JP3038955U - Small radiator fan connection structure - Google Patents

Abstract

(57) 【Abstract】 PROBLEM TO BE SOLVED: To push a top pole piece, a stator coil, and a bottom pole piece into a metal shaft tube having different outer diameters in several stages to fix the stator coil to a large outer diameter portion in the middle stage portion, and then to form a circuit. A plate is attached, and the bottom end of the metal shaft tube is inserted into the central column tube of the case to be connected. However, the joint portions expand due to heat and shrink due to cooling, so that there is a problem such as poor fixability. A case is provided with a shaft tube, and a stator and the shaft tube can be fitted to each other by a protruding groove and a concave groove. Therefore, the stator is formed so as to be positioned without rotating, and a valve piece is formed on the shaft tube. Formed, a hook is formed on the top of the valve piece to stop the stator and a bearing is provided on the inner diameter of the shaft tube to support the propeller rotating in place.

Description

[Detailed description of the invention]

[0001]

[Technical field to which the invention belongs]

 The present invention relates to a coupling structure for a small radiator fan. The case is provided with a shaft tube, and the shaft tube is used for fitting the stator. Since the shaft tube is fitted with the projecting ridge and the concave groove between the two, the stator is formed so as to be positioned without rotating, and A valve piece consisting of a plurality of gaps is formed on the shaft tube, and a hook is formed on the upper portion of the valve piece to stop the stator, which prevents the stator from coming off. A bearing is provided on the inner diameter of the shaft tube, the bearing can support the propeller rotating in place, and the outer circumference of at least one bearing is configured with an arcuate angle.

[0002]

[Prior art]

 Heretofore, the coupling structure of this type of small radiator fan has been as follows. In Japanese Patent Application No. Hei 6-23794 “Coupling structure of stator of small radiator fan” of the prior application, one has a metal shaft tube whose outer diameter is different in several stages, and the outer diameter of the middle stage is the front stage. Since it is larger than the outer diameter of the lower part and the rear part, the upper pole piece, the stator coil, and the lower pole piece are strongly pushed into the metal shaft tube, and the stator coil is fixed to the large outer diameter part of the middle part before mounting the circuit board. Finally, the bottom end of the metal shaft tube is inserted into the central column tube of the case and connected.

[0003]

[Problems to be solved by the device]

 The technology described in the prior art has the following problems. The method disclosed in the above-mentioned application uses a method of forming a three-step portion having different outer diameters on a metal shaft tube as a fixing method for coupling, and thereby strongly pressing the stator coil and the upper and lower pole pieces. However, the components that are connected to each other expand due to heat, shrink due to cooling, and after they are combined with the metal shaft tube, there is a problem that they become loose and loose due to thermal expansion. . Besides, the bearing must be fitted into the inner diameter of the metal shaft tube, and the bearing is used to support the rotation of the propeller shaft, and the bearing is formed so as to be placed under strong pressure and fixed. Has been done. Therefore, it is necessary to make the outer diameter of the bearing and the inner diameter of the metal shaft tube have appropriate dimensions.If it is too loose, there is a problem that the bearing will slide and come off, and the entire stator will come loose and come off. However, if the bearing is too tight, it will be difficult to push the bearing into the metal shaft tube.In addition, the bearing's inner diameter will be reduced, and the contact between the bearing and the shaft will be too hard to rotate the rotor propeller. Will occur.

The present invention has been made in view of the above problems of the prior art, and an object of the present invention is to provide the following things. The main object of the present invention is to provide a connecting structure for a small radiating fan, the assembly of which is more convenient, and the problem of loosening and detaching in the connection is eliminated. The next object of the present invention is to provide a connecting structure for a small radiating fan, which not only makes the assembly more convenient, but also makes the propeller shaft rotate more smoothly, so that the radiating fan has a longer service life. Become.

[0005]

[Means for Solving the Problems]

 In order to achieve the above object, the present invention is as follows. That is, according to the present invention, the case 1 is provided with the shaft tube 14, and the shaft tube 14 is used for fitting the stator 2, and the projection groove 19 and the concave groove 231 are fitted between them. The stator 2 is formed so as not to rotate and to be localized. Further, a valve piece 16 including a plurality of gaps 15 is formed in the shaft tube 14, and a hook 17 is formed on the valve piece 16 to form a stator. Since the stator 2 can be stopped, the stator 2 can be prevented from coming off, and further, the bearing 18 is provided on the inner diameter of the shaft tube 14, and the bearing 18 supports the propeller 3 to rotate in a fixed position. It is also possible, and the outer circumference of at least one bearing 18 is configured with an arcuate corner.

[0006]

[Embodiment of the invention]

 Embodiments will be described with reference to the drawings. The present invention comprises a case 1, a stator 2 and a propeller 3. The case 1 is made of a plastic material by injection molding, and the case 1 is provided with a housing space 11. The housing space 11 is used to house the stator 2 and the propeller 3, and is also used to connect with the stator 2. A support rod 12 such as a rod is provided on the bottom surface of 1, the support rod 12 supports a bottom plate 13, a shaft tube 14 is provided at the center of the bottom plate 13, and a plurality of gaps 15 are provided above the shaft tube 14. By this, a plurality of valve pieces 16 are formed, an outwardly facing hook 17 is provided on the upper part of the valve piece 16, and an inclined surface that slopes downward is formed on the upper part of the hook 17. As a result, the stator 2 easily slips over and is stopped by the hook 17, so that the stator 2 is not restricted and detached.

Further, since the stator 2 is formed so as not to rotate in a fixed position after being housed, one or more protruding ridges 19 are provided on the surface of the outer diameter of the shaft tube 14 and are recessed in the inner diameter of the stator 2. A recessed groove 231 is provided, and the recessed groove 231 is configured to be capable of fitting with the protruding groove 19 of the shaft tube 14. Further, the inner diameter surface of the shaft tube 14 is configured such that the inner diameter of the middle step portion is smaller than the inner diameters of the upper step portion and the lower step portion, and two stop edges 10 are formed due to the difference in the inner diameters. 18 can be placed to support the rotation of the propeller 3. The strength of the shaft tube 14 can be increased even in the middle portion having a small diameter. The bearing 18 is a general metal bearing with grease, and the shaft 31 of the propeller 3 penetrates at the center of the bearing 18. There is a shaft hole, and the outer circumference is formed into an arcuate surface or a right angled surface, and the arcuate surface is easier to assemble. Further, when the shaft 31 of the propeller 3 is penetrated by the bearing 18, its shaft hole can be automatically adjusted and rotated in order to match the shaft 31, so that the shaft 31 is not biased.

The stator 2 is composed of an upper plate 21, a lower plate 22, a silicon steel plate 23, and a circuit board 24. The upper plate 21 and the lower plate 22 are made of a plastic material having good insulating properties, and a silicon plate is provided between them. A copper wire is wound after sandwiching the steel plate 23, and various electronic components are assembled on the circuit board 24 to form a drive circuit for the radiator fan. In order to prevent the stator 2 from rotating after being assembled in the case 1, a plurality of recessed grooves 231 are provided in the shaft hole of the silicon steel plate 23, and the recessed grooves 231 are fitted with the protruding ridges 19 of the shaft tube 14. In addition, the stator 2 is fixed so that it cannot rotate even after it is assembled.

The propeller 3 can pass through the bearing 18 by means of a shaft 31, is fixed by being fixed by a C-shaped locking ring, etc., and has a magnet on the outside thereof, and is rotated by the magnetic field sensitivity with the stator 2. The propeller 3 is provided with a plurality of blades 32 on the outer peripheral edge thereof, and thereby is configured to promote the flow of air when the propeller 3 rotates.

As shown in FIGS. 2 and 3, according to the present invention, the stator 2 is directly fitted on the outer circumference of the shaft tube 14, and the upper portion of the stator 2 is stopped by the hooks 17 provided on the shaft tube 14. Is restricted in the axial direction and never detaches. Further, as shown in FIG. 4, the concave groove 231 provided in the silicon steel plate 23 is fitted to the protruding groove 19 of the shaft tube 14, so that the stator 2 is fixed to the shaft tube 14 and is not rotatable. .

At this time, the bearing 18 is configured to be in a stationary state in which it is stopped at the stop edge 10 formed by the inner diameter difference between the middle step portion and the upper and lower step portion in the inner diameter of the shaft tube 14, and the bearing 18 When the outer circumference is formed into an arcuate surface, there is an advantage that it can be easily fitted into the inner diameter of the shaft tube 14. Further, as shown in FIGS. 5 and 6, at least one outer circumference of the bearing 18 is formed into an arcuate angle, so that the bearing 18 having an arcuate outer circumference is automatically moved by the shaft 31 of the propeller 3. The center position of the shaft hole can be adjusted. As a result, it is possible to prevent vertical deviations that occur when the shaft 31 penetrates the bearing 18, so that the radiator fan can withstand long-term use.

[0012]

[Effect of the invention]

 Since the present invention is configured as described above, the following effects can be obtained. The connection structure of the small radiating fan of the present invention is relatively convenient in assembling, and it is even more solid after being connected, so that the situation of loosening or detachment due to the elements of thermal expansion cooling reduction does not occur. Further, since the outer circumference of at least one bearing is formed into an arcuate surface, it is possible to prevent the axial center from being deviated vertically. Moreover, the wear caused by it is reduced, and the rotation of the radiating fan can be fully achieved, while at the same time extending the service life.

[Brief description of the drawings]

FIG. 1 is a combined exploded perspective view of the present invention.

FIG. 2 is a cross-sectional view of the combined state of the present invention.

FIG. 3 is an enlarged view of a portion A of FIG.

FIG. 4 is a sectional view taken along line BB.

FIG. 5 is a sectional view of another embodiment centering on a bearing portion.

FIG. 6 is a cross-sectional view of another embodiment centering on a bearing portion.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 case 2 stator 3 propeller 10 stop edge 11 accommodation space 12 support rod 13 bottom plate 14 shaft tube 15 gap 16 valve piece 17 hook 18 bearing 19 protruding ridge 21 upper plate 22 lower plate 23 silicon steel plate 231 concave groove 24 circuit plate 31 shaft 32 feathers

Claims (4)

[Utility model registration claims] 1. A case (1), a stator (2), and a propeller (3), and a housing space (1) in the case (1).
1) is provided, the accommodation space (11) is accommodated in a state where the stator (2) and the propeller (3) can rotate, and the bottom plate (1) is provided by a plurality of support rods (12) provided on the bottom surface of the case (1).
3) is supported, and the bottom plate (13) is provided with a shaft tube (14), the outer diameter of which is used for connecting the stator (2), and the hook (17) is used to prevent the stator (2) from being detached.
And the stator (2) is coupled to the outer diameter of the shaft tube (14) of the case (1) and the magnetic field generated by the coil is configured to rotate the propeller (3), the propeller (3) Case (1) with shaft (31)
Of the shaft tube (18), which is fixed so as not to come off in a stationary state, is fixed to the propeller (3), and the magnet is configured to rotate in response to the stator (2). A plurality of projecting ridges (19) are provided on the outer diameter of 14), and a plurality of gaps (15) are provided in the upper portion thereof, whereby a plurality of valve pieces (16) are formed, and a valve piece (16).
Since the outward hook (17) is provided on the upper part of the shaft, the stator (2) is fitted into the shaft tube (14) and is restricted by the hook (17) so that the stator (2) moves in the axial direction from the shaft tube (14). It cannot be detached, one or more projecting ridges (19) are provided on the outer diameter of the shaft tube (14), and a recess groove (231) is provided in the hole of the silicon steel plate (23). 231) can be fitted with the protruding ridge (19), so that the stator (2)
Is a coupling structure for a small radiator fan, which is configured so that it cannot be rotated and is fixed. 2. The inner diameter surface of the shaft tube (14) of the case (1) is formed with two stop edges (10) by making the inner diameter of the middle step portion smaller than the inner diameters of the upper step portion and the lower step portion. The coupling structure for a small radiator fan according to claim 1, wherein the bearing (18) is configured to be stopped by the stop edge (10) when the bearing (18) is placed in the shaft tube (14). 3. The miniature heat sink according to claim 1, wherein an upper part of the hook (17) provided on the shaft tube (14) of the case (1) has a slope inclined downward from the inside to the outside. Combined structure of the fan. 4. A case (1), a stator (2), and a propeller (3), and the accommodation space (1) in the case (1).
1) is provided, the accommodation space (11) is accommodated in a state in which the stator (2) and the propeller (3) can rotate, and a plurality of support rods (12) are provided on the bottom surface of the case (1). 12) can support a bottom plate (13), the bottom plate (13) is provided with a shaft tube (14), the outer diameter of which is used for connecting the stator (2) and the stator (2) is detached. It is secured by a hook (17) so that it cannot be rotated and separated in the axial direction by coupling the stator (2) to the outer diameter of the shaft tube (14) of the case (1). The magnetic field generated by is configured to rotate the propeller (3), the propeller (3) penetrates the bearing (18) of the case (1) with the shaft (31), and is fixed by the localization component so as not to come off. Propeller (3)
A magnet is provided on the shaft, the magnet is configured to rotate in response to the stator (2), a plurality of projecting ridges (19) is provided on the outer diameter of the shaft tube (14), and the upper step portion of the shaft tube is provided. The inner diameter of the lower part and the lower part is larger than the inner diameter of the middle part, and two stop edges (10) are formed by the difference in inner diameter, and the two bearings (18) are stopped by the stop edge (10). At least one outer periphery of each bearing (18) is formed into an arcuate corner, and a coupling structure for a small radiator fan.