KR20160148204A - Puller for caliper rod. - Google Patents

Abstract

The present invention relates to a caliper load replacement tool restrained in a load hole of a carrier, and in order to remove the caliper load, a center screw, which can be bolted or detached from the rod screw groove formed in the head portion of the caliper rod, ; A hollow cylindrical cylinder surrounding the center screw, the guide being placed on top of the carrier; And a rotation nut which rotates at an upper end of the guide to raise the center screw.
This allows the caliper rod to be easily removed from the carrier, despite the space limitations for detachment, when the caliper load has lost its ability to move after prolonged use of the caliper brake.
Further, by easily removing the caliper rod from the carrier, it is possible to obtain an effect of reducing the cost of replacing the carrier.

Description

Car caliper load replacement tool. {Puller for caliper rod.}

The present invention relates to an automotive brake system including a guide supported on an upper side of an automotive brake carrier, a center screw which can be engaged with a caliper rod through a rod screw groove of a caliper rod, To a caliper load replacement tool capable of easily pulling a caliper rod constrained by a load hole through a simple structure.

Background Art [0002] In a vehicle, a braking device is an important device for decelerating or stopping a running vehicle and maintaining a parked state. In this braking device, a brake pad mounted on the outside of a wheel and a brake pad A device for braking rotation is called a caliper braking device.

 The caliper braking device is gradually reduced in braking ability due to corrosion and wear after prolonged use, and it needs to be replaced after use for a certain period of time in order to continuously maintain the braking capability of the automobile.

1 is a side perspective view schematically showing a conventional caliper braking device;

Referring to FIG. 1, the caliper 70 is bolted to the caliper rod 40 through a caliper fixing screw 80, and a load hole 51 formed in the carrier 50 shown in FIG. 1 Take a structure that can move along.

When the driver depresses the brake pedal (not shown) for braking the vehicle in the above structure, braking hydraulic pressure is generated in the caliper cylinder 72 through the inlet port 71, and the braking hydraulic pressure is generated in the caliper cylinder 72 and the piston 73, The caliper 70 is moved upward with reference to FIG. 1 together with the caliper rod 40 inserted in the carrier hole 51. As shown in FIG.

Referring to FIG. 1, when the caliper 70 is moved upward, the outer pad plate 74b connected to the caliper 70 is moved upward, and then the piston 73 ), And the inner plate 74a moves downward.

The pair of plates 74a and 74b are narrowed to each other and the inner brake pad 75a and the outer brake pad 75b connected to the pair of plates press the disk 76, .

At this time, in order to maintain the brake braking force in accordance with the user's operation, the caliper rod 40 and the load hole 51 are preferably vertically moved to prevent the caliper rod 40 from being vertically moved, It is preferable to make the space between them small.

In this structure, however, after a long period of use of the caliper braking device, the caliper 70 and the carrier 50 are corroded, and the contaminants decayed from the carrier 50 and the long- Lubricating oil or the like on the inner wall of the caliper 40 is mixed with the narrow space of the caliper rod 40 and the rod hole 51 as a result of which the moving function of the caliper rod 40 is lost.

Typically, if the caliper load 40 is lost after a long period of use of the caliper braking system, the caliper load 40 may be easily removed from the load hole 51 during the repair process The carrier 50 is replaced entirely.

Compared with the case where the entire carrier 50 is replaced as described above, the cost can be reduced to 1/10 by replacing only the caliper rod 40. However, It is very difficult to separate the caliper rod 40 because there is no apparatus for extracting the caliper rod 40 that is held by the caliper 40. [

The conventional method of separating the caliper rod 40 from the carrier 50 requires that the pliers 90 be pulled out as shown in Figure 2 in order to pull out the caliper rod 40 constrained to the rod hole 51. [ To pull out the head portion 41 of the caliper rod 40 by using a tool such as a screw.

However, in such a conventional method, since the caliper load 40 which is restrained by using only the natural force of the person is taken out, the operation is very cumbersome and inefficient.

In addition, there is a method of using a rotating puller in the form of a technique disclosed in Japanese Patent Application Laid-Open Publication No. 1998-058259 as a tool for removing an object that is usually caught, There is a problem in that it is not suitable for separating the caliper rod 40 whose space is restricted due to the shape of the peripheral parts at the time of detachment because the object is taken out by rotating the press bolt at the central portion by hanging the jaw of the puller.

Published Utility Model Publication No. 10-1999-0037726 (Oct. 15, 1999) Registration Utility Model No. 20-0206398 (September 30, 2000) Open Patent Publication No. 10-1998-058259 (September 25, 1998) Registration Practical Utility Bulletin No. 20-1996-0006548 (1999.01.01)

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and it is an object of the present invention to provide a caliper load replacement tool that removes a caliper rod efficiently restrained in a narrow space.

In order to achieve the above object, according to the present invention, a straight center screw for bolt-joining or separating a rod thread groove formed in a head portion of a caliper rod inserted in a rod hole located in a carrier; A hollow cylindrical cylinder surrounding the periphery of the center screw, the guide being placed on top of the carrier; And a rotation nut that is bolted to the center screw and rotates at an upper end of the guide to raise the center screw.

At this time, the center screw is a rod screw corresponding to the size of the rod thread groove formed in the head portion of the caliper rod; And a nut screw having a size corresponding to the rotation nut.

Meanwhile, an auxiliary guide is formed to have a step formed at an upper end thereof so as to be able to be engaged or disengaged from the guide by a fitting method, and to stably fix the guide to the upper end of the carrier.

Further, a bearing nut is added between the rotation nut and the guide top.

Meanwhile, the rod screw and the nut screw can be fastened or detached from each other in a bolt-coupled manner, and the rod screw is provided with a plurality of screw threads having various diameters.

The auxiliary guide may include left and right auxiliary guide structures coupled by a guide hinge, and may be separated into left and right through the guide hinge, and may be expanded and folded.

The apparatus for replacing a car caliper rod according to the present invention is characterized in that a guide is provided in a narrow space of the outer periphery of the caliper rod and a caliper rod is detached through a rotation nut, Can be removed.

Further, by easily removing the caliper rod, it is not necessary to replace the entire carrier at the time of repairing the caliper braking device, so that the repair cost is reduced to 1/10 level.

1 is a side elevational view schematically illustrating a caliper braking device;
Figure 2 is a side perspective view showing the pliant removal of the caliper rod.
3 is a side, perspective view illustrating the caliper rod being removed, in accordance with one embodiment of the present invention.
4 is a side perspective view of the caliper rod being removed in accordance with an embodiment of the present invention.
5 is a side perspective view, in accordance with another embodiment of the present invention, showing that a caliper rod is removed with the addition of a bearing nut and an auxiliary guide.
6 is a perspective view showing that a guide hinge is added to an auxiliary guide in another embodiment of the present invention.
FIG. 7 is a perspective view showing that the auxiliary guide is easily installed outside the outer periphery of the caliper rod through the guide hinge of the auxiliary guide in another embodiment of the present invention. FIG.
8 is a front perspective view showing that, in another embodiment of the present invention, a rod screw having an outer diameter of various sizes can be fastened or detached with a nut screw.

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

The embodiments described below are provided by way of example only so that those skilled in the art can fully understand the spirit of the present invention and the present invention is not limited to the embodiments described below But may be embodied in other forms without limitation.

In the drawings, the width, length, thickness, and the like of components are exaggerated for convenience. In the drawings, the same reference numerals are used throughout the specification to refer to the same or like parts. Represent the same components.

3 is a side perspective view showing the caliper rod 40 being removed, according to one embodiment of the present invention.

3, in order to remove the caliper rod 40 that is restrained by the rod hole 51, the rod screw groove 42 formed in the head portion 41 of the caliper rod 40 A guide 20 that can be supported on the upper end of the carrier 50, and a rotation nut 30. The center nut 10 is a flat plate.

At this time, the center screw 10 is coupled to the caliper rod 40 through the rod screw groove 42 and then moved up through the rotation of the rotation nut 30 placed on the upper end of the guide 20 This causes the caliper rod 40 to be pulled up from the caliper rod 40, thereby detaching the caliper rod 40 from the rod hole 51.

At this time, when the center screw 10 is fastened to the rod screw groove 42, the center screw 10 does not rotate by the rotation nut 30 but moves only upwardly and downwardly through the rotation nut 30.

The rotary nut 30 moves the center screw 10 upward through the clockwise rotation so that even if the center screw 10 rotates in the clockwise direction, Rather, it is more firmly fastened to the rod screw groove 42.

The rotation of the rotation nut 30 may be generally performed by a human hand,

It is possible to more easily remove the caliper rod 40 that is restrained when the rotation is performed by using a tool such as a wrench corresponding to the size of the hexagonal surface of the rotation nut 30. [

3, the center screw 10 has a rod screw 11 corresponding to the rod screw groove 42 and a nut screw 12 having an outer diameter larger than the rod screw 11 So that the center screw 10 of the outer portion of the rod screw 11 can be made firm as a whole.

At this time, the rotation nut 30 is made to correspond to the size of the nut screw 12, so that the center screw 10 can be moved upward according to the rotation of the rotation nut 30.

4 is a side perspective view showing the removal of the caliper rod 40 is completed, according to an embodiment of the present invention.

Referring to FIG. 4, the center screw 10 rises through the rotation of the rotation nut 30 as compared to FIG. 3, and the caliper rod 40 rises through the center screw 10, It can be confirmed that it is removed from the apparatus.

5 is a side perspective view showing the addition of a bearing nut 31 and an auxiliary guide 21 to detach the caliper rod 40, according to another embodiment of the present invention.

When the outer diameter of the head portion 41 of the caliper rod 40 is larger than the inner diameter of the guide 20 so that the guide 20 can not pass through the head portion 41, The guide 20 can not be supported by the upper end of the carrier 50 when the upper surface is narrow and the guide 20 is not firmly seated.

5, an auxiliary guide 21 is used to support the upper portion of the carrier 50 through the head portion 41 instead of the guide 20, Can be placed on the auxiliary guide (21) and serve as a guide for the center screw (10) as in the embodiment of the present invention.

5, the upper side of the auxiliary guide 21 is connected to the lower side of the guide 20 so that the auxiliary guide 21 is placed at the lower end of the guide 20. In order to prevent the guide 20 from moving, 20 so that the inner diameter of the guide 20 and the outer diameter of the upper portion of the auxiliary guide 21 correspond to each other.

In addition, it is preferable that the length of the center screw 10 is sufficiently long according to the integrated length of the guide 20 and the auxiliary guide 21.

5, a bearing nut 31 may be additionally provided between the rotary nut 30 and the guide 20.

When the rotation nut 30 is rotated on the upper side of the guide 20, the frictional force is reduced through the positioning of the bearing nut 31, so that the rotation of the rotation nut 30 becomes more smooth, It is possible to more easily move to the upper surface of the center screw 10 necessary for removal of the screw 40.

6 is a perspective view showing a guide hinge 21a added to the auxiliary guide 21 in another embodiment of the present invention.

6, the auxiliary guide 21 is divided into left and right halves so as to be connected to each other through the guide hinge 21a. Through the above-described structure, the auxiliary guide 21 supports the guide hinge 21a Either the left or right side of the central axis, or both, can be rotated.

The auxiliary guide 21 can be easily deployed through the guide hinge 21a without the head portion 41 of the caliper rod 40 being passed therethrough. The caliper 40 can be rotated.

The contents of the embodiment utilizing this are shown in detail in FIG.

7, an auxiliary guide 21 extending through the guide hinge 21a can easily cover the head portion 41 of the caliper rod 40 and can be placed at the upper end of the carrier 50. As shown in FIG. .

5, the auxiliary guide 21 may be folded back through the guide hinge 21a. After the folding, the auxiliary guide 21 may be folded back to support the guide 20, It can play a supporting role on the top.

8 is a front perspective view showing that, in another embodiment of the present invention, the rod screw 11 having an outer diameter of various sizes can be fastened or detached with the nut screw 12. Fig.

8, the center screw 10 includes a rod screw 11 and a nut screw 12. The rod screw 11 has a fastening screw 11a at an upper end thereof, The fastening screw groove 12a corresponding to the size of the fastening screw 11a is provided at the lower end of the nut screw 12 so that the fastening screw 11a and the fastening screw groove 12a, So that it can be fastened or separated.

The threaded direction of the fastening bolt 11a of the rod screw 11 is such that when the rod screw 12 rotates in the direction of fastening to the rod screw groove 42, It is also preferable that the screw groove 12a is also in a direction in which it can be fastened.

When the screw thread of the rod screw 11 is formed so as to be tightened in a clockwise direction and the fastening screw 11a is also tightened in the clockwise direction, when the center screw 10 rotates clockwise, The rod screw 11 is fastened to the rod screw groove 42 and the fastening screw 11a is fastened to the fastening screw groove 12a on the opposite side.

The center screw 10 is provided with a plurality of nut screws 12 having different outer diameters so that the thread groove 12 formed in the head portion 41 of the caliper rod 40 The nut screw 12 may be replaced according to the size of the rod screw groove 42 so that it is not necessary to separately manufacture a plurality of center screws 10 according to the size of the rod screw groove 42. [ have.

10: center screw 11: rod screw 11a: fastening screw
12: nut screw 12a: fastening screw groove
20: Guide 21: Auxiliary guide 21a: Guide hinge
30: rotation nut 31: bearing nut
40: caliper rod 41: head portion 42: rod screw groove
50: carrier 51: rod hole
60: Rubber boot
70: caliper 71: inlet port 72: caliper cylinder 73: piston
74a: Inner pad plate 74b: Outer pad plate
75a: inner brake pad 75: outer brake pad
76: Disc
80: Caliper fixing screw
90: Pliers

Claims (6)

A straight central screw 10 bolted or separated from the rod screw groove 42 formed in the head portion 41 of the caliper rod 40 inserted into the rod hole 51 located in the carrier 50;
A guide 20 disposed at the upper end of the carrier 50 in a hollow cylinder shape surrounding the center screw 10;
And a rotation nut (30) bolted to the center screw (10) and rotated at an upper end of the guide (20) to raise the center screw (10).
The method according to claim 1,
The center screw 10 has a rod screw 11 corresponding to the size of the rod thread groove 42 formed in the head portion 41 of the caliper rod 40;
And a nut screw (12) having a size corresponding to the rotation nut (30).
The method according to claim 1,
An auxiliary guide 21 is formed at an upper end of the guide 20 so that the guide 20 can be engaged with or separated from the guide 20 and the guide 20 is stably fixed to the upper end of the carrier 50 A caliper load replacement tool.
The method according to claim 1,
Characterized in that a bearing nut (31) is added between the rotary nut (30) and the upper end of the guide (20).
The method of claim 2,
Wherein the rod screw (11) and the nut screw (12) are fastened or detached with each other by a bolt connection method, and the rod screw (11) .
The method of claim 3,
The auxiliary guide 21 is composed of left and right auxiliary guide 21 structures joined by a guide hinge 21a and is separated into left and right through the guide hinge 21a so that it can be expanded and folded A caliper load replacement tool.

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