CN216412865U - Efficient F-shaped silicon steel sheet assembling mechanism - Google Patents

Abstract

The utility model belongs to the technical field of transformer silicon steel sheet assembly application, and particularly discloses an efficient F-shaped silicon steel sheet assembly mechanism which comprises a large bottom plate, a combined bottom plate arranged on the symmetrical center line of the large bottom plate, a left slider rail and a right slider rail which are symmetrically arranged on two sides of the combined bottom plate, a left slider and a right slider which are respectively arranged on the left slider rail and the right slider rail, a left top block and a right top block which are respectively arranged on the left slider and the right slider, a left cylinder connecting rod and a right cylinder connecting rod which are respectively arranged on the outer walls on the same sides of the left top block and the right top block, and the like. The utility model has the beneficial effects that: the device is matched with a material pipe of a silicon steel sheet supplier, so that the working efficiency is greatly improved, and compared with the manual operation efficiency, the working efficiency is improved by 6 times; the shaping process of the silicon steel sheet is reduced, and the wire breakage and the assembly caused by normal operation are not in place; compared with manual silicon steel sheet assembly, the repair rate is reduced by 60%; the whole structure is simple, the operation is convenient, and the post can be played through simple training.

Description

Efficient F-shaped silicon steel sheet assembling mechanism

Technical Field

The utility model belongs to the technical field of transformer silicon steel sheet assembly application, and particularly relates to a high-efficiency F-shaped silicon steel sheet assembly mechanism.

Background

A Transformer (Transformer) is a device that changes an alternating-current voltage by using the principle of electromagnetic induction, and main components are a primary coil, a secondary coil, and an iron core (magnetic core). The transformer has the primary purpose of ensuring the safety of people, and the main functions of the transformer are voltage reduction and isolation, wherein the voltage reduction is to reduce high voltage (such as 220V commercial power) to be within a safe voltage, and the isolation is also to isolate the voltage to ground of a live wire.

The silicon steel sheet is a ferrosilicon soft magnetic alloy with very low carbon content, the silicon content is generally 0.5-4.5%, and the addition of silicon can improve the resistivity and the maximum permeability of iron, and reduce the coercive force, the iron core loss (iron loss) and the magnetic aging.

The silicon steel sheet is mainly used for manufacturing iron cores of various transformers, motors and generators. The current assembly is manual operation, the operation efficiency is low, and phenomena of wire breakage, improper assembly and the like easily occur

Therefore, based on the above problems, the present invention provides an efficient F-shaped silicon steel sheet assembling mechanism.

SUMMERY OF THE UTILITY MODEL

Utility model purpose: the utility model aims to provide an efficient F-shaped silicon steel sheet assembling mechanism, which solves the problems existing in the existing F-shaped silicon steel sheet assembling process.

The technical scheme is as follows: the utility model provides an efficient F-shaped silicon steel sheet assembling mechanism which comprises a large bottom plate, a combined bottom plate, a left slider rail, a right slider rail, a left slider, a right slider, a left ejector block, a right ejector block, a left cylinder connecting rod, a right cylinder connecting rod, a silicon steel sheet left guide pipe and a silicon steel sheet right guide pipe, wherein the combined bottom plate is arranged on the symmetrical center line of the large bottom plate, the left slider rail and the right slider rail are symmetrically arranged on two sides of the combined bottom plate, the left slider rail and the right slider rail are respectively arranged on the left slider rail and the right slider rail, the left slider and the right slider are respectively arranged on the left slider rail and the right slider rail, the left ejector block and the right ejector block are respectively arranged on the left slider rail and the right slider rail, the left cylinder connecting rod and the right cylinder connecting rod are respectively arranged on the outer walls on the same side of the left ejector block and the right ejector block, and the silicon steel sheet left guide pipe and right guide pipe are symmetrically arranged on the symmetrical center line of the combined bottom plate.

According to the technical scheme, the efficient F-shaped silicon steel sheet assembling mechanism further comprises a left air cylinder connecting rod movable through groove and a right air cylinder connecting rod movable through groove which are arranged in the same side of the large bottom plate and matched with the left air cylinder connecting rod and the right air cylinder connecting rod for use.

According to the technical scheme, the efficient F-shaped silicon steel sheet assembling mechanism further comprises a left auxiliary strip-shaped limiting guide rail and a right auxiliary strip-shaped limiting guide rail which are respectively arranged on the left side sliding block track and the right side sliding block track and matched with the left ejector block and the right ejector block for use.

According to the technical scheme, the efficient F-shaped silicon steel sheet assembling mechanism further comprises a first left guide pipe mounting strip seat and a first right guide pipe mounting strip seat which are arranged on the symmetrical center line of the combined bottom plate and located between the silicon steel sheet left guide pipe and the silicon steel sheet right guide pipe.

According to the technical scheme, the efficient F-shaped silicon steel sheet assembling mechanism further comprises a second left guide pipe mounting strip seat and a second right guide pipe mounting strip seat which are arranged on the symmetrical center line of the combined bottom plate and located between the silicon steel sheet left guide pipe and the silicon steel sheet right guide pipe.

According to the technical scheme, the efficient F-shaped silicon steel sheet assembling mechanism further comprises a left limiting pressing strip and a right limiting pressing strip which are arranged on the silicon steel sheet left guide pipe and the silicon steel sheet right guide pipe in a staggered mode.

According to the technical scheme, the silicon steel sheet left guide pipe and the silicon steel sheet right guide pipe are respectively arranged to be vertical L-shaped structures.

Compared with the prior art, the efficient F-shaped silicon steel sheet assembling mechanism has the beneficial effects that: 1. the device is matched with a material pipe of a silicon steel sheet supplier, so that the working efficiency is greatly improved, and compared with the manual operation efficiency, the working efficiency is improved by 6 times; 2. the shaping process of the silicon steel sheet is reduced, and the wire breakage and the assembly caused by normal operation are not in place; 3. compared with manual silicon steel sheet assembly, the repair rate is reduced by 60%; 4. the whole structure is simple, the operation is convenient, and the post can be played through simple training.

Drawings

FIG. 1 is a schematic structural diagram of an efficient F-shaped silicon steel sheet assembling mechanism according to the present invention;

the drawing numbers are as follows: 1-large bottom plate, 2-left side slide block rail, 3-left slide block, 4-left top block, 5-left air cylinder connecting rod, 6-silicon steel sheet left conduit, 7-left limit trim strip, 8-combined bottom plate, 9-first left conduit mounting strip seat, 10-second left conduit mounting strip seat, 11-first right conduit mounting strip seat, 12-silicon steel sheet right conduit, 13-right air cylinder connecting rod, 14-right top block, 15-right slide block, 16-side slide block rail, 17-right limit trim strip, 18-second right conduit mounting strip seat, 19-left air cylinder connecting rod movable through groove, 20-right air cylinder connecting rod movable through groove, 21-left auxiliary strip limit guide rail and 22-right auxiliary strip limit guide rail.

Detailed Description

The utility model is further elucidated with reference to the drawings and the embodiments.

Examples

As shown in FIG. 1, an efficient F-type silicon steel sheet assembly mechanism comprises a large bottom plate 1, a combined bottom plate 8 arranged on the symmetrical center line of the large bottom plate 1, a left slider rail 2 and a right slider rail 16 symmetrically arranged on two sides of the combined bottom plate 8, a left slider 3 and a right slider 15 respectively arranged on the left slider rail 2 and the right slider rail 16, a left top block 4 and a right top block 14 respectively arranged on the left slider 3 and the right slider 15, a left cylinder connecting rod 5 and a right cylinder connecting rod 13 respectively arranged on the outer walls on the same side of the left top block 4 and the right top block 14, and a silicon steel sheet left conduit 6 and a silicon steel sheet right conduit 12 symmetrically arranged on the symmetrical center line of the combined bottom plate 8.

Example two

As shown in FIG. 1, a high efficiency F-type silicon steel sheet assembly mechanism comprises a large bottom plate 1, a combined bottom plate 8 disposed on the symmetrical center line of the large bottom plate 1, a left slider rail 2 and a right slider rail 16 symmetrically disposed on both sides of the combined bottom plate 8, a left slider 3 and a right slider 15 respectively disposed on the left slider rail 2 and the right slider rail 16, a left top block 4 and a right top block 14 respectively disposed on the left slider 3 and the right slider 15, a left cylinder connecting rod 5 and a right cylinder connecting rod 13 respectively disposed on the same outer walls of the left top block 4 and the right top block 14, and a silicon steel sheet left conduit 6 and a silicon steel sheet right conduit 12 symmetrically disposed on the symmetrical center line of the combined bottom plate 8, and a left cylinder connecting rod movable through groove 19 and a right cylinder connecting rod movable through groove 20 which are arranged in the same side of the large bottom plate 1 and are matched with the left cylinder connecting rod 5 and the right cylinder connecting rod 13 for use.

EXAMPLE III

As shown in FIG. 1, a high efficiency F-type silicon steel sheet assembly mechanism comprises a large bottom plate 1, a combined bottom plate 8 arranged on the symmetrical center line of the large bottom plate 1, a left slider rail 2 and a right slider rail 16 symmetrically arranged on both sides of the combined bottom plate 8, a left slider 3 and a right slider 15 respectively arranged on the left slider rail 2 and the right slider rail 16, a left top block 4 and a right top block 14 respectively arranged on the left slider 3 and the right slider 15, a left cylinder connecting rod 5 and a right cylinder connecting rod 13 respectively arranged on the outer walls of the left top block 4 and the right top block 14 on the same side, a silicon steel sheet left conduit 6 and a silicon steel sheet right conduit 12 symmetrically arranged on the symmetrical center line of the combined bottom plate 8, and a left cylinder connecting rod movable through groove 19 and a right cylinder connecting rod movable through groove 20 which are arranged in the same side of the large bottom plate 1 and used in cooperation with the left cylinder connecting rod 5 and the right cylinder connecting rod 13, and a left auxiliary strip-shaped limit guide rail 21 and a right auxiliary strip-shaped limit guide rail 22 which are respectively arranged on the left slider rail 2 and the right slider rail 16 and are matched with the left top block 4 and the right top block 14 for use.

Example four

As shown in FIG. 1, a high efficiency F-type silicon steel sheet assembly mechanism comprises a large bottom plate 1, a combined bottom plate 8 arranged on the symmetrical center line of the large bottom plate 1, a left slider rail 2 and a right slider rail 16 symmetrically arranged on both sides of the combined bottom plate 8, a left slider 3 and a right slider 15 respectively arranged on the left slider rail 2 and the right slider rail 16, a left top block 4 and a right top block 14 respectively arranged on the left slider 3 and the right slider 15, a left cylinder connecting rod 5 and a right cylinder connecting rod 13 respectively arranged on the outer walls of the left top block 4 and the right top block 14 on the same side, a silicon steel sheet left conduit 6 and a silicon steel sheet right conduit 12 symmetrically arranged on the symmetrical center line of the combined bottom plate 8, and a left cylinder connecting rod movable through groove 19 and a right cylinder connecting rod movable through groove 20 which are arranged in the same side of the large bottom plate 1 and used in cooperation with the left cylinder connecting rod 5 and the right cylinder connecting rod 13, and a left auxiliary strip-shaped limit guide rail 21 and a right auxiliary strip-shaped limit guide rail 22 which are respectively arranged on the left slider rail 2 and the right slider rail 16 and are matched with the left top block 4 and the right top block 14 for use, and a first left guide pipe installation strip seat 9 and a first right guide pipe installation strip seat 11 which are arranged on the symmetrical center line of the combined bottom plate 8 and are positioned between the silicon steel sheet left guide pipe 6 and the silicon steel sheet right guide pipe 12.

EXAMPLE five

As shown in FIG. 1, a high efficiency F-type silicon steel sheet assembly mechanism comprises a large bottom plate 1, a combined bottom plate 8 arranged on the symmetrical center line of the large bottom plate 1, a left slider rail 2 and a right slider rail 16 symmetrically arranged on both sides of the combined bottom plate 8, a left slider 3 and a right slider 15 respectively arranged on the left slider rail 2 and the right slider rail 16, a left top block 4 and a right top block 14 respectively arranged on the left slider 3 and the right slider 15, a left cylinder connecting rod 5 and a right cylinder connecting rod 13 respectively arranged on the outer walls of the left top block 4 and the right top block 14 on the same side, a silicon steel sheet left conduit 6 and a silicon steel sheet right conduit 12 symmetrically arranged on the symmetrical center line of the combined bottom plate 8, and a left cylinder connecting rod movable through groove 19 and a right cylinder connecting rod movable through groove 20 which are arranged in the same side of the large bottom plate 1 and used in cooperation with the left cylinder connecting rod 5 and the right cylinder connecting rod 13, and a left auxiliary strip-shaped limit guide rail 21 and a right auxiliary strip-shaped limit guide rail 22 which are respectively arranged on the left side slide block rail 2 and the right side slide block rail 16 and are matched with the left top block 4 and the right top block 14 for use, a first left guide pipe installation strip seat 9 and a first right guide pipe installation strip seat 11 which are arranged on the symmetrical central line of the combined bottom plate 8 and are positioned between the silicon steel sheet left guide pipe 6 and the silicon steel sheet right guide pipe 12, and a second left guide pipe installation strip seat 10 and a second right guide pipe installation strip seat 18 which are arranged on the symmetrical central line of the combined bottom plate 8 and are positioned between the silicon steel sheet left guide pipe 6 and the silicon steel sheet right guide pipe 12.

EXAMPLE six

As shown in FIG. 1, a high efficiency F-type silicon steel sheet assembly mechanism comprises a large bottom plate 1, a combined bottom plate 8 arranged on the symmetrical center line of the large bottom plate 1, a left slider rail 2 and a right slider rail 16 symmetrically arranged on both sides of the combined bottom plate 8, a left slider 3 and a right slider 15 respectively arranged on the left slider rail 2 and the right slider rail 16, a left top block 4 and a right top block 14 respectively arranged on the left slider 3 and the right slider 15, a left cylinder connecting rod 5 and a right cylinder connecting rod 13 respectively arranged on the outer walls of the left top block 4 and the right top block 14 on the same side, a silicon steel sheet left conduit 6 and a silicon steel sheet right conduit 12 symmetrically arranged on the symmetrical center line of the combined bottom plate 8, and a left cylinder connecting rod movable through groove 19 and a right cylinder connecting rod movable through groove 20 which are arranged in the same side of the large bottom plate 1 and used in cooperation with the left cylinder connecting rod 5 and the right cylinder connecting rod 13, and a left auxiliary strip-shaped limit guide rail 21 and a right auxiliary strip-shaped limit guide rail 22 which are respectively arranged on the left side slide block rail 2 and the right side slide block rail 16 and are matched with the left top block 4 and the right top block 14 for use, a first left guide pipe installation strip seat 9 and a first right guide pipe installation strip seat 11 which are arranged on the symmetrical central line of the combined bottom plate 8 and are positioned between the silicon steel sheet left guide pipe 6 and the silicon steel sheet right guide pipe 12, a second left guide pipe installation strip seat 10 and a second right guide pipe installation strip seat 18 which are arranged on the symmetrical central line of the combined bottom plate 8 and are positioned between the silicon steel sheet left guide pipe 6 and the silicon steel sheet right guide pipe 12, and a left limit pressing strip 7 and a right limit pressing strip 17 which are arranged on the silicon steel sheet left guide pipe 6 and the silicon steel sheet right guide pipe 12 in a staggered way.

In the high-efficiency F-shaped silicon steel sheet assembly mechanism of this embodiment, the silicon steel sheet left conduit 6 and the silicon steel sheet right conduit 12 are respectively configured to be vertical L-shaped structures.

The working principle or the structural principle of the efficient F-shaped silicon steel sheet assembling mechanism of the embodiment is as follows: the F-shaped silicon steel sheet is loaded into a silicon steel sheet left guide pipe 6 and a silicon steel sheet right guide pipe 12 according to the assembly direction, the height of a left limiting pressing strip 7 and the height of a right limiting pressing strip 17 are adjusted according to the thickness of the silicon steel sheet required by assembly, a left top block 4 and a right top block 14 are respectively connected with a left slider 3 and a right slider 15, and then are connected with a left cylinder and a right cylinder of an external accessory through a left cylinder connecting rod 5 and a right cylinder connecting rod 13 (the left cylinder and the right cylinder are not marked in the drawing, the cylinder connecting rod 5 and the right cylinder connecting rod 13 respectively horizontally slide in a left cylinder connecting rod movable through groove 19 and a right cylinder connecting rod movable through groove 20), the left top block 4 and the right top block 14 are driven by the cylinder to eject the silicon steel sheet out on a left slider rail 2 and a right slider rail 16 to be linearly slid and inserted into a framework, and the cylinder action is delayed until the silicon steel sheet is assembled in place.

The first left guide pipe mounting strip seat 9, the second left guide pipe mounting strip seat 10, the first right guide pipe mounting strip seat right 11 and the second right guide pipe mounting strip seat right 18 ensure that the silicon steel sheet is kept neat and accurate in direction when being ejected by the left ejector block 4 and the right ejector block 14, and the silicon steel sheet pressing and guiding effects are achieved.

The foregoing is only a preferred embodiment of this invention and it should be noted that modifications can be made by those skilled in the art without departing from the principle of the utility model and these modifications should also be considered as the protection scope of the utility model.

Claims (7)

1. An efficient F-shaped silicon steel sheet assembling mechanism is characterized in that: the silicon steel sheet combined device comprises a large bottom plate (1), a combined bottom plate (8) arranged on the symmetrical center line of the large bottom plate (1), a left slider rail (2) and a right slider rail (16) which are symmetrically arranged on two sides of the combined bottom plate (8), a left slider (3) and a right slider (15) which are respectively arranged on the left slider rail (2) and the right slider rail (16), a left ejector block (4) and a right ejector block (14) which are respectively arranged on the left slider (3) and the right slider (15), a left cylinder connecting rod (5) and a right cylinder connecting rod (13) which are respectively arranged on the outer walls of the left ejector block (4) and the right ejector block (14) on the same side, and a silicon steel sheet left guide pipe (6) and a silicon steel sheet right guide pipe (12) which are symmetrically arranged on the symmetrical center line of the combined bottom plate (8).

2. The efficient F-type silicon steel sheet assembly mechanism of claim 1, wherein: the efficient F-shaped silicon steel sheet assembling mechanism further comprises a left air cylinder connecting rod movable through groove (19) and a right air cylinder connecting rod movable through groove (20) which are arranged in the same side of the large bottom plate (1) and matched with the left air cylinder connecting rod (5) and the right air cylinder connecting rod (13).

3. The efficient F-type silicon steel sheet assembly mechanism of claim 2, wherein: the efficient F-shaped silicon steel sheet assembling mechanism further comprises a left auxiliary strip-shaped limiting guide rail (21) and a right auxiliary strip-shaped limiting guide rail (22) which are respectively arranged on the left side sliding block track (2) and the right side sliding block track (16) and matched with the left ejector block (4) and the right ejector block (14).

4. The efficient F-type silicon steel sheet assembly mechanism of claim 3, wherein: the efficient F-shaped silicon steel sheet assembling mechanism further comprises a first left guide pipe mounting strip seat (9) and a first right guide pipe mounting strip seat (11) which are arranged on the symmetrical center line of the combined bottom plate (8) and located between the silicon steel sheet left guide pipe (6) and the silicon steel sheet right guide pipe (12).

5. The efficient F-shaped silicon steel sheet assembly mechanism of claim 4, wherein: the efficient F-shaped silicon steel sheet assembling mechanism further comprises a second left guide pipe mounting strip seat (10) and a second right guide pipe mounting strip seat (18) which are arranged on the symmetrical center line of the combined bottom plate (8) and located between the silicon steel sheet left guide pipe (6) and the silicon steel sheet right guide pipe (12).

6. The efficient F-shaped silicon steel sheet assembly mechanism of claim 5, wherein: the efficient F-shaped silicon steel sheet assembling mechanism further comprises a left limiting pressing strip (7) and a right limiting pressing strip (17) which are arranged on the silicon steel sheet left guide pipe (6) and the silicon steel sheet right guide pipe (12) in a staggered mode.

7. The high efficiency F-type silicon steel sheet assembly mechanism of claim 1 or 6, wherein: the silicon steel sheet left conduit (6) and the silicon steel sheet right conduit (12) are respectively arranged to be vertical L-shaped structures.

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