KR100764159B1 - Slip joint of universal joint - Google Patents

Abstract

The present invention relates to a slip joint of a universal joint, the purpose of which is to reduce the production cost by improving the connection structure between the drive shaft and the driven shaft to achieve a play in the rotational direction and the axial sliding between the driven shaft It is to provide a slip joint of the hollow drive shaft 40 and the driven shaft 50 inserted into the hollow drive shaft 40 and the inside thereof is installed between the yoke joints (10, 20) to transmit the rotational force and to be able to slip in the axial direction. In the slip joint of the universal joint provided, the fixing hole 41 penetrates in the radial direction of the drive shaft 40 and the fixing bolt 60 is inserted through one side of the fixing hole 41 and extends to the other side. And a fixing nut 70 fastened to the front end of the fixing bolt 60 and a radial direction of the driven shaft 50, and fixed in the rotation direction by the fixing bolt 60. The guide hole 51 is formed long in the axial direction to be moved in the high axial direction is provided with a configuration.

Drive shaft, driven shaft, deformed section, fixing hole, guide hole, fixing bolt, fixing nut

Description

SLIP JOINT OF UNIVERSAL JOINT}

1 is a cross-sectional view showing a conventional universal joint.

Figure 2 is a side cross-sectional view showing a universal joint according to the present invention.

3 is an exploded perspective view of the slip joint according to the present invention.

Figure 4 is a perspective view of the engaged state of the slip joint according to the present invention.

<Explanation of symbols for main parts of drawing>

10, 20: York joint 30: Slip joint

40: drive shaft 41: fixed hole

42: High government 50: Follower axis

51: guide 52: guide

60: fixing bolt 70: fixing nut

The present invention relates to a slip joint of a universal joint, and more specifically, the production cost by simplifying the structure of the slip joint is formed to be divided into both sides and the other side is inserted into the inside of one side to transmit the rotational force and slid in the axial direction. It is to reduce slip joint of universal joint.

In general, the universal joint is installed to be inclined at an arbitrary angle, and is provided to transmit rotational force therebetween, and two yoke joints are provided on the side transmitting the rotational force and the receiving side, respectively. It is connected to the yoke joint and is provided with a slip joint (Slip Joint) is inserted into the other side is formed by splitting two shafts so as to transmit rotational force and slidable in the axial direction.

1 is a view showing such a conventional universal joint. As shown in the drawing, the yoke joints 1 and 2 provided at both ends of the universal joint are arranged to interlock two yokes provided so that the pins can be radially installed inside one end thereof to be below a predetermined angle. It is provided to transmit the rotational force from the yoke of one side to the yoke of the other side in a refracted state.

In addition, the slip joint 3 installed between the yoke joints 1 and 2 transmits the rotational force transmitted from the yoke joint 1 on one side to the yoke joint 2 on the other side and is able to slip in the axial direction. It is divided into a drive shaft 4 connected to the yoke joint 1 on one side and a driven shaft 5 connected to the yoke joint 2 on the other side, and between the drive shaft 4 and the driven shaft 5. Serrations 5a, 6a or splines are formed.

That is, by forming a pair of serrations 5a and 6a which are engaged with each other on the inside of the drive shaft 4 and the outside of the driven shaft 5, the movement is free in the axial direction and thus slip is possible, and in the rotational direction. Is fixed to transmit the rotational force.

On the other hand, a slit 7 formed with a predetermined value cut in the axial direction is provided on the open end side of the drive shaft 4, and a dust cap 9 is provided at the end of the slit 7 to prevent foreign matter from entering the inside. Is installed.

In addition, the outer peripheral side of the slit 7 shrinks the drive shaft 4 toward the center side and closely contacts the driven shaft 5 installed therein, thereby preventing the drive shaft 4 and the driven shaft 5 from loosening. The clip 8 which restricts the axial movement of the drive shaft 4 and the driven shaft 5 is provided.

In other words, the clip 8 is a steel ring rolled up so that both ends overlap, and is installed outside the slit 7 in a state where both ends are extended and provided to generate an elastic force toward the center thereof.

This minimizes the rotational play between the drive shaft 4 and the driven shaft 5 due to the installation of the clip 8, the drive shaft 4 and the driven shaft 5 are tightly fixed to each other in the axial direction, and has a suitable load. When the drive shaft 4 and the driven shaft 5 are transmitted in the axial direction, the length of the slip joint 3 is variable.

However, the slip joint of the conventional universal joint configured as described above has to form a serration therein so as to transmit rotational force between the drive shaft and the driven shaft and slide in the axial direction, and after coupling the drive shaft and the driven shaft, Since the clip must be fastened to the outside of the drive shaft, the process is complicated and the manufacturing cost is increased.

 The present invention is to solve such a conventional problem, an object of the present invention is to improve the connection structure between the drive shaft and the driven shaft in the rotational play and axial sliding between the drive shaft and the production cost is improved It is to provide a slip joint of the reduced universal joint.

In order to achieve the above object, the slip joint of the universal joint of the present invention has a hollow drive shaft and a driven shaft inserted between the yoke joint to be able to slip in the axial direction while transmitting rotational force. In the slip joint of one universal joint, a fixing hole penetrating in the radial direction of the drive shaft, a fixing bolt inserted through one side of the fixing hole and extending to the other side, and a fixing nut fastened to the tip of the fixing bolt; The guide shaft is formed in the radial direction of the driven shaft is formed in the axial direction to be fixed in the rotational direction by the fixing bolt and to be moved in the axial direction.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment according to the present invention.

Figure 2 is a side cross-sectional view showing a universal joint according to the present invention. As shown in the drawing, the universal joint has a slip joint 30 which is provided in an overall long shape so as to transmit rotational force from one end to the other end, and the yoke joints 10 and 20 installed at both ends of the slip joint 30. Separated by.

First, the yoke joints 10 and 20 are arranged so that the two yokes provided so that the pins can be radially installed inside one end thereof are interlocked with each other so that the yoke of the other side from the yoke of one side is refracted to a predetermined angle or less. It is provided to transmit the rotational force.

Next, the slip joint 30 installed between the yoke joints 10 and 20 transmits the rotational force transmitted from the yoke joint 10 on one side to the yoke joint 20 on the other side and is able to slip in the axial direction. The driving shaft 40 is connected to the yoke joint 10 on one side and the driven shaft 50 is connected to the yoke joint 20 on the other side.

On the other hand, in the present invention, the slip joint is provided in a simpler structure, which is easy to manufacture and assemble and reduce the production cost. As shown in FIGS. 3 and 4, the driving shaft 40 and the driven shaft 50 are provided. A hole penetrated in the radial direction is provided, and a bolt is inserted therein and fastened with a nut.

That is, the driving shaft 40 is provided with a fixing hole 41 which is formed to penetrate in the radial direction, the fixing hole 41 is provided with a pair of spaced apart a predetermined interval, a pair of fixing bolts on one side of the radial direction ( 60 is inserted, and the fixing nut 70 is fastened to the tip of the fixing bolt 60 extending out of the fixing hole 41.

In addition, the driven shaft 50 is provided with a guide hole 51 formed in a section longer than the separation distance of the fixed hole 41, the guide hole 51 penetrates both sides in the radial direction of the driven shaft 50 As it is formed to, the fixing bolt 60 is provided to be inserted therein.

Thereby, the fixing bolt 60 is installed in the fixed hole 41 and the guide hole 51 which communicate with each other, the guide hole 51 is formed long in the axial direction, and the driven shaft 50 is the guide hole. By the 51 and the fixing bolt 60 is fixed in the rotational direction is installed to be slidable in the axial direction.

In addition, a flat guide portion 52 is formed on the outer circumferential side surfaces of the driven shaft 50 in which the guide hole 51 is formed for a more firm contact between the drive shaft 40 and the driven shaft 50, and the guide portion 52 is formed. ) And a flat fixing part 42 is formed on both inner side surfaces of the drive shaft 40 on which the fixing hole 41 is formed so as to face.

At this time, the driven shaft 50 is provided as a hollow tube of the hetero-section cross-section that the guide portion 52 is formed over the entire axial direction, the drive shaft 40 is formed to be processed so that the fixing portion 42 is formed only in the axial portion Both ends are provided with a cylindrical hollow tube.

The slip joint of the universal joint of the present invention configured as described above inserts the driven shaft 50 into the drive shaft 40, wherein the fixing portion 42 of the drive shaft 40 and the guide portion of the driven shaft 50 are formed. 52 is disposed to face each other, so that the fixing hole 41 formed in the fixing portion 42 and the guide hole 51 formed in the guide portion 52 communicate with each other.

Then, the fixing bolt 60 is inserted into the fixing hole 41 and the guide hole 51 through one radial direction of the fixing hole 41 communicated with each other, and penetrates them through the radial direction of the fixing hole 41. Fasten the fixing nut 70 to the tip of the fixing bolt 60 extending to the other side.

On the other hand, before the installation of the universal joint with the slip joint 30 in the installation position to lower the fastening degree of the fastening nut 70 to facilitate the sliding between the drive shaft 40 and the driven shaft 50, the installation position After installation in the fixing nut 70 to increase the degree of fastening so that the fixing portion 42 of the drive shaft 40 and the guide portion 52 of the driven shaft 50 is firmly in close contact with each other.

As described in detail above, the slip joint of the universal joint according to the present invention, by connecting the slip joint as a simple structure, it is easy to manufacture and assemble the slip joint, there is an advantage that the production cost is reduced.

Claims (4)

In the slip joint of the universal joint having a hollow drive shaft and a driven shaft inserted therein to be installed between the yoke joints to transmit rotational force and to be able to slip in the axial direction, A fixed hole 41 penetrating in the radial direction of the drive shaft 40, a fixed bolt 60 inserted through one side of the fixed hole 41 and extending to the other side, and a tip of the fixed bolt 60; The fixing nut 70 and the guide shaft 50 are formed to penetrate in the radial direction of the driven shaft 50 and are elongated in the axial direction so as to be fixed in the rotational direction and moved in the axial direction by the fixing bolt 60. A ball 51, a guide portion 52 formed in a plane on the outer peripheral side surfaces of the driven shaft 50, the guide hole 51 is formed, and the fixing hole 41 so as to face the guide portion 52 Slip joint of the universal joint, characterized in that the fixing part 42 is formed in a plane on both inner side surfaces of the drive shaft 40 is formed. delete The method of claim 1, The driven shaft 50 is provided as a hollow tube of a deformed cross section in which the guide portion 52 is formed throughout the axial direction, and the drive shaft 40 is processed such that the fixing portion 42 is formed only in a portion of the axial direction. Slip joint of universal joint characterized in that it became. The method of claim 1, The fixing hole 41, the fixing bolt 60 and the fixing nut 70 is a slip of the universal joint, characterized in that a pair is spaced apart a predetermined interval for the stable coupling of the drive shaft 40 and the driven shaft 50 Joint.

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