KR200190947Y1 - Rotary shaft - Google Patents

Abstract

The rotary shaft includes a movable shaft portion and a stationary shaft portion. The movable shaft portion consists of an extension portion and a cylinder portion, the cylinder portion having a split groove with a recess ring for receiving lubricating grease on its surface, and having an oil groove communicating with the recess ring for guiding grease. . The collar is located between the extension and the cylinder. The stationary shaft portion consists of a cylinder shaft having an axial hole so that the extension portion and the cylinder portion are tightly fitted. When the cylinder portion is inserted into the shaft hole, the dividing groove is pressed and slightly twisted so that the cylinder portion smoothly enters the shaft hole. The oil groove provides perfect lubricity and reduces friction and prevents noise once the cylinder portion rotates about the shaft hole.

Description

Rotary shaft

The invention relates to a rotary shaft, in particular comprising a stationary shaft portion which engages with the movable shaft portion by tight fitting, which simplifies the structure and reduces the working time of assembling both shaft portions, and also has a threaded oil groove on the movable shaft portion. It is provided with a rotary shaft that can provide noise lubrication to avoid the noise.

In general, covered consumer electronics, such as portable computers, electronic dictionaries, portable video-audio playing devices, etc., each have a lower half of the body and an upper half of the cover. The rotary shaft is connected to the body and the cover so that the cover can be opened and closed efficiently. Therefore, the rotary shaft is one of the factors that determine whether the above mentioned products are excellent. In fact, a good rotary shaft needs not to loosen under repeated operations as well as a stagnating effect of location, and of course the rotary shaft needs to prevent noise generation so that the user does not feel uncomfortable.

In general, there are two types of friction that occur on a rotating shaft, one of which is a series method, that is, an axial friction, for example, United States Patent No. 5,190,391 Registered). The present invention is not related to friction in series, and thus will not be described in more detail. Another friction method is the sleeve method, ie radial friction, an example of which is disclosed in U.S. Patent No. 5,632,066 (the same draft is registered as PRC 111911). In order to achieve the anticipated stagnation effect, conventional sleeves of rotary shafts must meet stringent precision requirements. That is, the male and female connecting members of the rotary shaft are made of metal which is easily polished and cut. In this manner, an axial hole is formed in the female connecting member, and the dividing groove can be formed in the cylinder portion at the center of the male connecting member. Then, the cylinder portion can be freely inserted into the shaft hole. After grinding and cutting, the male and female connecting members must be heat treated to increase their strength and durability. However, the torsion caused by the cylinder hole frequently occurs through the heat treatment of the cylinder portion. Therefore, there is a problem that the cylinder portion cannot be properly fitted with the shaft hole.

It is an object of the present invention to provide a rotary shaft that can be assured that the movable shaft and the stationary shaft are tightly fitted to facilitate the assembly operation.

Another object of the present invention is to provide a rotary shaft that can obtain excellent lubricity to prevent unnecessary noise generation.

It is a further object of the present invention to provide a rotatable shaft in which the cover of the article can be opened at the limiting angular displacement as described above.

1 is an exploded perspective view of a rotary shaft according to the present invention;

2 is a cross-sectional view after assembly of the rotary shaft shown in FIG. 1;

3 is a perspective view of a rotary shaft of the present invention including associated couplings;

4 is a perspective view of a rotary shaft in another embodiment of the present invention.

※ Explanation of symbols for main parts of drawing

1: movable shaft part 2: stationary shaft part

11: collar 12, 21: extension

13: cylinder 22: cylinder shaft

23, 43: stopper 111: stop

131: split groove 132: concave ring

133: oil groove 134: chamfer

221: shaft hole 222: expansion

The present invention can be fully understood with reference to the accompanying drawings and the following detailed description.

1 and 2, the rotary shaft according to the present invention basically consists of a movable shaft portion (1) and a stationary shaft portion (2).

The movable shaft portion 1 has a collar 11 that forms an elongated body and protrudes outward from its surface. The extension 12 is attached to the side of the collar 11 and engaged with the cover of an article such as a screen. The cylinder portion 13 extends outwardly from the other side of the collar 11, and a split groove 131 is formed by long dents on the cylinder portion 13. The concave ring 132 is for accommodating the lubricating grease and is disposed on the surface circumference of the cylinder portion 13 by the collar 11. The oil groove of the thread 133 is provided on either side of the surface circumference of the cylinder portion 13 and communicates with the concave ring 132 as a guide for grease. The concave ring 132 not only adjusts the friction area of the cylinder and the stop shaft portion, but also guides the grease to the oil groove 133 when there is no grease in the oil groove 133. The cross section of the oil groove 133 is a 'V' shaped with a wider top surface to accommodate more grease. Moreover, the free end of the cylinder portion 13 has a chamfer 134 so that the cylinder portion 13 can be easily inserted into the stop shaft portion 2.

In order to provide the function of limiting the opening angle of the cover at the request of the customer, the collar 11 is cut as desired by the customer to limit the rotation of the movable shaft portion and the stop part 111 is stopped. Can be formed.

The stationary shaft portion 2 is a cylindrical body, the end of which is provided with an extension portion 21 to engage with the main body of an article such as a main board. The other end of the stationary shaft portion 2 is the cylinder shaft 22, the shaft hole 221 of which is slightly smaller than the cylinder portion 13. When the cylinder portion 13 is fitted in the shaft hole 221, the division groove 131 is slightly compressed, so that the entire cylinder portion 13 is fitted with the shaft hole 221 to be tightly coupled. Then, the rotation axis with the stagnation effect can be formed perfectly. In addition, the shaft hole 221 has an expansion portion 222 at its opening end, the expansion portion 222 is slightly larger than the outer size of the cylinder portion 13 so that a portion of the chamfer 134 easily passes therethrough. Has an internal size.

Moreover, the cylinder shaft 22 has a stopper 23 protruding outward from its end, which causes the collar 11 to interfere with the stop 111 during rotation to limit the angular displacement of the movable shaft 1. It is located next to it.

In figure 3 it is shown that the rotary axis shown in figure 1 is engaged with the relevant parts. The extension 12 of the movable shaft 1 is riveted to the frame 3 attached to the cover of the article. The stationary shaft portion 2 is inserted into the engaging hole 41 of the support sheet 4 and is mounted so as not to move therein by opposing milled planes on the extension portion 21 fitted therewith. do. The lock head 212 at the free end of the extension portion 21 passes through the coupling hole 41 to engage the lock washer 42, so that the stop shaft portion 2 can be fixed to the main body of the article. When the cover part is opened, the stagnation effect is caused by the friction generated between the cylinder part 13 and the shaft hole 221. When the stop 111 contacts the stopper 23, the maximum angular displacement of opening the cover part is obtained accordingly.

In FIG. 4 another embodiment of the present invention is described. This embodiment differs from the first embodiment shown in FIG. 3 in that an outer stopper 43 protruding outward from the end of the support sheet 4 is provided instead of the stopper 23 on the cylinder shaft 22. . When the stop 111 contacts the stopper 43, the maximum angular displacement of the cover portion reaches either side.

Note that the above-mentioned movable shaft portion 1 and the stationary shaft portion 2 are names for explanation. Indeed, there are alternatives in which the movable shaft portion 1 is provided in the main body of the article and the stationary shaft portion 2 is provided in the cover portion of the article in order to embody the present invention.

Efficiency is actually obtained from embodiments of the present invention such that the cylinder section only has split grooves and the torsion by heat treatment can be reduced to a minimum. Moreover, the concave ring not only changes the friction torque by adjusting the friction surface on the shaft hole, but also provides an appropriate position of the lubricating grease so that the oil grooves can communicate with the concave ring. The oil groove provides complete lubrication effect by surrounding the cylinder with threads to prevent noise. In addition, the enlarged hole portion at the open end of the shaft hole guides the chamfer at the end of the cylinder portion to the hole to avoid jamming during the assembly operation. The collar is also cut to form a stop, which can interfere with the stopper attached to the cylinder axis and the stopper attached to the support sheet to limit the angular displacement of the lid of the article. In addition, the movable shaft portion can be combined with either of the two types of stationary shaft portions, thereby significantly lowering the production cost. Therefore, it can be considered that the present invention is superior to other similar products in the market.

The rotary shaft according to the present invention is easy to assemble the movable shaft portion and the stop shaft portion is tight, and can provide excellent lubricity to prevent unnecessary noise, and also the movable shaft portion in the above-described embodiment two types of stop shaft portion It can be combined with any one of them can reduce the production cost.

Claims (7)

It forms an elongated body, the collar protrudes from its surface, one end of which has an extension that engages with the main body or cover of the article, and at its other end, a recess for receiving lubricating grease on the surface of the end. A movable shaft portion having a dividing groove having a recess ring and extending from a cylinder portion having an oil groove surrounding its surface to communicate with the concave ring for guiding grease; And Forming an cylindrical body, one end of which has an extension that engages with the main body portion or cover portion of the article, the other end of which comprises a stationary shaft portion having a shaft hole and a cylinder axis slightly smaller than the size of the cylinder portion; , Here, the cylinder portion is inserted into the shaft hole, the split groove is pressed slightly so that the cylinder portion smoothly enters the shaft hole, the oil groove provides perfect lubricity, once the cylinder portion rotates with respect to the shaft hole, friction is reduced and noise Rotary shaft to prevent this. The rotary shaft of claim 1, wherein the cross section of the oil groove is 'V' shaped. The rotating shaft according to claim 1, wherein the width of the concave ring affects the friction area between the cylinder portion and the shaft hole. 2. The cylinder portion of claim 1, wherein the cylinder portion has a chamfer portion at its free end, and the shaft hole has an extension hole portion slightly larger than the concave ring on the cylinder portion to facilitate fitting of the shaft hole and the chamber portion at its open end. Rotary shaft characterized in that it comprises. The rotary shaft of claim 1, wherein the cylinder shaft includes a stopper extending toward the collar to prevent rotation and interfere with the collar that is properly cut to form a stop. 2. The extension part of claim 1, wherein the extension portion of the movable shaft portion is coupled to the frame and is fixed to the main body portion or cover portion of the article, and the stationary shaft portion is inserted into the coupling hole of the support sheet to face opposite milled planes. Fixed to the support sheet by means of which the free end of the extension comprises a lockhead for engaging with the coupling washer, the support being fixed to the main body or cover. 7. The rotary shaft of claim 6, wherein the stopper is provided at the end of the coupling hole to interfere with the stop and limit rotation.