoling fixed plate, for drive the lower clamp assemblies to Lower movement disengages the iron core and the spool.

Preferably, the slide assemblies include:

First actuator is set in the depoling fixed plate；

Sliding rail is set in depoling fixed plate；

Four-slider is slidably connected with the sliding rail；

Mobile support plate is clamped, is set on the Four-slider, first actuator drives the mobile branch of the clamping Fagging is moved back and forth along the sliding rail, and the clamping transfer component is set in the mobile support plate of clamping.

Preferably, the clamping transfer component includes:

Mobile fixed plate, the second actuator and the first clamping jaw cylinder are clamped, is all set in the mobile support plate of the clamping；

Second actuator drives the first clamping jaw cylinder to move back and forth along the vertical direction, the first clamping jaw cylinder For clamp injection molding after have the iron core the spool.

Preferably, the clamping transfer component further includes positioning plate, and the positioning plate is set to the mobile support of the clamping On plate, the first U-lag is provided on the positioning plate, first U-lag is used to position the lower end of the spool.

Preferably, the lower clamp assemblies include the second clamping jaw cylinder being set in the depoling fixed plate, and described Two clamping jaw cylinders be used for clamp be molded after non-depoling the spool in the iron core lower end.

Preferably, the drop-down component includes:

Actuator support plate is set to the lower section of the depoling fixed plate；

Third actuator is set in the actuator support plate, and the output end connection of the third actuator is cored Supporting block, the iron core supporting block are used to support the iron core.

Preferably, the drop-down component further includes actuator support column, and the both ends of the actuator support column are separately connected In depoling fixed plate and the actuator support plate, the actuator support column is set to the output end of the third actuator Two sides.

Preferably, it is provided with the second U-lag in the iron core supporting block, is circumferentially arranged on the cell wall of second U-lag There is protrusion, the iron core is arranged in second U-lag, and the protrusion can prevent the iron core along the vertical direction from described Abjection in second U-lag.

Preferably, second actuator is guide rod cylinder.

The utility model has the beneficial effects that by the way that clamping transfer component energy is arranged in depoling fixed plate in the utility model The cored spool of enough clamping bands, and clamping transfer component is transferred at lower clamp assemblies by slide assemblies, at this point, lower folder The lower end that component clamps iron core is held, iron core is pulled downward on by pulling down component, separates iron core with spool.Above-mentioned core-removing device It can be realized automatic depoling, structure is simple, and easy to operate, and manufacturing cost is low, can fully achieve automatically working, greatly Production efficiency is improved, the labor intensity of worker is reduced.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the core-removing device of the utility model；

Fig. 2 is the structural schematic diagram of an angle of the slide assemblies of the utility model；

Fig. 3 is the structural schematic diagram of another angle of the slide assemblies of the utility model；

Fig. 4 is the structural schematic diagram of an angle of the clamping transfer component of the utility model；

Fig. 5 is the structural schematic diagram of another angle of the clamping transfer component of the utility model；

Fig. 6 is the structural schematic diagram of the iron core supporting block of the utility model.

In figure:

101, depoling fixed plate；

102, slide assemblies；1021, the first actuator；1022, sliding rail；1023, mobile support plate is clamped；

103, clamping transfer component；1031, mobile fixed plate is clamped；1032, the second actuator；1033, the first clamping jaw gas Cylinder；1034, positioning plate；10341, the first U-lag；1035, the first buffer；1036, the second buffer；1037, third buffers Device；1038, the first clamping jaw air cylinder fixed plate；

104, lower clamp assemblies；1041, the second clamping jaw cylinder；

105, component is pulled down；1051, actuator support plate；1052, third actuator；1053, iron core supporting block；10531, Second U-lag；10532, raised；1054, actuator support column.

Specific embodiment

Further illustrate the technical solution of the utility model below with reference to the accompanying drawings and specific embodiments.

As shown in Figure 1, the core-removing device in the present embodiment includes depoling fixed plate 101, slide assemblies 102, clamping transfer Component 103, lower clamp assemblies 104 and drop-down component 105.Wherein, slide assemblies 102 are set in depoling fixed plate 101.

Clamping transfer component 103 and lower clamp assemblies 104 are all set on slide assemblies 102, and clamping transfer component 103 is logical It crosses slide assemblies 102 and the spool 3 with cored 5 is transferred to lower clamp assemblies 104, clamping transfer component 103 can clamp note The upper end of spool 3 after modeling, lower clamp assemblies 104 are used to clamp the lower end of iron core 5.

Drop-down component 105 is set to depoling fixed plate 101, for driving lower clamp assemblies 104 to move downward, makes iron core 5 It is disengaged with spool 3.

It is capable of clamping band cored 5 by the way that clamping transfer component 103 in depoling fixed plate 101 is arranged in the present embodiment Spool 3, and clamping transfer component 103 is transferred at lower clamp assemblies 104 by slide assemblies 102, at this point, lower clamp assemblies 104 clamp the lower end of iron core 5, pull downward on iron core 5 by pulling down component 105, separate iron core 5 with spool 3.Above-mentioned depoling Device can be realized automatic depoling, and structure is simple, and easy to operate, and manufacturing cost is low, can fully achieve automatically working, greatly The earth improves production efficiency, reduces the labor intensity of worker.

As shown in Figures 2 and 3, above-mentioned slide assemblies 102 include the first actuator 1021, sliding rail 1022, Four-slider and Clamp mobile support plate 1023, wherein the first actuator 1021 is set in core plate fixed plate.It is solid that sliding rail 1022 is set to depoling On fixed board 101.Four-slider is slidably connected with sliding rail 1022.It clamps mobile support plate 1023 to be set on Four-slider, first The driving of actuator 1021 clamps mobile support plate 1023 and moves back and forth along sliding rail 1022, and clamping transfer component 103 is set to clamping In mobile support plate 1023.

As shown in Figure 4 and Figure 5, above-mentioned clamping transfer component 103 includes clamping mobile fixed plate 1031, the second actuator 1032 and the first clamping jaw cylinder 1033, wherein clamp mobile fixed plate 1031, the second actuator 1032 and the first clamping jaw cylinder 1033 are all set in the mobile support plate 1023 of clamping.Second actuator 1032 drives the first clamping jaw cylinder 1033 along the vertical direction It moves back and forth, the first clamping jaw cylinder 1033 is used for the spool 3 of clamping band cored 5.

Specifically, the second actuator 1032 is guide rod cylinder, and it is solid that the output end of guide rod cylinder is connected with the first clamping jaw cylinder Fixed board 1038, the first clamping jaw cylinder 1033 are arranged in the first clamping jaw air cylinder fixed plate 1038.

As shown in Figure 1, clamping mobile fixed plate 1031 is provided with the first buffer 1035, clamp in mobile support plate 1023 It is provided with the second buffer 1036, the first buffer 1035 is used to limit and buffer the limes superiors position of the first clamping jaw cylinder 1033 It sets, the second buffer 1036 is used to limit and buffer the lower limit position of the first clamping jaw cylinder 1033.

Third buffer 1037 is provided in depoling fixed plate 101, third buffer 1037 is set to sliding rail 1022 and leans on One end of nearly second clamping jaw cylinder 1041 is moved for limiting and buffering the mobile support plate 1023 of clamping along sliding rail 1022.

As depicted in figs. 1 and 2, clamping transfer component 103 further includes positioning plate 1034, and positioning plate 1034 is set to clamping and moves In dynamic support plate 1023, the first U-lag 10341 is provided on positioning plate 1034, the lower end of the spool 3 with cored 5 spool 3 It is set in the first U-lag 10341.

Lower clamp assemblies 104 include the second clamping jaw cylinder 1041 being set in depoling fixed plate 101, the second clamping jaw cylinder The lower end of iron core 5 inside 1041 spool 3 for clamping non-depoling.

Pulling down component 105 includes actuator support plate 1051 and third actuator 1052, wherein actuator support plate 1051 It is set to the lower section of depoling fixed plate 101.Third actuator 1052 is set in actuator support plate 1051, third actuator 1052 output end connects cored supporting block 1053, and iron core supporting block 1053 is used to support the end of iron core 5.

As shown in fig. 6, being provided with the second U-lag 10531 in iron core supporting block 1053, iron core 5 is arranged in the second U-lag In 10531.Specifically, protrusion 10532 is circumferentially provided on the cell wall of the second U-lag 10531, iron core 5 is pushed into along the second U-shaped In slot 10531, this end of iron core 5 is provided with ladder slot structure, and protrusion 10532 can prevent iron core 5 along the vertical direction from the 2nd U Abjection in shape slot 10531.

Pulling down component 105 further includes actuator support column 1054, and the both ends of actuator support column 1054 are connected to de- Core fixed plate 101 and actuator support plate 1051, actuator support column 1054 are set to the output end of third actuator 1052 Two sides.

Obviously, the above embodiments of the present invention is used for the purpose of clearly illustrating examples for clearly illustrating the present invention, and It is not limitations of the embodiments of the present invention.For those of ordinary skill in the art, in above description On the basis of can also make other variations or changes in different ways.There is no need and unable to give all embodiments Exhaustion.Any modifications, equivalent replacements, and improvements made within the spirit and principle of the present invention etc., should be included in Within the protection scope of the utility model claims.

Claims (9)

1. a kind of core-removing device characterized by comprising

Depoling fixed plate (101)；

Slide assemblies (102) are set on the depoling fixed plate (101)；

Clamping transfer component (103) and lower clamp assemblies (104), are all set on the slide assemblies (102), and the clamping moves Spool (3) with cored (5) is transferred to the lower clamp assemblies by the slide assemblies (102) by sending component (103) (104), clamping transfer component (103) can clamp the upper end of the spool (3), and the lower clamp assemblies (104) are used for Clamp the lower end of the iron core (5)；

Pull down component (105), the drop-down component (105) is set on the depoling fixed plate (101), for drive it is described under Clamp assemblies (104) move downward, and disengage the iron core (5) and the spool (3).

2. core-removing device according to claim 1, which is characterized in that the slide assemblies (102) include:

First actuator (1021) is set on the depoling fixed plate (101)；

Sliding rail (1022) is set on depoling fixed plate (101)；

Four-slider is slidably connected with the sliding rail (1022)；

Mobile support plate (1023) are clamped, are set on the Four-slider, first actuator (1021) drives the folder It holds mobile support plate (1023) to move back and forth along the sliding rail (1022), clamping transfer component (103) is set to clamping and moves On dynamic support plate (1023).

3. core-removing device according to claim 2, which is characterized in that the clamping transfers component (103) and includes:

Mobile fixed plate (1031), the second actuator (1032) and the first clamping jaw cylinder (1033) are clamped, the folder is all set in It holds on mobile support plate (1023)；

Second actuator (1032) drives the first clamping jaw cylinder (1033) to move back and forth along the vertical direction, and described first Clamping jaw cylinder (1033) is used to clamp the spool (3) with the iron core (5) after injection molding.

4. core-removing device according to claim 3, which is characterized in that clamping transfer component (103) further includes positioning Plate (1034), the positioning plate (1034) is set on the clamping mobile support plate (1023), on the positioning plate (1034) It is provided with the first U-lag (10341), first U-lag (10341) is used to position the lower end of the spool (3).

5. core-removing device according to claim 1, which is characterized in that the lower clamp assemblies (104) include being set to institute The second clamping jaw cylinder (1041) on depoling fixed plate (101) is stated, after the second clamping jaw cylinder (1041) is for clamping injection molding The lower end of the iron core (5) in the spool (3) of non-depoling.

6. core-removing device according to claim 1, which is characterized in that the drop-down component (105) includes:

Actuator support plate (1051) is set to the lower section of the depoling fixed plate (101)；

Third actuator (1052) is set on the actuator support plate (1051), the third actuator (1052) it is defeated Outlet connects cored supporting block (1053), and the iron core supporting block (1053) is used to support the iron core (5).

7. core-removing device according to claim 6, which is characterized in that the drop-down component (105) further includes actuator branch The both ends of dagger (1054), the actuator support column (1054) are connected to depoling fixed plate (101) and the actuator Support plate (1051), the actuator support column (1054) are set to the two sides of the output end of the third actuator (1052).

8. core-removing device according to claim 6, which is characterized in that be provided with second on the iron core supporting block (1053) U-lag (10531) is circumferentially provided on the cell wall of second U-lag (10531) raised (10532), iron core (5) card In second U-lag (10531), the protrusion (10532) can prevent the iron core (5) along the vertical direction from described Abjection in second U-lag (10531).

9. core-removing device according to claim 3, which is characterized in that second actuator (1032) is guide rod cylinder.