CN109004801B - Fan wire arranging module - Google Patents

Abstract

The invention provides a fan wire arranging module, which comprises a lower template, an upper template and a bottom plate, wherein one side of the lower template is provided with a groove and a plurality of positioning columns, a plurality of positioning holes are formed on one side of the upper template and at least one fixing groove is arranged on the periphery of the upper template, the plural positioning holes are correspondingly sleeved on the positioning columns, the fixing groove is correspondingly provided with a fixing piece, the upper template is provided with a stator accommodating space and at least one hollow part, at least one raised strip is convexly arranged on the inner periphery of the stator accommodating space, the hollow part is correspondingly arranged on the periphery of the stator accommodating space, the bottom plate is correspondingly arranged on the groove, a shaft cylinder is convexly arranged on one side of the bottom plate, the shaft cylinder is correspondingly sleeved with a circuit board and a stator group, the stator group is correspondingly accommodated in the stator accommodating space, the stator group is wound with a plurality of coils, and one end of each coil is correspondingly clamped in the fixed groove.

Description

Fan wire arranging module

Technical Field

The present invention relates to a fan cable management module, and more particularly, to a fan cable management module capable of greatly improving production efficiency and achieving automatic production.

Background

In view of the trend of thinning electronic products, fans installed in various thin electronic products for driving airflow to dissipate heat also have a thinner profile than conventional fans. Therefore, in the design and production of thinner fan, how to manufacture a motor stator with high power and structural strength, and having a thinner structure is just one of the key elements of the fan thinning technology.

In the production and manufacturing process of the stator of the conventional thin fan, after the coil is wound on the stator, one end of the coil has no structure for fixing, and subsequent related steps are completely finished in a manual wire arrangement mode, so that the coil is easy to displace and loosen during a welding step, the production efficiency is poor, and the effect of automatic production is not facilitated.

Therefore, how to solve the above-mentioned problems and disadvantages is a direction in which the inventors of the present invention and related manufacturers engaged in the industry need to research and improve.

Disclosure of Invention

Accordingly, the present invention is directed to a fan wire module that can greatly improve the production efficiency.

The invention provides a fan wire arranging module capable of realizing automatic production.

To achieve the above object, the present invention provides a fan wire management module, which comprises:

a lower template, one side of which forms a groove and a plurality of positioning columns;

the upper template is provided with a plurality of positioning holes on one side, at least one fixing groove is formed on the periphery of the upper template, the plurality of positioning holes are correspondingly sleeved on the positioning columns, a fixing piece is correspondingly arranged on the fixing groove, the upper template is provided with a stator accommodating space and at least one hollow part, at least one convex strip is convexly arranged on the inner periphery of the stator accommodating space, and the hollow part is correspondingly arranged on the periphery of the stator accommodating space; and

a bottom plate, it is set up correspondingly on the said groove, one side of this bottom plate is projected and equipped with a shaft tube, this shaft tube is corresponded and covered and equipped with a circuit board and a stator group, this stator group is corresponded and held and located in the said stator holds and establishes the space, this stator group is wound and equipped with plural coil, one end of this plural coil is corresponded and blocked and located in the said fixed slot.

The fan reason line module, wherein: the stator group is composed of a plurality of silicon steel sheets, a plurality of poles protrude outwards from the silicon steel sheets, the coil is wound outside the poles, an accommodating space is formed between every two poles, and the raised lines are correspondingly accommodated in the accommodating space.

The fan reason line module, wherein: the raised lines are arranged on the inner periphery of the stator accommodating space at equal intervals or unequal intervals.

The fan reason line module, wherein: at least one welding spot is formed on the circuit board, and one end of the coil is clamped on the fixing groove after correspondingly passing through the welding spot.

The fan reason line module, wherein: the welding points of the circuit board are correspondingly exposed out of the hollow parts.

The fan reason line module, wherein: the stator group is also provided with a shaft hole which penetrates through two ends of the stator group, and the shaft cylinder correspondingly penetrates through the shaft hole.

The fan reason line module, wherein: the bottom plate is correspondingly arranged in the groove so as to enable the bottom plate to be flush with one side of the lower template.

The fan reason line module, wherein: the positioning columns are correspondingly arranged outside the grooves of the bottom plate.

The fan reason line module, wherein: the fixing piece is a spring piece or an elastic element.

The fan reason line module, wherein: and the fixing piece is correspondingly arranged in the fixing groove.

Through the design of the structure of the invention, the convex strip of the stator accommodating space is correspondingly accommodated in the accommodating space formed between the polar columns of the stator group, the radial angle of the stator group is fixed through the structure of the convex strip, so that the stator group cannot move left and right, at least one welding spot is formed on the circuit board, one end of a coil of the stator group is correspondingly clamped at the fixed groove of the upper template after passing through the welding spot, the fixing part of the fixed groove can firmly tighten and clamp one end of the coil, and finally, the positioning hole of the upper template is correspondingly sleeved on the positioning column of the lower template to fix the upper template, so that the problem of low production efficiency caused by the conventional manual wire arrangement mode is solved through the structures of the upper template and the lower template, and further the production efficiency is greatly increased, in addition, the hollow area of the upper template can expose the welding point of the circuit board on the bottom plate, so that the working space (tin dipping, insulation and welding wire …) required in the production and manufacturing process of the stator group can be reserved, and the effect of realizing automatic production is further achieved.

Drawings

FIG. 1 is an exploded perspective view of a preferred embodiment of a fan cabling module according to the present invention;

FIG. 2 is an enlarged view of the upper plate and the stator of the preferred embodiment of the fan wire management module of the present invention;

FIG. 3 is a perspective assembly view of a preferred embodiment of a fan cable management module according to the present invention;

FIG. 4 is a top view of a preferred embodiment of a fan cabling module according to the invention;

FIG. 5 is an enlarged view of a preferred embodiment of the fan cabling module of the present invention.

Description of reference numerals: a fan wire arranging module 2; a lower die plate 20; a groove 200; a positioning column 201; an upper die plate 21; positioning holes 210; a fixing groove 211; a stator accommodating space 212; a convex strip 213; a hollowed-out portion 214; a base plate 22; a shaft barrel 220; a circuit board 221; a solder joint 222; a stator group 23; a silicon steel sheet 230; a pole 231; a coil 232; an accommodating space 233; a shaft hole 234; a fixing member 3; and a locking member 4.

Detailed Description

The above objects, together with the structural and functional features thereof, are accomplished by the preferred embodiments according to the accompanying drawings.

Referring to fig. 1, fig. 2, fig. 3, fig. 4, and fig. 5, which are an exploded perspective view, an assembled perspective view, a top view, and an enlarged view of a fan wire management module according to a preferred embodiment of the present invention, as shown in the drawings, a fan wire management module 2 includes a lower mold plate 20, an upper mold plate 21, and a bottom plate 22, wherein a groove 200 and a plurality of positioning pillars 201 are formed at one side of the lower mold plate 20, and the positioning pillars 201 are correspondingly disposed at positions other than the groove 200 of the bottom plate 22;

a plurality of positioning holes 210 are formed at one side of the upper mold plate 21, at least one fixing groove 211 is formed at the periphery of the upper mold plate 21, the plurality of positioning holes 210 are correspondingly sleeved on the positioning columns 201, a fixing member 3 is correspondingly arranged on the fixing groove 211, the fixing member 3 can be firmly arranged in the fixing groove 211 through a locking member 4, the fixing member 3 can be an elastic sheet or an elastic element with elastic force, a stator accommodating space 212 and at least one hollow part 214 are formed at the center of the upper mold plate 21, at least one convex strip 213 is convexly arranged at the inner periphery of the stator accommodating space 212, particularly, the convex strips 213 can be selected to be arranged on the inner periphery of the stator accommodating space 212 at equal intervals or at unequal intervals, and the hollow part 214 is correspondingly arranged at the periphery of the stator accommodating space 212;

the bottom plate 22 is correspondingly disposed in the groove 200 of the lower mold plate 20, and the bottom plate 22 and one side of the lower mold plate 20 are flush, a shaft barrel 220 is disposed on one side of the bottom plate 22 in an upward protruding manner, the shaft barrel 220 is correspondingly sleeved with a circuit board 221, at least one welding spot 222 is formed on the circuit board 221, the welding spot 222 is correspondingly exposed out of the hollow portion 214, a stator set 23 is correspondingly disposed on the circuit board 221, the stator set 23 has a shaft hole 234 penetrating through two ends of the stator set 23, so that the stator set 23 is correspondingly sleeved on the shaft barrel 220 via the shaft hole 234, the stator set 23 is composed of a plurality of silicon steel sheets 230, the plurality of silicon steel sheets 230 protrude a plurality of poles 231 outwards, a plurality of coils 232 are wound outside the plurality of poles 231, a receiving space 233 is formed between each pole 231 and the pole 231, the stator set 23 is correspondingly received in the receiving space 212, the protruding strips 213 of the stator receiving space are correspondingly received in the receiving space 233, and one end of the coil 232 is correspondingly clamped on the fixing groove 211 after passing through the welding point 222.

Through the design of the structure of the present invention, the raised line 213 of the stator accommodating space 212 is correspondingly accommodated in the accommodating space 233 formed between the pole 231 and the pole 231 of the stator assembly 23, so as to fix the radial angle of the stator assembly 23 through the structure of the raised line 213 to prevent the stator assembly 23 from moving left and right, then the welding point 222 on the circuit board 221 is used to tighten one end of the coil 232 of the stator assembly 23 and clamp the end of the coil 232 at the fixing slot 211 of the upper template 21 after passing through the welding point 222, then the fixing member 3 of the fixing slot 211 is used to firmly clamp one end of the tightened coil 232, finally, the positioning hole 210 of the upper template 21 is correspondingly sleeved on the positioning post 201 of the lower template 20 to fix the upper template 21, so as to prevent the upper template 21 from moving arbitrarily in the manufacturing process of the stator assembly 23, and thus, the upper and lower templates 20, the stator assembly 23 and the stator assembly can be manufactured through, The structure of 21 avoids the problem of low production efficiency caused by the manual wire arrangement, thereby greatly increasing the production efficiency.

In addition, the hollow area of the upper mold plate 21 can expose the solder joint 222 of the circuit board 221 on the bottom plate 22, so that the space (tin-wetting, insulation, and solder wire … …) required by the manufacturing process of the stator assembly 23 can be reserved, thereby achieving the effect of automatic production.

As described above, the present invention has the following advantages over the prior art:

1. the production efficiency is greatly improved;

2. and automatic production can be realized.

The foregoing description is intended to be illustrative rather than limiting, and it will be appreciated by those skilled in the art that many modifications, variations or equivalents may be made without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (10)

1. A fan reason line module, characterized by includes:

a lower template, one side of which forms a groove and a plurality of positioning columns;

the upper template is provided with a plurality of positioning holes on one side, at least one fixing groove is formed on the periphery of the upper template, the plurality of positioning holes are correspondingly sleeved on the positioning columns, a fixing piece is correspondingly arranged on the fixing groove, the upper template is provided with a stator accommodating space and at least one hollow part, at least one convex strip is convexly arranged on the inner periphery of the stator accommodating space, and the hollow part is correspondingly arranged on the periphery of the stator accommodating space; and

the bottom plate is correspondingly arranged on the groove, a shaft barrel is convexly arranged on one side of the bottom plate, the shaft barrel is correspondingly sleeved with a circuit board and a stator group, the stator group is correspondingly accommodated in the stator accommodating space, a plurality of coils are wound on the stator group, one ends of the plurality of coils are correspondingly clamped in the fixed groove, at least one welding spot is formed on the circuit board, and one ends of the coils are correspondingly clamped on the fixed groove after passing through the welding spot.

2. The fan cabling module of claim 1, wherein: the stator group is composed of a plurality of silicon steel sheets, a plurality of poles protrude outwards from the silicon steel sheets, the coil is wound outside the poles, an accommodating space is formed between every two poles, and the raised lines are correspondingly accommodated in the accommodating space.

3. The fan cabling module of claim 1, wherein: the raised lines are arranged on the inner periphery of the stator accommodating space at equal intervals or unequal intervals.

4. The fan cabling module of claim 1, wherein: the welding points of the circuit board are correspondingly exposed out of the hollow parts.

5. The fan cabling module of claim 1, wherein: the stator group is also provided with a shaft hole which penetrates through two ends of the stator group, and the shaft cylinder correspondingly penetrates through the shaft hole.

6. The fan cabling module of claim 1, wherein: the bottom plate is correspondingly arranged in the groove so as to enable the bottom plate to be flush with one side of the lower template.

7. The fan cabling module of claim 1, wherein: the positioning columns are correspondingly arranged outside the grooves of the bottom plate.

8. The fan cabling module of claim 1, wherein: the fixing piece is a spring piece.

9. The fan cabling module of claim 1, wherein: the fixing member is an elastic member.

10. The fan cabling module of claim 1, wherein: and the fixing piece is correspondingly arranged in the fixing groove.

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