CN212625164U - Transformer core prestack device - Google Patents

Abstract

The utility model discloses a device is folded in advance to transformer core, including former work or material rest, workstation and manipulator, the raw materials frame is used for placing the raw materials unshakable in one's determination, and the raw materials frame is two at least, and the workstation is used for placing the iron core after folding, and the manipulator is used for overlapping the iron core piece on the raw materials frame on the workstation. When the iron core needs to be pre-stacked, the raw materials of the iron core sheets are placed on the raw material frame, and the corresponding iron core sheets are pre-stacked on the workbench in sequence through the manipulator. In the transformer core prestack device that this application provided, through setting up the manipulator, when prestack unshakable in one's determination promptly, replace staff's manual transport iron core piece through the manipulator, and then reduced staff's intensity of labour who prestacks unshakable in one's determination effectively.

Description

Transformer core prestack device

Technical Field

The utility model relates to a transformer core assembles technical field, in particular to transformer core is folded device in advance.

Background

With the continuous rising of the voltage grade and the capacity of the transformer, the structure of the transformer is more and more complex, and the manufacturing requirement is higher and higher. The transformer core is used as the heart of the transformer, so that the quality of the transformer is decisive. The stacking efficiency and quality of the iron core four-stage and six-stage pre-stacking process are important factors for determining the production efficiency and quality of the transformer.

The traditional transformer iron core is generally formed by stacking thousands of silicon steel sheets, the iron core center column of the high-voltage grade and direct-current products of the existing transformer mainly adopts four-stage and six-stage stacking, manual pre-stacking is needed before formal stacking for ensuring the product quality, and the phenomenon of low accuracy can occur due to complicated production steps of the iron core pre-stacking, particularly long-term stoop operation of operators. The iron core pre-stacking procedure not only consumes a large amount of working hours and manpower, but also causes a large labor intensity of workers for pre-stacking the iron cores.

Therefore, how to reduce the labor intensity of pre-stacking the iron cores by workers is a technical problem to be solved urgently by the technicians in the field.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a transformer core device of folding in advance to reduce staff and fold in advance unshakable in one's determination intensity of labour.

In order to achieve the above object, the utility model provides a transformer core prestack device, include:

the raw material racks are used for placing the raw materials of the core sheets, and the number of the raw material racks is at least two;

the workbench is used for placing the stacked iron core sheets;

and the manipulator is used for stacking the iron core sheets on the raw material rack on the workbench.

Preferably, the raw material frame and the work table are arranged in a row in sequence.

The number of the working tables is at least one, and the raw material frames are distributed on two opposite sides of the working tables.

Preferably, the scrap rack is used for placing scrap iron core sheets, the number of the scrap racks is two, and the two scrap racks are respectively located on the outer sides of the two raw material racks on the edge.

Preferably, the device also comprises a supporting table, wherein a track which can move the supporting table out is arranged at the bottom end of the supporting table, and the waste material frame, the raw material frame and the workbench are all arranged on the supporting table.

Preferably, the number of the support tables is two, and each support table is provided with at least one raw material frame and at least one workbench.

Preferably, the manipulator comprises a sucker capable of sucking the core sheet, and can slide in a reciprocating mode along the arrangement direction of the raw material frame and the workbench.

Preferably, a visual recognition measuring device for recognizing the length and width of the core segment is further included.

Preferably, the device further comprises an electric control device and an alarm device, and the manipulator, the alarm device and the visual identification measuring device are all connected with the electric control device.

In the technical scheme, the utility model provides a transformer core prestack device includes former work or material rest, workstation and manipulator, and the raw materials frame is used for placing the raw materials unshakable in one's determination, and the raw materials frame is two at least, and the workstation is used for placing the iron core piece after stacking, and the manipulator is used for stacking the iron core piece on the raw materials frame on the workstation. When the iron core needs to be pre-stacked, the raw materials of the iron core sheets are placed on the raw material frame, and the corresponding iron core sheets are pre-stacked on the workbench in sequence through the manipulator.

According to the transformer core pre-stacking device, the manipulator is arranged, namely when the core is pre-stacked, the manipulator replaces a worker to manually carry the core sheets, and therefore the labor intensity of the worker for pre-stacking the core is effectively reduced.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

Fig. 1 is a three-dimensional structure diagram of a transformer core pre-stacking device according to an embodiment of the present invention;

fig. 2 is a diagram of a working process of pre-stacking three center pillars on three material racks in the transformer core pre-stacking apparatus provided in the embodiment of the present invention;

fig. 3 is a diagram illustrating a working process of pre-stacking two center pillars by three material racks in the transformer core pre-stacking apparatus according to an embodiment of the present invention;

fig. 4 is a diagram of a working process of pre-stacking a center pillar by three material racks in the transformer core pre-stacking apparatus provided in the embodiment of the present invention;

fig. 5 is a working process diagram of two middle pillars pre-stacked on two material racks in the transformer core pre-stacking device provided by the embodiment of the utility model.

Wherein in FIGS. 1-5: 1-support, 2-manipulator, 3-sucker, 4-support table, 5-waste rack, 6-raw material rack, 7-workbench.

Detailed Description

The core of the utility model is to provide a transformer core pre-stacking device to reduce the labor intensity that the staff pre-stacked unshakable in one's determination.

In order to make those skilled in the art better understand the technical solution of the present invention, the present invention will be further described in detail with reference to the accompanying drawings and embodiments.

Please refer to fig. 1 to 5.

In a specific embodiment, the utility model discloses concrete embodiment provides a transformer core prestack device includes former frame 6, workstation 7 and manipulator 2, and former frame 6 is used for placing the lamination raw materials, and former frame 6 is two at least, and workstation 7 is used for placing the lamination after the folding lamination, and manipulator 2 is used for stacking the lamination on former frame 6 on workstation 7.

For ease of handling of the robot 2, the material racks 6 and the work tables 7 are preferably arranged in rows.

In one embodiment, there is at least one working platform 7, and in particular, there may be two working platforms 7, and the raw material racks 6 are distributed on two opposite sides of the working platform 7. Of course, the number of the work tables 7 may be three.

In one embodiment, there are at least two raw material racks 6, and in particular, there may be three raw material racks 6.

When the iron core is pre-stacked, the raw materials of the iron core sheets are placed on the raw material frame 6, preferably, different raw material frames 6 are used for placing the iron core sheets of different models, and the corresponding iron core sheets are pre-stacked on the workbench 7 in sequence through the manipulator 2. Preferably, the iron core is pre-stacked in four stages and six stages.

As can be seen from the above description, in the transformer core pre-stacking device provided by the present application, by providing the manipulator 2, that is, when pre-stacking the core, the manipulator 2 replaces the worker to manually carry the core sheets, so as to effectively reduce the labor intensity of the worker for pre-stacking the core.

In one embodiment, the transformer core pre-stacking device further comprises a waste rack 5, the waste rack 5 is used for placing waste core sheets, and one or at least two waste racks 5 are provided. Preferably, the waste material frame 5 is two, is located the outside of two former block 6 in edge respectively, and when the core piece monitoring on the former block 6 was unqualified, manipulator 2 moved the waste material core piece to waste material frame 5 on.

In order to improve the commonality of the pre-stacking device for the transformer core, preferably, at least two of the waste material frame 5, the raw material frame 6 and the workbench 7 are parts with the same structure, specifically, the structures of the raw material frame 6 and the workbench 7 are the same, the structures of the waste material frame 5 and the raw material frame 6 are the same, the structures of the waste material frame 5 and the workbench 7 are the same, preferably, the structures of the waste material frame 5, the raw material frame 6 and the workbench 7 are the same, and the positions of the waste material frame 5, the raw material frame 6 and the workbench 7 can be arranged according to requirements when the pre-stacking device is used specifically.

Specifically, eight core sheets with the same structure can be arranged to place the table as waste material rack 5, raw material rack 6 and workbench 7, the middle is that three core sheets place the table as workbench 7, raw material rack 6 on one side of both sides, two raw material racks 6 on the other side, two core sheets on the outer side place the table as waste material rack 5 for placing multiple sheets or waste sheets, the requirement of six-stage pre-stacking while stacking three-column center pillars can be met to the maximum, and stacking is performed through two manipulators 2 on both sides of the pre-stacking table. The lamination is carried out one at a time, and the sequence and the number of the laminations are determined according to design requirements.

Specifically, this transformer core prestack device still includes brace table 4, and 4 bottoms of brace table are equipped with the track that can shift out brace table 4. In order to improve the operation stability, it is preferable that the support table 4 has rails on opposite sides of the bottom end thereof

The supporting table 4 is one, and the waste material rack 5, the raw material rack 6 and the workbench 7 are all arranged on the supporting table 4.

In another embodiment, in order to facilitate discharging and loading, preferably, there are two support tables 4, and each support table 4 is provided with at least one raw material rack 6 and at least one workbench 7, that is, the support table 4 is formed by splicing two tables, and a track is arranged below, and the two tables can be moved out of the working area from two sides of the apparatus respectively along the track so as to facilitate loading and unloading.

A plurality of pieces and waste pieces are moved to a waste rack 5 by a manipulator 2. Preferably, two manipulators 2 are respectively arranged on two sides of the workbench 7, the two manipulators 2 work independently, and a plurality of waste sheets are moved to the corresponding waste racks 5 on each side through the manipulators 2.

In one embodiment, the transformer core pre-stacking apparatus further includes a supporting table driving device for driving the supporting table 4 to move. The supporting table 4 is driven to move by the supporting table driving device, so that the labor intensity of workers is further reduced.

Specifically, this transformer core prestack device still includes support 1, and manipulator 2 is including the sucking disc 3 that can actuation iron core piece, and is concrete, and sucking disc 3 upwards risees at the in-process that advances, descends when needs actuation iron core piece, and manipulator 2 can be followed raw materials frame 6 and workstation 7 direction reciprocating sliding of arranging, and is concrete, is equipped with the slide rail that supplies manipulator reciprocating sliding on support 1, leads manipulator 2. Preferably, each manipulator 2 with a plurality of suckers 3 can effectively grab the iron core sheet with a large area and an extremely thin thickness, and specifically, the iron core sheet is a single silicon steel sheet.

On the basis of the above schemes, the transformer core pre-stacking device further comprises a visual identification and measurement device for identifying the length and the width of the core sheets. Specifically, the vision recognition system can effectively identify the width of the millimeter-scale silicon steel sheet so as to accurately judge the number of the silicon steel sheet levels and finish the pre-stacking of the product.

Preferably, the pre-stacking device for the transformer core further comprises an electric control device and an alarm device, and the manipulator 2, the alarm device and the visual identification measuring device are all connected with the electric control device. Specifically, the pre-stacking device for the transformer cores further comprises a counting device connected with the electric control device. The sheet type of the core sheet is identified through the sheet width and the center line length, and the automatic alarm and the manual treatment are carried out when the number of the sheets is small.

In specific work, the working conditions can be input into the electric control device:

multistage prestack of center pillar piece is divided into six grades of prestacks and level four prestacks

Splicing six-stage pre-stacked iron core sheets: the wide splicing is divided into three types of Ah1+ Ah2+ Ah3, and the narrow splicing is divided into three types of Ak1+ Ak2+ Ak 3.

Splicing four-stage pre-stacked iron core sheets: the wide splicing is two sheet types of Ah1+ Ah2, and the narrow splicing is two sheet types of Ak1+ Ak 2.

In formal lamination, wide splicing and narrow splicing are spliced together, six (six-grade) or four (four-grade) points are stacked through mutual exchange, and the wide splicing and the narrow splicing need to be respectively pre-stacked in pre-stacking.

Number of pre-stacked columns for different types of products

When the multi-stage pre-stacking is carried out, the width of each sheet is different, and the lengths of products at the same level are the same.

Silicon steel sheets of different shapes to be pre-stacked are placed on corresponding material platforms through the arranged working platform 7, sheet materials are selected through a visual identification system according to pre-stacking requirements, a mechanical arm 2 with a plurality of suckers 3 is adopted to grab a single silicon steel sheet with a large area and an extremely thin thickness and place the single silicon steel sheet on the working platform 7, the sequence and the number of the stacked sheets are determined according to design requirements, the silicon steel sheets are pre-stacked one by one, and after the specified pre-stacking height is finished, the silicon steel sheets are moved out of one side of the equipment along a track to be lifted to a next working procedure.

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (9)

1. A transformer core pre-lamination apparatus, comprising:

the iron core sheet stacking device comprises raw material frames (6), wherein the raw material frames (6) are used for placing iron core sheet raw materials, and the number of the raw material frames (6) is at least two;

the workbench (7), the workbench (7) is used for placing the stacked iron core sheets;

the manipulator (2) is used for stacking the iron core sheets on the raw material rack (6) on the workbench (7).

2. A transformer core pre-lamination apparatus according to claim 1, wherein the raw material frame (6) and the work table (7) are arranged in a row.

3. A transformer core pre-lamination apparatus according to claim 2, wherein at least one of the tables (7) is provided, and the raw material frames (6) are distributed on opposite sides of the table (7).

4. A transformer core pre-stacking apparatus according to claim 2, further comprising two waste frames (5), wherein the waste frames (5) are used for placing waste core pieces, and the two waste frames (5) are respectively located at the outer sides of the two raw material frames (6) at the edge.

5. A pre-stacking device for transformer cores according to claim 4, further comprising a support table (4), wherein a rail for moving out the support table (4) is arranged at the bottom end of the support table (4), and the waste rack (5), the raw material rack (6) and the workbench (7) are all mounted on the support table (4).

6. A transformer core pre-stacking apparatus according to claim 5, characterized in that said supporting platforms (4) are two, each supporting platform (4) being provided with at least one said raw material rack (6) and at least one said working platform (7).

7. The pre-stacking device for the transformer cores according to claim 1, further comprising a bracket (1), wherein the manipulator (2) comprises a sucker (3) capable of sucking the core sheets, and the manipulator (2) can slide back and forth along the arrangement direction of the raw material frame (6) and the workbench (7).

8. A transformer core pre-lamination apparatus according to any one of claims 1-7, further comprising visual identification measuring means for identifying the length and width of the core sheets.

9. The pre-stacking device for transformer cores according to claim 8, further comprising an electric control device and an alarm device, wherein the manipulator (2), the alarm device and the visual recognition measuring device are all connected with the electric control device.

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