KR101937315B1 - Jig device for measuring tension of oil seal - Google Patents

Abstract

The present invention relates to a jig device for measuring tension of an oil seal, which comprises: a pair of base blocks spaced in parallel from each other while interposing a load cell therebetween and having multiple guide pins with different shapes formed on each upper surface; a pair of jig bodies disposed on the upper part of each base block, vertically extended and spaced in parallel from each other while being supported to the guide pins, and inserted into the oil seal, which is a measurement target, to receive tension from the oil seal; a pushing plate pressing each jig body toward the base block to transfer the tension applied to the jig body to the load cell of the base block; and a fixating clamp pressing the pushing plate to the base block while being supported to each base block, and including a vertical rod having a bottom part supported to the base block and vertically extended to an upper part, an arm supported to the vertical rod and vertically extended to the upper part of the pushing plate, and a terminal member installed in the arm and supporting the pushing plate. According to the present invention, a jig body is simply and quickly set to a base block, an exclusive fixing clamp for pressing and fixating the jig body is provided, thereby acquiring reliable tension measurement data through the correct setting of the jig body.

Description

[0001] The present invention relates to a jig device for measuring a long force,

The present invention relates to a jig for testing the performance of an oil seal filled with a shaft and providing a sealing force, and more particularly to a jig device for oil seal long force measurement for measuring a long force, which is a clamping force of an oil seal to an axis .

For example, a shock absorber installed between an axle of an automobile and a vehicle body is a device for preventing damage to the vehicle body by absorbing or attenuating vibrations or shocks from the road surface while the automobile is running, and improving ride comfort. This includes a cylinder filled with oil or gas, and a piston moving in a linear motion in the state of being fitted in the cylinder, that is, a piston moving up and down with respect to the cylinder.

In order for the shock absorber to stably and effectively attenuate repeated impacts, it is important that the pressure of the oil or gas in the cylinder is maintained constant, among other things. If the oil or gas is leaked and the pressure is lowered, the piston's ability to attenuate significantly decreases.

For this reason, an oil seal is provided between the cylinder and the piston so that the oil or gas can be stably maintained in the cylinder. The oil seal clamps the outer circumferential surface of the piston while being supported by a frame provided inside the cylinder, and acts to prevent the oil or gas from leaking between the piston and the cylinder.

The outer surface of the piston must be tightened to an appropriate pressure so that oil or gas is not leaked and that the piston can move smoothly. If the clamping force of the oil seal against the piston, that is, the long force, is not appropriate, the movement of the piston becomes poor, or the fluid leaks. In the present description, the piston means all the sealing objects to which the oil seal is filled. In the following description, the object to which the oil seal is filled is referred to as a sealing member.

For this reason, when selecting the oil seal in the industrial field, the long force of the oil seal with respect to the member to be sealed is measured in advance, and the oil seal of the size having an appropriate long force against the member to be sealed is determined. A jig device for fixing the oil seal is used for measuring the long force of the oil seal.

1 is a view schematically showing the structure of a conventional jig device 10 for oil seal long force measurement. 2 and 3 are a jig device and a plan view for explaining the problem of the jig device shown in Fig.

The jig device 10 includes a pair of base blocks 12 having a semicircular shape and having a load cell 22 therebetween, a jig main body 12 disposed at the upper center of the base block 12 14, a pressing plate 16 for press-fixing the jig main body 14 downward, and a plurality of fixing bolts 18. As shown in Fig. The load cell 22 is connected to an external measuring instrument 20 and transmits pressure information received from the oil seal S to the measuring instrument 20.

An outer wall 12b is formed in the outer arc portion of each base block 12 and a semicircular central projection 12a is formed in a diameter portion (a diameter portion when the pair of base blocks 12 meet) Respectively. The central protruding portion 12a is fitted in a support groove 14a formed on the bottom surface of the jig body 14 and transmits a supporting force to the jig body 14. [

The jig main body 14 also has two pairs of teeth, and has a throttle portion 14c into which the oil seal S to be measured is fitted. The oil seal S is fitted in the throttle portion 14c and the jig body 14 is pulled in the direction of arrow a in Fig. The clamping force transmitted to the jig main body 14, that is, the long force of the oil seal S, is sensed by the load cell 22.

Since the jig main body 14 receives the long force of the oil seal, the correct position of the jig main body 14 during measurement is very important. For example, if the jig body 14 can not overcome the long force of the oil seal and can not take a set posture, accurate measurement values can not be obtained. For this reason, the pressing plate 16 and the fixing bolt 18 are used.

However, the above-mentioned conventional jig device 10 has a problem that the mounting plate or the use of the pressure plate 16 is quite troublesome. For example, in order to use the pressure plate 16, the pressure plate 16 should be arranged not to be tilted above the bottom portion 12c of the base block 12, and the bolt hole formed in the pressure plate 16 and the base block The position of the female screw hole 12d of each of the female screw holes 12 must be matched individually, and each of the female screw holes must be filled with a plurality of fixing bolts 18 one by one.

In addition, when the torque applied to the fixing bolts 18 is not constant when the plurality of fixing bolts 18 are filled, the parallelism between the facing jig bodies 14 is greatly damaged as shown in FIG. The planet will disappear altogether. When the relative position of the throttle portion 14c of the jig main body 14 is shifted, the long force measurement value applied in the direction of the arrow a is already unreliable data.

Korean Patent Registration No. 10-0824640 (Oil leakage test equipment for rotating oil seals and cylinders of axial flow fans) Korean Registered Patent No. 10-1327312 (Sealing torque measuring device for rotation)

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and it is an object of the present invention to provide a jig body which is simple and quick to set with respect to a base block and which has a dedicated fixing plate for pressing and fixing the jig main body, And it is an object of the present invention to provide a jig device for oil seal long force measurement which enables obtaining long force measurement data.

In order to accomplish the above object, the present invention provides a jig for oil seal long force measurement, comprising: a semi-circular planar shape, spaced parallel to each other with a load cell interposed therebetween, A pair of base blocks provided with pins; And an inclined surface portion inclined to a width of a lower side toward the lower side is formed on a lower end peripheral surface of the base block. The inclined surface portion is inserted into an oil seal to be measured, A pair of jig bodies for receiving a long force from the jig body; The long force transmitted to the jig main body is transmitted to the load cell of the base block by pressing each jig main body toward the base block side so as to be in contact with the inclined surface portion, A pressure plate; A vertical rod which is supported by the base block and presses the press plate against the base block, the vertical rod being supported at a lower end of the base block and extending to a vertically upper portion, a vertical rod supported by the vertical rod, And a stationary clamp having an arm capable of ascending and descending, and a terminal member (48) mounted on the arm and supporting the pressing plate.

Further, the vertical rod is provided with a slot extending in the vertical direction, the arm can be raised and lowered while being fitted in the slot, and the vertical rod is provided with an arm support portion for supporting the arm downward.

In addition, the arm supporting portion includes a spring for elastically supporting the arm while being installed inside the slot.

In addition, the arm supporting part is provided at an upper end of the vertical rod and includes a position adjusting bolt which is operated by a user to adjust the vertical height of the arm.

Between the arm and the sealing member, a movable holder having the distal end member at the lower end thereof and capable of adjusting the position along the longitudinal direction of the arm is provided.

The jig device for oil seal long force measurement according to the present invention as described above has a simple and quick setting of the jig main body with respect to the base block and a dedicated fixing lamp for pressing and fixing the jig main body, Setting allows to obtain reliable long force measurement data.

1 is a view schematically showing a structure of a conventional jig for oil seal long force measurement.
2 and 3 are plan views for explaining the problem of the jig device shown in Fig.
4 is a configuration diagram of a jig device for oil seal long force measurement according to an embodiment of the present invention.
5 is a plan view of the base block of Fig.
6 is a partially cutaway side view for explaining the configuration of the fixed clamp shown in Fig.
Fig. 7 is a view showing another example of the fixed clamp shown in Fig. 4. Fig.

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

FIG. 4 is a configuration diagram of a jig device for oil seal long force measurement according to an embodiment of the present invention, and FIG. 5 is a plan view of the base block shown in FIG.

As shown in the figure, the jig device 30 according to the present embodiment includes a pair of base blocks 32 spaced apart from each other with a load cell 22 interposed therebetween, and a pair of base blocks A pressing plate 16 which is stacked on each base block 32 and supports the jig main body 34 and a pressing plate 16 which is fixed to the center of the pressing plate 16, And a fixed clamp 40 for downward pressing.

First, the base block 32 is a member having a semicircular planar shape, and has a plurality of guide pins 32d on its upper surface. The guide pin 32d protrudes from the upper surface 32c of the base block 32 and has various shapes. For example, some guide pins 32d may be in the form of a cylinder, while others may take the form of square pillars. Naturally, the shape of the auxiliary groove 34d for accommodating the guide pin 32d corresponds to the shape of the guide pin.

In particular, the arrangement of the guide pins 32d located on the left base block 32 and the guide pins 32d applied on the right base block 32 are different. This is intended to use the jig body 34 mated to one base block 32 exclusively.

In addition, an outer wall portion 32b is formed at a rim portion of the base block 32. The outer wall portion 32b protrudes upward from the upper surface 32c and supports the pressure plate 16 toward the inclined surface portion 34b. The center protrusion 32a is located at the center of the base block 32 in the radial direction. The central protruding portion 32a is a semicircular protrusion, and is inserted into the support groove 34a of the jig main body 34 in a state of being in the form of a cylinder paired with the opposite central protruding portion.

The load cell 22 senses changes in the spacing of the base block 32 and transmits the sensed contents to an external measuring device. The measuring instrument calculates and displays the long force of the oil seal (filled in the jig body 34) based on the force sensed by the load cell 22, i.e., the force the base block 32 is about to approach.

The jig main body 34 also has two pairs, each of which is vertically disposed on the upper portion of the base block 32 and spaced apart from each other at regular intervals in parallel with each other. A support groove 34a and an auxiliary groove 34d are formed at the lower end of the jig main body 34. [

The support groove 34a is a semicircular groove for receiving the central projection 32a and the auxiliary groove 34d receives the guide pin 32d. The jig main body 34 is set perpendicular to the base block 32 by inserting the support groove 34a in the central projection 32a and the support groove 34a in the guide pin 32d.

In addition, an inclined surface portion 34b is formed on the outer peripheral surface of the lower end of each jig main body 34. [ The inclined face portion 34b is a downward inclined portion pressed by the press plate 16. That is, when the pressure plate 16 horizontally fitted between the outer wall portion 32b and the inclined surface portion 34b is pressed downward, the pressure plate 16 is pressed downward by friction with the pressure plate 16.

The throttle portion 34c is spaced apart as a semicircular column and pressed toward the opposite throttle portion 34c by the oil seal S. That is, the oil seal S surrounds and tightens the throttle portion 34c. The force by which the oil seal S tightens the throttle portion 34c is transmitted to the load cell 22 according to a known method with a long force.

The stationary clamp 40 presses down the pressure plate 16 in a state of being fixed to each base block 32 and includes a supporter 41, a vertical rod 42, an arm 45, (46), and a distal end member (48). The configuration of the stationary clamp 40 will be described with reference to FIG.

Fig. 6 is a partially cutaway side view for explaining the configuration of the fixed clamp 40. Fig.

As shown in the figure, the fixing clamp 40 includes a supporter 41 protruding in the lateral direction on the outer peripheral surface of the base block 32, a lower end fixed to the supporter 41, A spring 43 that is mounted in the inner space 42c and a spring 43 that extends horizontally across the slot 42a and is downwardly resiliently supported by the spring 43. The vertical rod 42, As shown in Fig.

The spring 43 is a tension coil spring having a lower end fixed to the supporter 41 and an upper end engaged with the arm 45. The arm 45 is elastically supported to the lower side by the action of the spring 43. Reference numeral 42b denotes a receiving portion. The receiving portion 42b supports the arm 45 being pulled by the spring 43, for example, to prevent the arm 45 from tilting to one side. So that the arm 45 is kept horizontal.

The arm 45 is a member extended to the vertical upper portion of the pressure plate 16 with a part of the arm 45 being fitted in the long hole 42a. The cross section of the arm 45 may take the shape of a circle, an ellipse or a polygon. In addition, the length of the arm 45 may vary depending on the case.

The movable holder 46 is a member displaceable along the longitudinal direction of the arm 45 and has a distal end member 48 at its lower end. The end member 48 is a member made of synthetic resin or metal, and transmits a downward pressing force to the pressing plate 16 in contact with the upper surface of the pressing plate 16.

In addition, a fixing screw 47 is provided to adjust the position of the movable holder 46 with respect to the arm 45. The fixing screw 47 is operated by an operator and reaches the arm 45 through a screw hole (not shown) formed in the movable holder 46. When the movable holder 46 is moved to the arm 45 And the like. It goes without saying that the position of the movable holder 46 with respect to the arm 45 can be adjusted by loosening the fixing screw 47.

Fig. 7 is a view showing another example of the fixed clamp 40 shown in Fig. The same reference numerals as those of the above-mentioned reference numerals indicate the same members having the same function.

7 includes a supporter 41, a vertical rod 42 whose lower end is supported by the supporter 41 through a pivot pin 41a, a vertical rod 42 whose upper end is supported by the supporter 41, And a position adjustment bolt 49 for adjusting the vertical height of the arm 45. The position adjusting bolt 49 is provided on the arm 45, The movable holder 46 and the flexible member 48 are attached to the extended end of the arm 45, which is the same.

The position adjusting bolt 49 is inserted into a female screw hole 42e formed at the upper end of the vertical rod 42 and the lower end of the screw is inserted into the long hole 42a. It goes without saying that the position adjusting bolt 49 is lowered or raised by rotating the position adjusting bolt 49 clockwise or counterclockwise.

The lower end of the position adjusting bolt 49 passes downward through the bolt hole 45a formed in the arm 45 and supports the arm 45 horizontally. As a result, the arm 45 is lifted and lowered as the position adjusting bolt 49 is rotated. As described above, since the vertical rod 42 is connected to the supporter 41 by the pivot pin 41a, the fixing clamp 40 can be held in the direction of the arrow z if necessary.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims.

10: jig device 12: base block 12a: central protrusion
12b: outer side surface portion 12c: bottom portion 12d: female threaded portion
14: jig body 14a: support groove 14c:
16: Presser plate 18: Fixing bolt 20: Measuring equipment
22: load cell 30: jig device 32: base block
32a: central protruding portion 32b: outer wall portion 32c: upper surface
32d: guide pin 34: jig body 34a: support groove
34b: inclined surface portion 34c: tightening portion 34d: auxiliary groove
40: Fixing clamp 41: Supporter 41a: Pivot pin
42: vertical rod 42a: elongated hole 42c: inner space
42e: female thread hole 43: spring 45: arm
45a: bolt hole 46: movable holder 47: fixing screw
48: end member 49: positioning bolt

Claims (5)

A pair of base blocks 32 having a plane shape of a semicircle and spaced apart from each other in a state of interposing a load cell therebetween and having a plurality of different guide pins on respective upper surfaces thereof;
A sloped surface portion 34b is formed at an upper end of each base block so as to extend vertically while being supported by the guide pin and spaced parallel to each other, A pair of jig main bodies 34 which are inserted into the oil seal and receive a long force from the oil seal;
The long force transmitted to the jig main body is transmitted to the load cell of the base block by pressing each jig main body toward the base block side so as to be in contact with the inclined surface portion 34b, A pressure plate 16 formed to be large;
A vertical rod (42) which presses the press plate against the base block while being supported by each of the base blocks, the vertical rod (42) having a lower end supported by the base block and extending to a vertically upper portion; And an end member (48) mounted on the arm and contacting the upper surface of the pressing plate to transmit a downward pressing force to the pressing plate, wherein the stationary clamp (40) . The method according to claim 1,
Wherein the vertical rod is formed with a slot extending in the vertical direction,
The arm being capable of being raised and lowered in a state of being fitted in the elongated hole,
Wherein the vertical rod is provided with an arm support portion for supporting the arm in a downward direction. 3. The method of claim 2,
The arm-
And a spring (43) for elastically supporting the arm in a state of being installed in the inside of the long hole. 3. The method of claim 2,
The arm-
And a position adjusting bolt (49) provided at an upper end of the vertical rod and operated by a user to adjust a vertical height of the arm. The method according to claim 3 or 4,
A movable holder is provided between the arm and the end member,
The distal end member is mounted on the lower end portion of the movable holder,
Wherein the movable holder is adjustable in position along the longitudinal direction of the arm.

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