CN210469069U - High-speed die stamping equipment suitable for motor core - Google Patents

Abstract

The utility model discloses a high-speed die equipment suitable for motor core, including first bearing board, second bearing board and stamping platform frame, the both ends on first bearing board top are all even vertical installs the slide rail, slide rail one side horizontal installation is kept away from to the slider has the second connecting rod, the second connecting rod outside horizontal installation of third spring one side has the second sleeve, the top of head rod articulates through the articulated shaft has second bearing board, the bottom of fifth connecting rod articulates through the articulated shaft has first sleeve, fourth connecting rod outside horizontal installation has the first spring that is connected with first sleeve, the bottom of third connecting rod is articulated mutually through articulated shaft and first bearing board top, the equal vertical fixed plate of installing in both ends on second bearing board top. The utility model discloses a thereby the cylinder drives the extension of hydraulic stem and drives backup pad rebound, the drawing of patterns of being convenient for.

Description

High-speed die stamping equipment suitable for motor core

Technical Field

The utility model relates to a motor processing technology field specifically is a high-speed die equipment suitable for motor core.

Background

The motor iron core is one of important components in the motor, and a die stamping device is required in the motor iron core processing process.

However, most of the high-speed punching equipment suitable for the motor iron core in the current market can only adapt to the processing of a single station, the production efficiency is low, and most of the high-speed punching equipment suitable for the motor iron core in the current market needs to replace all dies for motor iron cores of different models, the production cost is high, and meanwhile, most of the high-speed punching equipment suitable for the motor iron core in the current market is not convenient for demoulding, so that the high-speed punching equipment suitable for the motor iron core is provided for solving the problems.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a high-speed die equipment suitable for motor core to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: a high-speed die stamping device suitable for a motor iron core comprises a first bearing plate, a second bearing plate and a stamping platform frame, wherein slide rails are uniformly and vertically arranged at two ends of the top end of the first bearing plate, slide blocks matched with the slide rails are arranged in the slide rails, a second connecting rod is horizontally arranged at one side of each slide block, which is far away from the slide rails, a third spring is horizontally arranged at one end, close to the slide blocks, of the outer side of each second connecting rod, a second sleeve is horizontally arranged at the outer side of the second connecting rod at one side of the third spring, a first connecting rod is hinged at the middle position of the front side of the second sleeve through a hinged shaft, the top end of each first connecting rod is hinged with the second bearing plate through a hinged shaft, fifth connecting rods are hinged at two ends of the bottom end of the second bearing plate through hinged shafts, a first sleeve is hinged at the bottom end of each fifth connecting rod, a first spring connected with the first sleeve is horizontally arranged on the outer side of the fourth connecting rod, a third connecting rod is hinged to the middle position of the front side of the first sleeve through a hinged shaft, the bottom end of the third connecting rod is hinged to the top end of the first bearing platform plate through a hinged shaft, fixing plates are vertically arranged at two ends of the top end of the second bearing platform plate, a clamping groove is formed in the top end of the inner side of each fixing plate, a stamping platform frame is arranged at the top end of the second bearing platform plate on the inner side of each fixing plate, stamping holes are uniformly formed in the middle position of the top end of the inner portion of each stamping platform frame, third sleeves are uniformly and horizontally arranged at the upper ends of two sides of each stamping platform frame, a second spring is horizontally arranged in each third sleeve, a sixth connecting rod penetrating through the third sleeves and matched with the clamping groove is horizontally arranged at one end of the second spring, a cylinder is vertically arranged at the middle position of, and the output end of the air cylinder is vertically provided with a hydraulic rod, the top end of the hydraulic rod is horizontally provided with a third bearing plate, the top end of the third bearing plate is uniformly and vertically provided with a supporting rod penetrating through the top end inside the stamping platform frame, the top end of the supporting rod is horizontally provided with a supporting plate, the top ends of the second bearing plates on two sides of the air cylinder are uniformly and vertically provided with a fourth sleeve, a fourth spring is vertically arranged inside the fourth sleeve, the top end of the fourth spring is vertically provided with a seventh connecting rod penetrating through the top end of the fourth sleeve, and the top end of the seventh connecting rod is connected with the bottom end of the third bearing plate.

Preferably, the first connecting rod is respectively and rotatably connected with the second bearing plate and the second sleeve through a hinge shaft to form a rotating mechanism, the second sleeve is connected with the second connecting rod through a third spring to form a telescopic mechanism, and the second connecting rod is in sliding connection with the sliding rail through a sliding block to form a sliding mechanism.

Preferably, the seventh connecting rod is connected with the fourth sleeve through a fourth spring to form a telescopic mechanism, and four groups of the seventh connecting rod, the fourth spring and the fourth sleeve are arranged.

Preferably, the fifth connecting rod is rotatably connected with the second bearing plate and the first sleeve through an articulated shaft to form a rotating mechanism, the first sleeve is rotatably connected with the third connecting rod through an articulated shaft to form a rotating mechanism, and the third connecting rod is rotatably connected with the first bearing plate through an articulated shaft to form a rotating mechanism.

Preferably, the first sleeve is connected with the fourth connecting rod through a first spring to form a telescopic mechanism, and the number of the first sleeve is two.

Preferably, the sixth connecting rod is connected with the third sleeve through the second spring to form a telescopic mechanism, and the sixth connecting rod is connected with the clamping groove in a clamping manner to form a clamping mechanism.

Compared with the prior art, the beneficial effects of the utility model are that:

(1) by installing the sixth connecting rod, the second spring, the clamping groove and the stamping platform frame, when the motor iron cores suitable for different models are required, the sixth connecting rod is pushed inwards to enable the sixth connecting rod to compress the second spring to be contracted so as to enable the sixth connecting rod to be separated from the clamping groove, and then the stamping platform frame is replaced so as to be convenient for being suitable for the motor iron cores of different models, so that the cost is saved;

(2) meanwhile, the device is provided with the air cylinder, the hydraulic rod, the third bearing plate, the supporting rod, the supporting plate and the stamping hole, when the demoulding is needed, the air cylinder is started to drive the hydraulic rod to extend so as to drive the third bearing plate and the supporting rod to move upwards so as to drive the supporting plate to move upwards in the stamping hole, so that the demoulding is facilitated;

(3) the device is through installing the second and holding the platen simultaneously, the head rod, the fifth connecting rod, the second sleeve, the second connecting rod, the slider, a slide rail, first sleeve, the third connecting rod, the fourth connecting rod, third spring and first spring, the impact force that produces when punching press transmits respectively for head rod and fifth connecting rod through the second holds the platen, thereby the head rod transmits power to second sleeve and second connecting rod makes the second connecting rod pass through the slider and slides in the slide rail is inside, the fifth connecting rod transmits power to first sleeve and third connecting rod, first sleeve transmits power to the fourth connecting rod, thereby eliminate this impact force under the spring action of third spring and first spring, thereby be convenient for the life of this high-speed die stamping equipment who is applicable to motor core of buffering shock attenuation extension.

Drawings

FIG. 1 is a front view of the cross-sectional structure of the present invention;

FIG. 2 is a schematic top view of the present invention;

FIG. 3 is an enlarged view of the portion A of FIG. 1 according to the present invention;

fig. 4 is an enlarged schematic view of a portion B in fig. 1 according to the present invention.

In the figure: 1. a fixing plate; 2. a first connecting rod; 3. a first deck plate; 4. a second connecting rod; 5. a second deck plate; 6. a third connecting rod; 7. a fourth connecting rod; 8. a hydraulic lever; 9. a cylinder; 10. a first spring; 11. a first sleeve; 12. a fifth connecting rod; 13. a second sleeve; 14. a sixth connecting rod; 15. a second spring; 16. a support bar; 17. a third deck plate; 18. punching a hole; 19. a support plate; 20. stamping a platform frame; 21. a third sleeve; 22. a card slot; 23. a slider; 24. a third spring; 25. a slide rail; 26. a fourth sleeve; 27. a fourth spring; 28. and a seventh connecting rod.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides an embodiment: a high-speed die stamping device suitable for a motor iron core comprises a first bearing plate 3, a second bearing plate 5 and a stamping platform frame 20, wherein both ends of the top end of the first bearing plate 3 are uniformly and vertically provided with slide rails 25, slide blocks 23 matched with the slide rails 25 are arranged in the slide rails 25, one sides of the slide blocks 23 far away from the slide rails 25 are horizontally provided with second connecting rods 4, one ends of the outer sides of the second connecting rods 4 close to the slide blocks 23 are horizontally provided with third springs 24, the outer sides of the second connecting rods 4 at one sides of the third springs 24 are horizontally provided with second sleeves 13, the middle positions of the front surfaces of the second sleeves 13 are hinged with first connecting rods 2 through hinge shafts, the first connecting rods 2 are respectively and rotatably connected with the second bearing plate 5 and the second sleeves 13 through hinge shafts to form a rotating mechanism, the second sleeves 13 are connected with the second connecting rods 4 through the third springs 24 to form a telescopic mechanism, and the second connecting rods 4 are slidably connected with the slide, the top end of the first connecting rod 2 is hinged with a second bearing plate 5 through a hinged shaft, both ends of the bottom end of the second bearing plate 5 are hinged with a fifth connecting rod 12 through hinged shafts, the fifth connecting rod 12 is respectively and rotatably connected with the second bearing plate 5 and a first sleeve 11 through the hinged shaft to form a rotating mechanism, the first sleeve 11 is rotatably connected with a third connecting rod 6 through a hinged shaft to form a rotating mechanism, the third connecting rod 6 is rotatably connected with a first bearing plate 3 through a hinged shaft to form a rotating mechanism, the buffering and the shock absorption are convenient, the bottom end of the fifth connecting rod 12 is hinged with a first sleeve 11 through a hinged shaft, the first sleeve 11 is connected with a telescopic mechanism through a first spring 10 and a fourth connecting rod 7, the first sleeve 11 is provided with two connecting rods for facilitating the buffering and the shock absorption, and the fourth connecting rod 7 penetrating through the first sleeve 11 is horizontally arranged in the first sleeve 11, a first spring 10 connected with a first sleeve 11 is horizontally arranged outside a fourth connecting rod 7, a third connecting rod 6 is hinged at the middle position of the front surface of the first sleeve 11 through a hinged shaft, the bottom end of the third connecting rod 6 is hinged with the top end of a first bearing plate 3 through a hinged shaft, two ends of the top end of a second bearing plate 5 are vertically provided with a fixed plate 1, the top end of the inner side of the fixed plate 1 is provided with a clamping groove 22, the top end of the second bearing plate 5 at the inner side of the fixed plate 1 is provided with a stamping platform frame 20, the middle position of the top end inside the stamping platform frame 20 is uniformly provided with stamping holes 18, the upper ends of two sides of the stamping platform frame 20 are uniformly and horizontally provided with third sleeves 21, the inside of the third sleeves 21 is horizontally provided with second springs 15, one ends of the second springs 15 far away from the stamping platform frame 20 are horizontally provided with sixth connecting rods 14, the sixth connecting rod 14 is connected with the third sleeve 21 through the second spring 15 to form a telescopic mechanism, the sixth connecting rod 14 is connected with the clamping groove 22 in a clamping manner to form a clamping mechanism, so as to facilitate quick assembly and disassembly, the cylinder 9 is vertically installed at the central position of the top end of the second bearing plate 5 on the inner side of the stamping platform frame 20, the model of the cylinder 9 can be a Y90S-6 motor, the output end of the cylinder 9 is vertically provided with a hydraulic rod 8, the top end of the hydraulic rod 8 is horizontally provided with a third bearing plate 17, the top end of the third bearing plate 17 is uniformly and vertically provided with a supporting rod 16 penetrating through the top end of the stamping platform frame 20, the top end of the supporting rod 16 is horizontally provided with a supporting plate 19, the top ends of the second bearing plates 5 on the two sides of the cylinder 9 are uniformly and vertically provided with fourth sleeves 26, the fourth springs 27 are vertically installed inside the fourth sleeves 26, the top ends of the fourth springs, the seventh connecting rod 28 is connected with the fourth sleeve 26 through the fourth spring 27 to form a telescopic mechanism, four groups of the seventh connecting rod 28, the fourth spring 27 and the fourth sleeve 26 are arranged, stability is improved conveniently, and the top end of the seventh connecting rod 28 is connected with the bottom end of the third bearing plate 17.

The working principle is as follows: when the high-speed die stamping device suitable for the motor iron core is used, the high-speed die stamping device suitable for the motor iron core is firstly installed on a working table surface through a first bearing plate 3, when the high-speed die stamping device is required to be suitable for different types of motor iron cores, the sixth connecting rod 14 is firstly pushed inwards to enable the sixth connecting rod 14 to compress a second spring 15 to shrink so as to enable the sixth connecting rod 14 to be separated from a clamping groove 22, then a stamping platform frame 20 is replaced so as to be convenient to be suitable for different types of motor iron cores, so that the cost is saved, when the die stripping is required, an external power supply is firstly switched on, a starting air cylinder 9 drives a hydraulic rod 8 to extend so as to drive a third bearing plate 17 and a supporting rod 16 to move upwards so as to drive a supporting plate 19 to move upwards in a stamping hole 18, so that the die stripping is convenient, impact force generated when the stamping is respectively transmitted, thereby the first connecting rod 2 will do all can transmit for second sleeve 13 and second connecting rod 4 and make second connecting rod 4 slide in slide rail 25 inside through slider 23, and first sleeve 11 and third connecting rod 6 are transmitted with doing all can to fifth connecting rod 12, and first sleeve 11 will do all can transmit for fourth connecting rod 7 to eliminate this impact force under the spring action of third spring 24 and first spring 10, thereby be convenient for cushion the life that this high-speed die stamping equipment that is applicable to motor core of shock attenuation extension, do above the utility model discloses a whole theory of operation.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (6)

1. A high-speed die stamping device suitable for a motor iron core comprises a first bearing plate (3), a second bearing plate (5) and a stamping platform frame (20), and is characterized in that: the two ends of the top end of the first bearing plate (3) are uniformly and vertically provided with sliding rails (25), a sliding block (23) matched with the sliding rails (25) is arranged in each sliding rail (25), a second connecting rod (4) is horizontally arranged on one side, far away from the sliding rails (25), of each sliding block (23), a third spring (24) is horizontally arranged on one end, close to each sliding block (23), of the outer side of each second connecting rod (4), a second sleeve (13) is horizontally arranged on the outer side of each second connecting rod (4) on one side of each third spring (24), a first connecting rod (2) is hinged to the middle position of the front face of each second sleeve (13) through a hinged shaft, the top end of each first connecting rod (2) is hinged to a second bearing plate (5) through a hinged shaft, fifth connecting rods (12) are hinged to the two ends of the bottom end of each second bearing plate (5) through hinged shafts, and the bottom ends of the, a fourth connecting rod (7) penetrating through the first sleeve (11) is horizontally arranged in the first sleeve (11), a first spring (10) connected with the first sleeve (11) is horizontally arranged on the outer side of the fourth connecting rod (7), a third connecting rod (6) is hinged to the front middle position of the first sleeve (11) through a hinged shaft, the bottom end of the third connecting rod (6) is hinged to the top end of the first bearing plate (3) through the hinged shaft, fixing plates (1) are vertically arranged at two ends of the top end of the second bearing plate (5), a clamping groove (22) is arranged at the top end of the inner side of each fixing plate (1), a stamping platform frame (20) is arranged at the top end of the second bearing plate (5) on the inner side of each fixing plate (1), stamping holes (18) are uniformly arranged at the middle position of the top end in the stamping platform frame (20), and third sleeves (21) are uniformly and horizontally arranged at the upper ends of two sides of the stamping platform frame, a second spring (15) is horizontally arranged inside the third sleeve (21), one end, far away from the stamping platform frame (20), of the second spring (15) is horizontally provided with a sixth connecting rod (14) which penetrates through the third sleeve (21) and is matched with the clamping groove (22), the center of the top end of the second bearing plate (5) on the inner side of the stamping platform frame (20) is vertically provided with an air cylinder (9), the output end of the air cylinder (9) is vertically provided with a hydraulic rod (8), the top end of the hydraulic rod (8) is horizontally provided with a third bearing plate (17), the top end of the third bearing plate (17) is uniformly and vertically provided with a supporting rod (16) which penetrates through the top end inside the stamping platform frame (20), the top end of the supporting rod (16) is horizontally provided with a supporting plate (19), and the top ends of the second bearing plates (5) on the two sides of the air cylinder (9) are uniformly and vertically provided with, and a fourth spring (27) is vertically arranged in the fourth sleeve (26), a seventh connecting rod (28) penetrating through the top end of the fourth sleeve (26) is vertically arranged at the top end of the fourth spring (27), and the top end of the seventh connecting rod (28) is connected with the bottom end of the third bearing plate (17).

2. The high speed die apparatus for motor cores of claim 1, wherein: the first connecting rod (2) is respectively connected with the second bearing plate (5) and the second sleeve (13) in a rotating mode through a hinge shaft to form a rotating mechanism, the second sleeve (13) is connected with the second connecting rod (4) through a third spring (24) to form a telescopic mechanism, and the second connecting rod (4) is connected with the sliding rail (25) in a sliding mode through a sliding block (23) to form a sliding mechanism.

3. The high speed die apparatus for motor cores of claim 1, wherein: the seventh connecting rod (28) is connected with the fourth sleeve (26) through a fourth spring (27) to form a telescopic mechanism, and four groups of the seventh connecting rod (28), the fourth spring (27) and the fourth sleeve (26) are arranged.

4. The high speed die apparatus for motor cores of claim 1, wherein: the fifth connecting rod (12) is respectively rotatably connected with the second bearing plate (5) and the first sleeve (11) through a hinged shaft to form a rotating mechanism, the first sleeve (11) is rotatably connected with the third connecting rod (6) through a hinged shaft to form a rotating mechanism, and the third connecting rod (6) is rotatably connected with the first bearing plate (3) through a hinged shaft to form a rotating mechanism.

5. The high speed die apparatus for motor cores of claim 1, wherein: the first sleeve (11) is connected with the fourth connecting rod (7) through a first spring (10) to form a telescopic mechanism, and the number of the first sleeve (11) is two.

6. The high speed die apparatus for motor cores of claim 1, wherein: the sixth connecting rod (14) is connected with the third sleeve (21) through a second spring (15) to form a telescopic mechanism, and the sixth connecting rod (14) is connected with the clamping groove (22) in a clamping mode to form a clamping mechanism.

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