CN211573959U - Motor silicon steel sheet hot-pressing adhesion forming jig structure - Google Patents

Motor silicon steel sheet hot-pressing adhesion forming jig structure Download PDF

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Publication number
CN211573959U
CN211573959U CN201922370531.0U CN201922370531U CN211573959U CN 211573959 U CN211573959 U CN 211573959U CN 201922370531 U CN201922370531 U CN 201922370531U CN 211573959 U CN211573959 U CN 211573959U
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China
Prior art keywords
clamping plate
silicon steel
plate
steel sheet
tightening
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CN201922370531.0U
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Chinese (zh)
Inventor
彭昭群
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CHENG CHANG MACHINE ELECTRONIC CORP
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CHENG CHANG MACHINE ELECTRONIC CORP
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Abstract

The utility model discloses a motor silicon steel sheet hot pressing adhesion shaping smelting tool structure, it includes that an punch holder, a lower plate, plural packing bolt, plural packing nut, one set of seat of overlapping, a compression leg and a spiral shell lock nut. The compressing bolts are matched with the compressing nuts to be respectively connected with the upper clamping plate and the lower clamping plate and selectively and quickly adjust the distance between the upper clamping plate and the lower clamping plate, the pressing column and the sleeving seat are respectively locked on the upper clamping plate and the lower clamping plate and move with the upper clamping plate and the lower clamping plate, one end of the sleeving seat penetrates through the upper clamping plate and the pressing column to provide threaded locking nuts for screwing, and the distance between the upper clamping plate and the lower clamping plate is further finely adjusted. By means of the components, a user only needs to superpose a plurality of silicon steel sheets on the nesting and superposing seat, and can achieve the purpose of accurately and orderly adhering the silicon steel sheets to generate the iron core by matching the action of the components.

Description

Motor silicon steel sheet hot-pressing adhesion forming jig structure
Technical Field
The utility model belongs to the technical field of the technique that the motor component is relevant and specifically relates to indicate a shaping smelting tool structure is adhered to motor silicon steel sheet hot pressing.
Background
The motor rotor consists of a rotating shaft and an iron core sleeved on the outer peripheral side of the rotating shaft; wherein the iron core is formed by laminating and adhering a plurality of silicon steel sheets.
The preparation of the iron core in the prior art comprises the steps of firstly punching and molding silicon steel sheets according to the design, matching with the viscose coating surface, then concentrically stacking the silicon steel sheets, finally pressing the stacked silicon steel sheets by matching with a thousand-jin top, so that the silicon steel sheets can form close fit under the action of the viscose, and finally performing fine finishing.
The superposition of the silicon steel sheets mostly depends on the adjustment of skilled engineering personnel to achieve concentricity, so that the integral quality cannot be maintained to be consistent, and how to assemble the iron core more quickly and with high quality is necessary to improve the quality.
SUMMERY OF THE UTILITY MODEL
In view of the above problems and disadvantages of the conventional techniques, the main object of the present invention is to provide a jig structure for hot press forming of silicon steel sheets for a motor, which facilitates the user to quickly operate and complete the production of iron cores (silicon steel sheets are stacked and adhered).
According to the above object of the utility model, a motor silicon steel sheet hot pressing adhesion shaping smelting tool structure is proposed, include:
an upper clamping plate having a plurality of upper plate holes;
the lower clamping plate is provided with a plurality of lower plate holes, and each lower plate hole is concentric with each matched upper plate hole;
a plurality of tightening bolts respectively penetrate through the upper plate holes and the lower plate holes which are matched concentrically;
a plurality of tightening nuts which are screwed with the two ends of each tightening bolt respectively and are abutted against the outer side surfaces of the upper clamping plate and the lower clamping plate;
the pressing column is locked on the downward end surface of the upper clamping plate and is provided with a shaft hole which is concentric with one of the upper plate holes and the nesting seat;
the nesting seat is vertically arranged on the lower clamping plate, and the upper section of the nesting seat penetrates through the shaft hole and each upper plate hole concentric with the shaft hole and protrudes out of the outer side of the upper clamping plate; and
a screw lock nut which is screwed on the upper section of the nesting seat protruding from the upper clamping plate.
The motor silicon steel sheet hot-press adhesion molding jig structure comprises an upper clamping plate, a lower clamping plate, a plurality of tightening bolts, a plurality of tightening nuts, a sleeving and overlapping seat, a pressing column and a screw locking nut, wherein each tightening bolt is matched with each tightening nut to be respectively connected with the upper clamping plate and the lower clamping plate and selectively and quickly adjust the distance between the upper clamping plate and the lower clamping plate, the pressing column and the sleeving and overlapping seat are respectively locked on the upper clamping plate and the lower clamping plate and move with the upper clamping plate and the lower clamping plate, one end of the sleeving and overlapping seat penetrates through the upper clamping plate and the pressing column to provide screw locking nuts for screwing, and the distance between the upper clamping plate and the lower. By means of the components, a user only needs to superpose a plurality of silicon steel sheets on the nesting and superposing seat, and can achieve the purpose of accurately and orderly adhering the silicon steel sheets to generate the iron core by matching the action of the components.
Drawings
Fig. 1 is a perspective view of an embodiment of the present invention.
Fig. 2 is an exploded view of the embodiment of fig. 1.
Fig. 3 is a schematic cross-sectional view (one) of the embodiment shown in fig. 1.
FIG. 4 is a schematic sectional view of the embodiment shown in FIG. 1.
Fig. 5 is a schematic view of an embodiment of the present invention.
Names corresponding to the marks in the figure:
10 … Upper splint
12 … upper plate hole
20 … lower splint
22 … lower plate hole
30 … tightening bolt
32 … tightening screw thread
34 … casing tube
40 … packing nut
50 … nesting seat
52 … lower flange
54 … center post
60 … compression leg
62 … upper flange
64 … location column
66 … axle hole
70 … screw nut
72 … gasket
80 … lifting lug
82 … ear hole
84 … ear screw
S1 … silicon steel sheet
S … iron core
H … heating chamber.
Detailed Description
The following will refer to the related drawings to further illustrate the embodiment of the inventive motor silicon steel sheet hot-press adhesion molding tool structure. For the convenience of understanding the embodiments of the present invention, the same reference numerals are used for the same parts in the following description.
Referring to fig. 1 to 4, the tool structure for hot-press forming of motor silicon steel sheet of the present invention includes an upper clamping plate 10, a lower clamping plate 20, a plurality of tightening bolts 30, a plurality of tightening nuts 40, a set of stacking seats 50, a pressing column 60, a screw nut 70, a plurality of sleeves 34, a lifting lug 80 and a gasket 72.
The upper plate 10 has a plurality of upper plate holes 12; the upper plate holes 12 are formed through the upper plate 10 at the top and bottom.
The lower plate 20 has a plurality of lower plate holes 22; the lower plate holes 22 are formed through the lower clamping plate 20 at the top and bottom and are concentric with the matching upper plate holes 12. In practice, the lower plate hole 22 may be a through hole or a screw hole.
The tightening bolts 30 have a tightening thread 32 on the outer peripheral sides of both ends, and extend through the upper and lower plate holes 12, 22, respectively, which are concentrically matched.
The tightening nuts 40 are screwed to the tightening threads 32 of the tightening bolts 30, and are pressed against the upper (lower) end surface of the upper (lower) clamping plate 10(20), and the distance and speed of the movement of the upper clamping plate 10 towards the lower clamping plate 20 direction are rapidly adjusted by the design (non-limiting) of the larger pitch (or the plurality of threads) of the tightening threads 32 of the tightening bolts 30. In practice, when the lower plate hole 22 is a screw hole (not shown), the fastening nut 40 corresponding to the screw lock can be omitted and directly screwed (not shown).
The nesting seat 50 has a lower flange 52 and a center post 54. The downward facing end surface of the lower flange 52 is locked in a default position on the lower clamping plate 20. The central pillar 54 is erected on the upper end surface of the lower flange 52, and the upper section of the central pillar passes through the pressing pillar 60 and one of the matched upper plate holes 12, and has a threaded section 542 on the outer peripheral side. In practice, the central column 54 provides the silicon steel sheet S1 for overlapping, and the pitch of the thread segment 542 is smaller than the tightening thread 32 of the tightening bolt 30 (without limitation of the present invention).
The compression leg 60 has an upper flange 62, a positioning leg 64 and a shaft opening 66. The upper flange 62 is locked at a default position on the downward end surface of the upper clamping plate 10. The positioning column 64 is vertically arranged on the downward end face of the upper flange 62. The axial hole 66 is formed through the compression leg 60 from the top to the bottom, and is concentric with the central leg 54 and one of the matching upper plate holes 12, so as to provide for the central leg 54 of the nesting seat 50 to extend through.
And the upper screw locking nut 70 is screwed on the outer peripheral side of the threaded section 542 of the central column 54 and presses against the upward end surface of the upper clamping plate 10, so that the distance and the speed of the upper clamping plate 10 and the locked pressing column 60 moving towards the lower clamping plate 20 are synchronously and finely adjusted.
The sleeves 34 are movably fitted around the outer peripheral sides of the tightening bolts 30 to limit the minimum distance between the upper and lower clamping plates 10, 20. In practice, the length of the sleeve 34 corresponds to the height of the core S to be formed.
The two opposite ends of the lifting lug 80 are respectively provided with a lug hole 82 and a lug thread 84; with the ear threads 84 engaging the threaded lock nut 70.
The washer 72 (prior art) is fitted around the outer periphery of the center post 54 and located between the upper clamp plate 10 and the lock nut 70. In practice, the gasket 72 may be a rigid gasket (e.g., made of metal) or a flexible gasket (e.g., made of plastic).
The above-mentioned promptly the utility model provides a description of the hot pressing adhesion shaping smelting tool structure of preferred embodiment motor silicon steel sheet and assembly method will again the utility model discloses an embodiment actuates the characteristics and introduces as follows.
Referring to fig. 1 to 4, a predetermined number of glued silicon steel sheets S1 are sleeved on the outer circumferential side of the nesting seat 50 (the center post 54), and then the sleeves 34 and the upper clamping plate 10 are sleeved on the outer circumferential side of the matched fastening bolts 30, so that the pressing posts 60 (the positioning posts 64) are pressed against the top ends of the silicon steel sheets S1 on the nesting seat 50.
The upper clamping plate 10 is pressed by the pressing nut 40, and the displacement of the upper clamping plate 10 and the pressing column 60 locked thereon can be rapidly adjusted due to the larger pitch of the pressing threads 32 of the pressing bolt 30, so as to rapidly achieve the adjustment of the force of the pressing column 60 pressing against the silicon steel sheet S1.
The central pillar 54 (threaded section 542) is screwed by the screw nut 70, so as to further finely adjust the displacement of the upper clamping plate 10 and the pressing pillar 60 locked thereon, and finely adjust the force exerted by the pressing pillar 60 on the silicon steel sheet S1. The final compressed height of each silicon steel sheet S1 is limited by the length of the sleeve 34.
Thus, after the silicon steel sheets S1 are adhered to each other to form an iron core S, the operation is reversed to obtain the iron core S.
Referring to fig. 1 to 5, the lifting lugs 80 can be screwed with the screw nuts 70 to facilitate the mechanical lifting of the above-mentioned components, and the time for the silicon steel sheets S1 to stick in and out of the heating chamber H is accelerated.
The above description is only for the purpose of illustrating the preferred embodiments of the present invention, and is not intended to limit the scope of the embodiments of the present invention, which is intended to cover all equivalent variations, modifications, and equivalents of the present invention, which would be obvious to those skilled in the art, and which are within the scope of the present invention.

Claims (7)

1. Motor silicon steel sheet hot-pressing adhesion shaping smelting tool structure, its characterized in that includes:
an upper clamping plate having a plurality of upper plate holes;
the lower clamping plate is provided with a plurality of lower plate holes, and each lower plate hole is concentric with each matched upper plate hole;
a plurality of tightening bolts respectively penetrate through the upper plate holes and the lower plate holes which are matched concentrically;
a plurality of tightening nuts which are screwed with the two ends of each tightening bolt respectively and are abutted against the outer side surfaces of the upper clamping plate and the lower clamping plate;
the pressing column is locked on the downward end surface of the upper clamping plate and is provided with a shaft hole which is concentric with one of the upper plate holes and the nesting seat;
the nesting seat is vertically arranged on the lower clamping plate, and the upper section of the nesting seat penetrates through the shaft hole and each upper plate hole concentric with the shaft hole and protrudes out of the outer side of the upper clamping plate; and
a screw lock nut which is screwed on the upper section of the nesting seat protruding from the upper clamping plate.
2. The motor silicon steel sheet hot-press adhesion molding jig structure of claim 1, characterized in that: the opposite ends of the nesting seat are respectively provided with a lower flange and a central column which are penetrated by the shaft hole; the lower flange is locked on the lower clamping plate, the outer peripheral side of the upper section of the central column is provided with a threaded section, and the upper plate holes along the shaft hole and the concentric shaft hole protrude out of the upper clamping plate to provide the screw lock nut for screwing.
3. The motor silicon steel sheet hot-press adhesion molding jig structure of claim 2, characterized in that: a set of gaskets connected with the outer periphery of the central column is arranged between the upper clamping plate and the screw lock nut.
4. The motor silicon steel sheet hot-press adhesion molding jig structure of claim 1, characterized in that: the two ends of each tightening bolt are respectively provided with a tightening thread for screwing each tightening nut.
5. The motor silicon steel sheet hot-press adhesion molding jig structure of claim 1, characterized in that: the outer peripheral side of the upper section of the nesting seat is provided with a threaded section for the screw lock nut to be screwed, two tail ends of each tightening bolt are respectively provided with a tightening screw thread for the screw lock nut to be screwed, and the pitch of the tightening screw threads is larger than that of the threaded section of the nesting seat.
6. The motor silicon steel sheet hot-press adhesion molding jig structure of claim 1, characterized in that: a sleeve is sleeved and connected on the outer periphery side of each tightening bolt.
7. The motor silicon steel sheet hot-press adhesion molding jig structure of claim 1, characterized in that: the screw lock nut provides a lifting lug for screw connection, and two opposite ends of the lifting lug are respectively provided with an ear hole and an ear thread.
CN201922370531.0U 2019-12-25 2019-12-25 Motor silicon steel sheet hot-pressing adhesion forming jig structure Active CN211573959U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201922370531.0U CN211573959U (en) 2019-12-25 2019-12-25 Motor silicon steel sheet hot-pressing adhesion forming jig structure

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201922370531.0U CN211573959U (en) 2019-12-25 2019-12-25 Motor silicon steel sheet hot-pressing adhesion forming jig structure

Publications (1)

Publication Number Publication Date
CN211573959U true CN211573959U (en) 2020-09-25

Family

ID=72549409

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201922370531.0U Active CN211573959U (en) 2019-12-25 2019-12-25 Motor silicon steel sheet hot-pressing adhesion forming jig structure

Country Status (1)

Country Link
CN (1) CN211573959U (en)

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