CN209822462U - Universal silicon steel sheet stacking jig - Google Patents

Abstract

The utility model discloses a general type silicon steel sheet closed assembly tool, including the tool bottom plate that is located the bottom, be located left fixed plate, baffle and the amasss thick regulating plate of first iron core, be located the amasss thick regulating plate of iron core length regulating plate and second iron core on right side to and be located the installing support of rear side. The stacking jig can be used for stacking operation of silicon steel sheets with various sizes and different thicknesses, is convenient to use and has good universality.

Description

Universal silicon steel sheet stacking jig

Technical Field

The utility model belongs to the technical field of it is electric, concretely relates to used device of silicon steel sheet closed assembly in transformer and reactor.

Background

The transformer and the reactor are widely applied and have large demand in the fields of transportation, aerospace, medical machinery, household life, industrial production and the like, and most of iron cores of the transformer and the reactor are made of silicon steel sheets. In the manufacturing of the iron core, silicon steel sheets with a certain thickness need to be stacked neatly. At present, the stacking operation of silicon steel sheets is mostly carried out in a manual mode based on a stacking jig. It should be noted that after each new transformer and reactor is developed, a special silicon steel sheet stacking jig needs to be manufactured according to the size of the iron core, which wastes cost and delays efficiency. In some electrical enterprises, with the increase of product types, the types of silicon steel sheet stacking jigs are hundreds of, and the management difficulty is increasing.

SUMMERY OF THE UTILITY MODEL

The utility model discloses make the improvement to current technical problem, utility model will solve promptly technical problem provides a general type silicon steel sheet closed assembly tool, can be used to the closed assembly operation of multiple size, the silicon steel sheet of different accumulations thickness.

The technical scheme of the utility model is that:

the utility model provides a general type silicon steel sheet closed assembly tool which characterized in that includes: the jig bottom plate is positioned at the bottom; the fixing plate is arranged on the left side and is installed on the jig base plate, and the top of the fixing plate is L-shaped with a protruding part and a flat part; a baffle plate mounted on the left side of the protrusion part and the flat part of the fixing plate; the bottom of the mounting bracket positioned at the rear side is arranged on the jig bottom plate in a manner of moving back and forth through a second slide rail; the iron core length adjusting plate is arranged opposite to and parallel to the fixed plate, the bottom of the iron core length adjusting plate is installed on the jig base plate in a manner that the bottom of the iron core length adjusting plate can move left and right through a first sliding rail, and the top of the iron core length adjusting plate is L-shaped and provided with a protruding part and a flat part; the front part of the first iron core thickness adjusting plate is positioned right above the flat part of the fixing plate, and the rear part of the first iron core thickness adjusting plate is fixed on the mounting bracket; and a second iron core thickness adjusting plate positioned on the right side, and the rear part of the second iron core thickness adjusting plate is installed on the installation support in a manner of moving left and right through a third slide rail. When the multiple layers of silicon steel sheets are stacked, the front sides of the multiple layers of silicon steel sheets are abutted against the protruding parts of the fixed plate and the protruding parts of the iron core length adjusting plates, the rear sides of the multiple layers of silicon steel sheets are abutted against the front parts of the first iron core thickness adjusting plate and the second iron core thickness adjusting plate, the bottom sides of the multiple layers of silicon steel sheets are arranged on the flat parts of the fixed plate and the iron core length adjusting plates, and the left sides of the multiple layers of silicon steel sheets are abutted against the.

Further, a first bolt is installed on the iron core length adjusting plate, and a plurality of first bolt grooves which are arranged in the left-right direction and are matched with the first bolt are formed in the jig base plate.

Furthermore, a third bolt is installed on the second iron core thickness adjusting plate, and a plurality of third bolt grooves which are arranged in the left-right direction and are matched with the third bolt are formed in the installing support.

Further, the bottom of the mounting bracket and the connecting part of the second slide rail are provided with fine adjustment locking devices.

Further, the baffle and the fixing plate are of an integrated structure.

Further, the fixed plate with iron core length regulating plate is roughly rectangle, first iron core volume thick regulating plate with second iron core volume thick regulating plate is the bar that the front and back direction extends.

The universal silicon steel sheet stacking jig based on the structure can be used for stacking iron cores with different lengths and iron cores (multiple layers of silicon steel sheets) with different thickness requirements, and is convenient to use and good in universality. Specifically, the iron core length adjusting plate and the second iron core thickness adjusting plate can be used for adjusting and locking the length of the iron core (multiple layers of silicon steel sheets) in the left-right direction, and the mounting bracket can be used for adjusting and locking the iron core (multiple layers of silicon steel sheets) in the front-back direction according to the thickness requirement of the iron core (multiple layers of silicon steel sheets).

Drawings

Fig. 1 is a perspective view of a silicon steel sheet stacking jig from a right upper perspective.

Fig. 2 is a perspective view of the silicon steel sheet stacking jig provided by the present invention from a left upper perspective.

Fig. 3 is a schematic view of the silicon steel sheet stacking of multiple layers during the use of the silicon steel sheet stacking jig of the present invention.

Detailed Description

The following description is presented to disclose the invention so as to enable any person skilled in the art to practice the invention. The preferred embodiments in the following description are given by way of example only, and other obvious variations will occur to those skilled in the art.

The embodiment of the utility model provides a silicon steel sheet closed assembly tool includes: a jig base plate 10 located at the bottom, a fixing plate 20, a baffle plate 70 and a first core thickness adjusting plate 40 located at the left side, a core length adjusting plate 30 and a second core thickness adjusting plate 50 located at the right side, and a mounting bracket 60 located at the rear side.

The fixing plate 20 and the core length adjusting plate 30 are vertically installed on the jig base plate 10 and are arranged in parallel and opposite to each other. Specifically, the bottom of the fixing plate 20 is fixed on the jig base plate 10, and the bottom of the core length adjusting plate 10 is movably mounted on the jig base plate through the first slide rail 11 and is movable in a left-right direction (X direction in fig. 1) away from or close to the fixing plate 20. The fixed plate 20 and the core length adjustment plate 30 are substantially the same in shape, both are substantially rectangular plates, and have top portions in an L shape, that is, the top portions of the rectangular plates are provided with protruding portions 20a and 30a for engaging the silicon steel sheets in the front-rear direction (Y direction in fig. 1) and flat portions 20b and 30b for supporting the silicon steel sheets in the vertical direction (Z direction in fig. 1). The baffle 70 is installed at the left side of the L-shaped portion of the fixed plate 20 for positioning the left ends of the silicon steel sheets during stacking. Of course, the baffle and the fixing plate can be integrated.

The first core thickness adjusting plate 40 and the second core thickness adjusting plate 50 are both mounted on the jig base plate 10 through mounting brackets 60. Specifically, the bottom of the mounting bracket 60 is movably mounted on the jig base plate through the second slide rail 12, and is movable in the front-rear direction. The first iron core thickness adjusting plate 40 and the second iron core thickness adjusting plate 40 are both strip-shaped, and the length direction of the strip is the front-back direction and is also the thickness direction of the silicon steel sheet. The front part of the first core thickness adjusting plate 40 is located right above the flat part 20b of the stationary plate, and the rear end thereof is fixedly mounted on the mounting bracket 60. The rear end of the second core thickness adjusting plate 50 is movably mounted on the mounting bracket 60 through a third slide rail 61 and can move left and right relative to the mounting bracket 60. By adjusting the forward and backward movement of the mounting bracket 60, it is possible to: the front portion of the first core thickness adjusting plate 40 moves back and forth with respect to the stationary plate protrusion 20a, and the front portion of the second core thickness adjusting plate 50 moves back and forth with respect to the core length adjusting plate top protrusion 30 a.

Based on above-mentioned silicon steel sheet closed assembly tool, can be according to the length of iron core, adjust the position of iron core length regulating plate 30 in the left and right direction for the distance between its and fixed plate 20 equals or slightly is less than the length of silicon steel sheet left and right direction, adjusts the position of second ponding regulating plate 50 left and right direction simultaneously, makes its position and iron core length regulating plate of left and right direction roughly unanimous. In addition, the thickness of the silicon steel sheets (ensuring the thickness dimension of the silicon steel sheets stacked) can be adjusted by adjusting the position of the mounting bracket 60 in the front-rear direction. After the adjustment is finished, the silicon steel sheets can be put into the stacking jig from the top. The silicon steel sheets are stacked schematically as shown in fig. 3, the front sides of the multiple layers of silicon steel sheets abut against the fixing plate protrusion 20a and the core length adjusting plate top protrusion 30a, the rear sides thereof abut against the front end of the first core thickness adjusting plate 40 and the front end of the second core thickness adjusting plate 50, the bottom sides thereof are placed on the front sides of the multiple layers of silicon steel sheets and abut against the fixing plate flat portion 20b (not shown in fig. 3 due to shielding) and the core length adjusting plate top flat portion 30b, and the left sides thereof abut against the right side surface of the baffle plate 70. And after new silicon steel sheets cannot be inserted in the front-back (thickness) direction, winding the multiple layers of silicon steel sheets together by using the transparent adhesive tape to form the iron core required by manufacturing the transformer/reactor.

In order to prevent the small-scale displacement of the core length adjusting plate 30, the mounting bracket 60 and the second core thickness adjusting plate 50 after multiple stacking from affecting the stacking operation and precision. Preferably, a first bolt 31 is installed on the iron core length adjusting plate 30, and a plurality of first bolt grooves 10a which are arranged in the left-right direction and correspond to the first bolt 31 in a matching manner are arranged on the jig base plate 10; a third bolt 51 is installed on the second core thickness adjusting plate 50, and a plurality of third bolt grooves 60a which are arranged in the left-right direction and correspond to the third bolt 51 are arranged on the installation bracket 60. Considering that the requirement on the precision of the dimension adjustment in the silicon steel sheet thickness direction is strict, the fine adjustment locking device 70 is arranged at the bottom of the mounting bracket 60 and the connecting part of the second slide rail, and the fine adjustment locking device 70 is provided with a scale. The operator can adjust the numerical thickness in advance according to the requirement of the silicon steel sheet thickness to carry out the stacking. The implementation of the latch and socket, and the implementation of the fine adjustment locking device 70 are prior art and will not be described in detail herein.

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 above embodiments, and that the principles of the present invention may be applied to any other embodiment without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (6)

1. The utility model provides a general type silicon steel sheet closed assembly tool which characterized in that includes:

the jig bottom plate is positioned at the bottom;

the fixing plate is arranged on the left side and is installed on the jig base plate, and the top of the fixing plate is L-shaped with a protruding part and a flat part;

a baffle plate mounted on the left side of the protrusion part and the flat part of the fixing plate;

the bottom of the mounting bracket positioned at the rear side is arranged on the jig bottom plate in a manner of moving back and forth through a second slide rail;

the iron core length adjusting plate is arranged opposite to and parallel to the fixed plate, the bottom of the iron core length adjusting plate is installed on the jig base plate in a manner that the bottom of the iron core length adjusting plate can move left and right through a first sliding rail, and the top of the iron core length adjusting plate is L-shaped and provided with a protruding part and a flat part;

the front part of the first iron core thickness adjusting plate is positioned right above the flat part of the fixing plate, and the rear part of the first iron core thickness adjusting plate is fixed on the mounting bracket; and

a second iron core thickness adjusting plate positioned at the right side, the rear part of which is arranged on the mounting bracket in a way of moving left and right through a third slide rail,

when the multiple layers of silicon steel sheets are stacked, the front sides of the multiple layers of silicon steel sheets are abutted against the protruding parts of the fixed plate and the protruding parts of the iron core length adjusting plates, the rear sides of the multiple layers of silicon steel sheets are abutted against the front parts of the first iron core thickness adjusting plate and the second iron core thickness adjusting plate, the bottom sides of the multiple layers of silicon steel sheets are arranged on the flat parts of the fixed plate and the iron core length adjusting plates, and the left sides of the multiple layers of silicon steel sheets are abutted against the.

2. The universal silicon steel sheet stacking jig as claimed in claim 1, wherein the core length adjusting plate is provided with a first pin, and the jig bottom plate is provided with a plurality of first pin grooves which are arranged in a left-right direction and are matched with the first pin.

3. The universal silicon steel sheet stacking jig as claimed in claim 2, wherein a third bolt is mounted on the second iron core thickness adjusting plate, and a plurality of third bolt grooves matched with the third bolt are arranged in the mounting bracket in the left-right direction.

4. The universal silicon steel sheet stacking jig as claimed in any one of claims 1 to 3, wherein a fine adjustment locking device is disposed at a connecting portion between the bottom of the mounting bracket and the second slide rail.

5. The universal silicon steel sheet stacking jig as claimed in any one of claims 1 to 3, wherein the baffle plate and the fixing plate are of an integral structure.

6. The universal silicon steel sheet stacking jig as claimed in any one of claims 1 to 3, wherein the fixing plate and the iron core length adjusting plate are substantially rectangular, and the first iron core thickness adjusting plate and the second iron core thickness adjusting plate are both strip-shaped and extend in a front-rear direction.