KR200327450Y1 - Unit for ball stud torque testing, in ball unit - Google Patents

Abstract

The present invention relates to a ball stud torque test unit in the ball joint, and the lowering and raising the holding member formed integrally with the coupling by the action of the hydraulic cylinder formed on one side of the main frame, the coupling formed on the lower side of the holding member The sphere has means for causing the case of the ball joint fixed to the jig to function as a vertical load clamp that does not affect torque; A means for integrally forming a housing including a collet case at an end of the hydraulic cylinder rod coupled to the upper side of the frame so as to be lowered and raised by a cylinder action; The tapered sphere formed inside the collet case is coupled to the upper tapered surface of the ball stud fixed to the coupling sphere formed at the lower side of the fixing member by a clamp cylinder, and has a frictional resistance with the housing having the collet case by the action of the separating cylinder. Means for separating an external resistance that may occur when measuring torque by spaced apart the guide block causing the; Means for continuously measuring the rotational rated torque of the ball studs for a predetermined time through a torque meter that is rotated by the rotation of the drive motor in a state where the external resistance is separated, thereby greatly reducing the failure rate of the ball studs. Can be, and there is a feature that can increase the accuracy of the work.

Description

Unit for ball stud torque test in ball joint {UNIT FOR BALL STUD TORQUE TESTING, IN BALL UNIT}

The present invention relates to a ball stud torque test unit in a ball joint, and more particularly, to transmit the operating force of the S / LINK ASS'Y and the steering wheel of the vehicle applied to the stabilizer of the vehicle's own oscillation absorber. The hydraulic cylinder descends on the outer periphery of the case upper side of the ball joint which is installed to operate and adjust the torque, so that the fixing member is firmly fixed.The taper hole formed inside the collet case is combined with the ball stud and automatically rotates the rated torque. It relates to a unit for the S / LINK ball joint torque test, so that can be measured.

In general, ball studs for automobile ball joints are produced by cold forging by spheroidizing annealing of structural steels that require heat treatment. A ball stud is formed by performing a burnishing finish of the shoe and screwing the tail of the ball stud.

As such, the formed ball stud is a ball sheet is disposed inside the ball joint body and the sphere of the ball stud is coupled to the inner surface of the ball sheet, the lower portion of the ball sheet and the inner lower portion of the ball joint body to couple the plug do.

Then, a lubricant such as grease is applied to the inner diameter spherical surface of the ball sheet and the case to seal the ball sheet.

The ball stud configured as described above moves to the manual torque measurement jig and performs sampling measurement by the specified amount of torque per day.

However, the conventional device for measuring torque in this way is to manually fix the product to the jig by a manual measurement method and to drive the motor, which is a method of measuring the torque using a manual torque range, so it can be seen that the rotation torque is accurately measured. Not only that, there are disadvantages in that defects can be mixed in the sampling measurement method and inefficiency in production.

The present invention has been made in order to solve the above problems, while fixing the ball stud fixed to the jig while the coupler of the fixing member integrally coupled with the hydraulic cylinder rod descends to the outer peripheral portion of the upper case of the ball stud, It is an object of the present invention to provide a ball joint torque test unit capable of measuring the rotational torque coupled to the ball stud while the collet case is lowered.

In order to achieve the above object by the action of the hydraulic cylinder formed on one side of the main frame lowers and raises the fixing member integrally formed with the coupling member, the coupling member formed on the lower side of the fixing member torques the case of the ball joint fixed to the jig Means for clamping at normal loads without affecting the load; The lower clamp cylinder of the two cylinders formed on the upper side of the bracket lowers the collet case and the collet case is lowered, and at the same time, the taper port is engaged with the tapered surface of the ball stud, and the separating cylinder formed on the upper side is raised. In the ball joint which can measure the torque precisely without external resistance for the arbitrarily set time by driving the torque meter while separating the external resistance which can be generated during torque measurement by operating the guide block, the unit for the ball stud torque test unit .

1 is a front view showing a state in which the main portion of the present invention is assembled and operated

2 is a front view of an enlarged state by extracting a state in which the main portion of the present invention is operated

Figure 3 is a side view showing a state in which the main portion of the present invention is assembled and operated

(A) (b) is a front view of an enlarged state by extracting the state in which the main portion of the present invention is operated

Explanation of symbols on the main parts of the drawings

10. Frame 11. Hydraulic Cylinder

12. Guide rail 13. Jig

14. Bolster 15. Case

16. Fixed member 17. Torque meter

18. Housing 19. Collet Case

20. Bracket 21. Time Gear

22. Time belt 23. Drive motor

24. Taper Sphere 25. Coupling Sphere

26. Sensor 27. Plate

28. Fixing groove 29. Connecting block

30. Clamp Cylinder 31. Guide Block

32. Cylinder for separation 33. Hydraulic cylinder

The structure of the present invention is the upper side of the main body of the hydraulic cylinder for lowering the coupling hole formed integrally with the fixing member, the collet case integrally coupled with the housing, the case separation unit and another hydraulic cylinder for lowering the drive motor connected to the torque meter as a whole Clamp cylinders of the lower side of the cylinders formed in the upper and lower sides of the main body at the center and the collet case up and down and at the same time the taper sphere is coupled to the tapered surface of the ball stud and formed on the upper side. Separation cylinder is configured to measure the torque accurately while removing the external resistance rubbed with the housing by operating the guide block while rising.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a front view showing a state in which the main portion of the present invention is assembled and operated, Figure 2 is a front view of an enlarged state by extracting the state of the main portion of the present invention is operated, Figure 3 is a main portion of the present invention assembled and operated Figure 4 is a side view showing a state, Figure 4 (a) (b) is a front view of an enlarged state by extracting the state in which the main portion of the present invention is operated.

First, as shown in FIG. 3, a hydraulic cylinder 33 fixed to the bracket 20 is formed at one side of the main body frame 10, and a fixing member coupled to the rod end of the cylinder 33 by a connection block 29 ( 16) is configured.

In addition, the coupling member 25 having the fixing groove 28 is formed at the lower side of the fixing member 16, and the fixing groove 28 formed in the coupling tool 25 is as shown in FIG. The ball stud 14 inserted in the jig 13 is configured to be accommodated.

At this time, the outer periphery of the coupler 25 is configured to be firmly fixed while pressing the outside of the ball stud 14 case 15 fixed to the jig 13, the ball joint case 15 affects the torque It is configured to have the function of clamps that are loaded vertically so as not to impair.

In the above situation, as the rod of the hydraulic cylinder 33 descends, the fixing member 16 having the coupling hole 25 is lowered on the guide rail 12 to fix the ball stud 14 fixed to the jig 13. The case 15 is securely supported.

In addition, it is preferable that the stroke length of the hydraulic cylinder 33 rod is automatically controlled by a sensor 26 connected to the bracket 20 and is controlled entirely by a control box (not shown).

Hydraulic cylinder 11 formed on the upper side of the frame 10 as shown in Figure 1 is configured to lower the drive motor 23 and the torque meter 17 and the collet case 19 integrally fixed to the bracket 20 do.

Meanwhile, as shown in FIG. 2, the clamp cylinders 30 and the separating cylinders 32 extending in the vertical direction are formed in the upper portion of the bracket 20.

The clamp cylinder 30 moves up and down the collet case 19 and at the same time the collet case 19 is lowered, and a taper hole 24 formed therein is fixed to the jig 13. It is configured to securely engage with the tapered surface of the.

In addition, the bracket 20 is raised by the operation of the separating cylinder 32 formed on the upper side, so that the guide block 31 is operated as shown in FIG. 2 while being spaced apart from the housing 18 having the collet case 19. Configure to

That is, since the collet case 19 rotating with the rotational force of the driving motor 23 drives the torque meta 17 in a state separated from the external resistance as shown in FIG. 4 (b), the torque can be accurately measured without the external resistance. It becomes possible.

In addition, the rotation of the torque meter 17 transmits the rotational force of the driving motor 23 coupled to the bracket 20 to the time gear 21 and the time belt 22 to be rotated at a predetermined rotation speed. .

At this time, the rod end of the hydraulic cylinder 11 is configured in a state in which the collet case 19 is connected to the housing 18, the bracket formed integrally with the drive motor 23 by the action of the hydraulic cylinder (11) 20) was configured to be lowered and raised.

In addition, the collet case 19 coupled to the housing 18 is integrally coupled with the ball stud 14 fixed to the jig 13 while descending as shown in FIG. 4 (a) (b).

In the above situation, since the taper hole 24 is formed inside the collet case 19, the ball stud 14 may be firmly fixed and fixed.

Accordingly, the collet case 19 rotating by the rotational force of the driving motor 23 measures the torque resistance of the ball stud 14 by the torque meter 17, and the driving motor 23 which rotates the torque meter 17. ), The rotational speed is 2.0rpm, it is preferable to measure the torque resistance of the product after rotating more than 30˚.

After the measurement of the ball stud 14 is completed in such a configuration, each of the cylinders 11, 30, 32, 33 is in place to complete the torque measurement.

Referring to the operation and effects of the present invention made in the above configuration in detail as follows.

First, as shown in (a) of FIG. 4, the assembled ball stud 14 is inserted into the jig 13 to be seated.

Next, when the operator turns on the device by manual or operation, the ball member which is fixed to the jig 13 while the fixing member 16 connected with the hydraulic cylinder 33 rod descends on the guide rail 12 ( The outer periphery of the case 15 of 14 is to be pressed.

At this time, the coupler 25 formed on the lower side of the fixing member 16 presses the case 15 fixed to the jig 13 to be safely pressed.

As such, the work is completed and the bracket 20 formed integrally with the rod of the cylinder 11 formed at the upper portion of the frame 10 is lowered.

In the above situation, the rod lowers the entire portion of the housing 18 having the drive motor 23 and the torque meter 17 and the collet case 19 fixed to the bracket 20.

In addition, the clamp cylinder 30 formed at the lower end of the two cylinders 30 and 32 formed on the upper side of the bracket 20 moves up and down the collet case 19 and at the same time the collet case 19 descends and taper holes ( 24 is to be coupled to the tapered surface of the ball stud (14).

At this time, the separation cylinder 32 formed on the upper side is to be spaced apart as shown in Figure 4 (b) the portion of the housing 18 which is rubbed with the guide block 31.

Next, the time gear 21 of the drive motor 23 fixed to the bracket 20 starts to rotate and the torque meter 17 is interlocked, and the rotational force is the collet case 19 coupled to the housing 18. The torque resistance of the ball stud 14 can be safely measured without any external resistance.

At this time, the rotation speed of the drive motor 23 for rotating the torque meta 17 is rotated by 30 ° or more at 2.0 rpm.

As described above, the torque measurement is terminated and the rotation of the driving motor 23 is stopped, and the cylinders 30 and 32 and the hydraulic cylinders 11 and 33 are returned to their original positions in steps.

As a result, the torque can be measured without any external resistance for a predetermined time by driving the torque meter in a state where the cause of frictional resistance has been eliminated, thereby enabling more accurate measurement.

The present invention described above is limited to the above-described embodiments and the accompanying drawings as various substitutions and modifications are possible within the scope of the present invention to those skilled in the art without departing from the spirit of the present invention. It is not.

The present invention configured as described above has a feature that can greatly reduce the failure rate of the ball stud by automatically pressing the case of the ball joint fixed to the jig and accurately measuring the rotational torque.

In addition, the structure that completely separates the contact area other than the torque meter and the ball stud, and the advantages of improving the accuracy of the work can be done automatically and manually work in parallel to reduce the cost of maintenance significantly As a result, new economic benefits can be created.

Claims (1)

In the ball joint, By lowering and raising the holding member integrally formed with the coupler by the action of the hydraulic cylinder formed on one side of the main frame, the coupling member formed on the lower side of the holding member has a vertical load that does not affect the torque of the case of the ball joint fixed to the jig. Means for having the function of a clamp; A means for integrally forming a housing including a collet case at an end of the hydraulic cylinder rod coupled to the upper side of the frame so as to be lowered and raised by a cylinder action; The tapered sphere formed inside the collet case is coupled to the upper tapered surface of the ball stud fixed to the coupling sphere formed at the lower side of the fixing member by a clamp cylinder, and has a frictional resistance with the housing having the collet case by the action of the separating cylinder. Means for separating an external resistance that may occur when measuring torque by spaced apart the guide block causing the; In the ball joint, characterized in that the means for continuously measuring the rotational torque of the ball studs for a predetermined time through the torque meter rotated by the rotation of the drive motor in the state that the external resistance is separated , Unit for ball stud torque test