CN216835959U - A loading attachment for magnetic core detects - Google Patents

Abstract

The utility model relates to the technical field of magnetic core visual inspection feeding, and discloses a feeding device for magnetic core inspection, which comprises a discharging mechanism and a material moving mechanism, wherein the discharging mechanism comprises a left mounting seat and a right mounting seat which are arranged in a row, and a left mounting seat and a right mounting seat corresponding to the left mounting seat form a discharging station; move material mechanism and include the lateral shifting device, vertical mobile device, backup pad and jacking piece, in the in-service use, when there is the magnetic core on the blowing station, the action of vertical mobile device, the magnetic core is withstood to the jacking piece, the action of lateral shifting device then, drive the motion of magnetic core to next blowing station, the back that the motion of lateral shifting device targets in place, vertical mobile device resets, the magnetic core falls on next blowing station this moment, vertical mobile device resets and targets in place the back, the lateral shifting device resets, through letting move material mechanism according to above-mentioned work flow cycle work, can let the magnetic core remove next blowing station from current blowing station, realize the material loading of magnetic core.

Description

A loading attachment for magnetic core detects

Technical Field

The utility model relates to a magnetic core detects material loading technical field, concretely relates to a loading attachment for magnetic core detects.

Background

The four detection surfaces of the magnetic core are required to be detected after the production of the magnetic core is finished, so that whether the magnetic core has the defects of magnetic core crack, rubber shell crack, stitch tin adhesion, stitch tin melting, large glue amount, no lead wire entering a wire slot, magnetic core rotting/collapsing, insufficient rubber shell, wire breakage, insufficient tin feeding and the like is detected, and the condition that products leaving a factory meet requirements is ensured.

At present, the detection of the magnetic core is mostly finished through manual detection, the efficiency is low, and the manual detection has uncertainty and cannot ensure that the defects on the magnetic core can be completely found; if adopt equipment automatic to detect the magnetic core, then need loading attachment can carry the magnetic core to shoot camera department and carry out the image shooting.

SUMMERY OF THE UTILITY MODEL

In view of the not enough of background art, the utility model provides a loading attachment for magnetic core detects for carry the magnetic core.

For solving the technical problem, the utility model provides a following technical scheme: a feeding device for magnetic core detection comprises a discharging mechanism and a material moving mechanism, wherein the discharging mechanism comprises a left mounting seat and a right mounting seat which are arranged in a row, the left mounting seat and the right mounting seat are correspondingly arranged, and the left mounting seat and the right mounting seat are arranged at intervals; move material mechanism and include lateral shifting device, vertical mobile device, backup pad and jacking piece, vertical mobile device's stiff end is installed lateral shifting device's removal is served, the backup pad is installed vertical mobile device's removal is served, at least one jacking piece is installed at the top of backup pad, the jacking piece is located between left side mount pad and the right mount pad.

A left side mount pad and the right mount pad that corresponds with this left mount pad have constituteed a blowing station, and the drop feed mechanism and move the work flow of material mechanism as follows: when the magnetic cores are arranged on the material placing stations, the vertical moving device acts, the jacking blocks prop against the magnetic cores, then the transverse moving device acts to drive the magnetic cores to move towards the next material placing station, after the transverse moving device acts in place, the vertical moving device resets, the magnetic cores fall onto the next material placing station at the moment, and after the vertical moving device resets in place, the transverse moving device resets. When the magnetic core feeding device is in actual use, the material moving mechanism circularly works according to the working process, so that the magnetic core is driven to continuously move from the current feeding station to the next feeding station.

In certain embodiments, all of the left mounting blocks are mounted on a left mounting plate mounted on the left bracket, all of the right mounting blocks are mounted on a right mounting plate mounted on the right bracket.

In one embodiment, the left fixing plate is provided with five left mounting seats, the five left mounting seats are equally spaced, and the right fixing plate is provided with five right mounting seats, and the five right mounting seats are equally spaced.

In one embodiment, the lateral moving device and the vertical moving device are both air cylinders.

In a certain embodiment, the left mounting seat is provided with a left groove, the right mounting seat is provided with a right groove, the right side surface of the left groove is open, and the left side surface of the right groove is open.

In one embodiment, the jacking block has a concave shape, and the horizontal portion of the jacking block is mounted on the support plate.

Compared with the prior art, the utility model beneficial effect who has is: the utility model discloses in the time of the in-service use, when having the magnetic core on the blowing station, the action of vertical mobile device, the magnetic core is withstood to the jacking piece, the action of lateral shifting device is after that, drive the motion of magnetic core next blowing station, the back that the action of lateral shifting device targets in place, vertical mobile device resets, the magnetic core falls on next blowing station this moment, vertical mobile device resets after targeting in place, the lateral shifting device resets, through letting move material mechanism according to above-mentioned work flow cycle work, can drive the magnetic core and constantly remove next blowing station from current blowing station, and then realize the material loading of magnetic core.

Drawings

Fig. 1 is a schematic structural diagram of the present invention in the embodiment.

In the figure: 1. the device comprises a bottom plate, 20, a left mounting seat, 21, a right mounting seat, 22, a left fixing plate, 23, a left support, 24, a right support, 25, a right fixing plate, 26, a left groove, 27, a right groove, 30, a transverse moving device, 31, a vertical moving device, 32, a supporting plate, 33 and a jacking block.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic drawings and illustrate the basic structure of the present invention only in a schematic manner, and thus show only the components related to the present invention.

As shown in fig. 1, a feeding device for magnetic core detection comprises a discharging mechanism and a moving mechanism, wherein the discharging mechanism and the moving mechanism are both installed on a bottom plate 1, the discharging mechanism comprises a left mounting seat 20 and a right mounting seat 21 which are arranged in a row, the left mounting seat 20 and the right mounting seat 21 are arranged correspondingly, a discharging station is formed by one left mounting seat 20 and the right mounting seat 21 corresponding to the left mounting seat 20, and the left mounting seat 20 and the right mounting seat 21 are arranged at intervals;

move the material mechanism and include lateral shifting device 30, vertical moving device 31, backup pad 32 and jacking piece 33, and the stiff end of vertical moving device 31 is installed on the removal end of lateral shifting device 30, and backup pad 32 is installed on the removal end of vertical moving device 30, and at least one jacking piece 33 is installed at the top of backup pad 32, and jacking piece 33 is located between left mount pad 20 and the right mount pad 21.

Specifically, in the present embodiment, all the left mounting seats 20 are mounted on the left fixing plate 22, the left fixing plate 22 is mounted on the left bracket 23, all the right mounting seats 21 are mounted on the right fixing plate 25, and the right fixing plate 25 is mounted on the right bracket 24.

Specifically, as shown in fig. 1, in this embodiment, five left mounting seats 20 are mounted on the left fixing plate 22, five left mounting seats 20 are distributed at equal intervals, five right mounting seats 21 are mounted on the right fixing plate 25, and five right mounting seats 21 are distributed at equal intervals, so that the discharging mechanism in fig. 1 totally comprises five discharging stations. In a certain embodiment, the number of the material placing stations can be increased or decreased according to the feeding requirement.

The work flow of the discharging mechanism and the material moving mechanism in the embodiment is as follows: when a magnetic core is arranged on the material placing station, the vertical moving device 31 acts, the jacking block 33 jacks the magnetic core, then the transverse moving device 30 acts to drive the magnetic core to move towards the next material placing station, after the transverse moving device 30 acts in place, the vertical moving device 31 resets, the magnetic core falls onto the next material placing station at the moment, and after the vertical moving device 31 resets in place, the transverse moving device 30 resets. When the magnetic core feeding device is in actual use, the material moving mechanism circularly works according to the working process, so that the magnetic core is driven to continuously move from the current feeding station to the next feeding station.

Specifically, in the present embodiment, the lateral moving device 30 and the vertical moving device 31 are both air cylinders.

Specifically, in this embodiment, the left mounting seat 20 is provided with a left groove 26, the right mounting seat 21 is provided with a right groove 27, a right side surface of the left groove 26 is open, and a left side surface of the right groove 27 is open. When the magnetic core needs to be placed on the discharging mechanism, two ends of the magnetic core are placed in the left groove 26 and the right groove 27 respectively.

Specifically, in the present embodiment, the jacking block 33 has a concave shape, and the horizontal portion of the jacking block 33 is mounted on the support plate 32. When the jacking block 33 jacks the magnetic core, the two vertical parts of the jacking block 33 just block the magnetic core.

To sum up, the utility model discloses in the time of the in-service use, when there is the magnetic core on the blowing station, the action of vertical mobile device 31, jacking piece 33 withstands the magnetic core, lateral shifting device 30 acts after that, drive the motion of magnetic core next blowing station, lateral shifting device 30 acts after targetting in place, vertical mobile device 31 resets, the magnetic core falls on next blowing station this moment, vertical mobile device 31 resets after targetting in place, lateral shifting device 30 resets, through letting move material mechanism according to above-mentioned work flow cycle work, can drive the magnetic core and constantly remove next blowing station from current blowing station, and then realize the material loading of magnetic core.

In light of the above, the present invention is not limited to the above embodiments, and various changes and modifications can be made by the worker without departing from the scope of the present invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (6)

1. A feeding device for magnetic core detection is characterized by comprising a discharging mechanism and a material moving mechanism, wherein the discharging mechanism comprises a left mounting seat and a right mounting seat which are arranged in a row, the left mounting seat and the right mounting seat are correspondingly arranged, and the left mounting seat and the right mounting seat are arranged at intervals; move material mechanism and include lateral shifting device, vertical mobile device, backup pad and jacking piece, vertical mobile device's stiff end is installed lateral shifting device's removal is served, the backup pad is installed vertical mobile device's removal is served, at least one jacking piece is installed at the top of backup pad, the jacking piece is located between left side mount pad and the right mount pad.

2. The feeding device for magnetic core detection according to claim 1, wherein all the left mounting seats are mounted on a left fixing plate, the left fixing plate is mounted on a left bracket, all the right mounting seats are mounted on a right fixing plate, and the right fixing plate is mounted on a right bracket.

3. The feeding device for magnetic core detection according to claim 2, wherein five left mounting seats are mounted on the left fixing plate, the five left mounting seats are equally spaced, and five right mounting seats are mounted on the right fixing plate, and the five right mounting seats are equally spaced.

4. The feeding device for magnetic core detection according to claim 1, wherein the horizontal moving device and the vertical moving device are both air cylinders.

5. The feeding device for magnetic core detection according to any one of claims 1 to 4, wherein a left groove is formed in the left mounting seat, a right groove is formed in the right mounting seat, a right side surface of the left groove is open, and a left side surface of the right groove is open.

6. The feeding device for magnetic core detection according to claim 1, wherein the jacking block is concave-shaped, and the horizontal part of the jacking block is mounted on the supporting plate.

Images