KR20180047104A - The divice for making test sample of tire rubber - Google Patents

Abstract

"자형 터널형상으로 형성되어 있으며, 양단의 일단 및 타단은 전,후방 가이드레일을 따라 좌,우로 이동가능하게 설치되어 있는 이동틀체와; 상기 스크류축을 감싼 채 이동틀체의 저부에 고정 부착되어 스크류축이 정,역 방향으로 회전함에 따라 상기 스크류축을 따라 상기 이동틀체를 좌,우로 이동시키도록 형성되어 있는 이동안내블록과; 상기 작업대의 상면에 좌,우 길이방향을 향해 수직상태로 고정 설치되어 있는 고정금형과; 상기 고정금형과는 평행하도록 좌,우 길이방향을 향해 수직상태로 설치되어 있으며, 상기 고정금형에 대하여 이격간격을 조절할 수 있도록 전,후측으로 이동조절이 가능하게 설치되어 있는 이동금형과; 상기 이동틀체의 저부에 착탈가능하게 부착되어 있으며, 칼날이 상기 고정금형 및 이동금형 각각의 상면에 접촉하는 상태로 슬라이딩 이동이 가능하게 설치되어 시험용 시편고무재료를 일정두께로 절취하도록 형성되는 시편절취칼날금형을 구성하여서 된 것을 특징으로 하는 발명이다.The present invention relates to a specimen collecting apparatus for testing a tire rubber, comprising: a work table fixedly installed on a floor or a table so that an upper surface of the specimen is horizontal; A forward and reverse motor fixedly installed in a fixed box provided on one side of the upper surface of the work table; A screw shaft connected to the axes of the forward and reverse motors and formed so as to protrude in the other direction of the work table and horizontally installed to rotate in place; A front and rear guide rails fixed to the front and rear upper side surfaces of the work table so as to be parallel to each other; And to project upwardly from the work table,

A movable frame body which is formed in a shape of a "-shaped tunnel ", and has one end and the other end of which are movably installed to the left and right along the front and rear guide rails; A movable guide block which is formed to move the movable frame body left and right along the screw axis as it rotates in the forward and reverse directions; A movable mold provided vertically to the left and right longitudinal direction so as to be parallel to the stationary mold and provided with movable adjustable front and rear sides so as to adjust a spacing distance with respect to the stationary mold; A movable blade detachably attached to the bottom of the movable frame body, the blade having an upper surface contacting the upper surface of each of the stationary mold and the movable mold, This sliding movement is possibly installed to the invention is characterized in that the configuration of the specimen cut out hayeoseo blade mold is formed so as to cut out a test specimen of rubber material to a predetermined thickness.

Description

Technical Field [0001] The present invention relates to a tire rubber testing apparatus,

The present invention relates to a sample collecting apparatus for tire rubber test, and more particularly, to a test sample collecting apparatus for testing rubber test pieces for each component in order to measure and test characteristics such as tensile strength of rubber constituting each part of a vehicle tire And more particularly, to a sample collecting apparatus for a tire rubber test.

Generally, a vehicle tire is a rubber composite material in which various kinds of rubber sheets are combined in various parts such as a tread, a belt, a carcass, an inner liner, and a sidewall.

At the time of research and development of such a vehicle tire, it is an essential test to measure the strength and modulus of the tire rubber constituting each component.

In addition, the rubber properties of each component of the tire are evaluated and compared with the physical properties of existing products and other tires.

In addition, since the rubber material of each part of the vehicle tire is strong and the chemical and physical bonding between the components is very strong, it is not easy to collect the test piece, and it has been known as a very difficult and difficult task.

Conventionally, in order to collect a test rubber sheet for each component of a vehicle tire, the test piece is manually taken by a worker. Recently, a tire is cut in a radial direction or a circumferential direction, Then, it is fixed to a specific jig and the sample is cut in a certain thickness using a sharp knife.

However, as described above, it is very difficult and difficult to manually take the test rubber sheet for each component of the tire by using a special knife for sample collection, and the thickness of the collected rubber sheet is not constant, Therefore, since the test rubber sheet thus obtained is taken to have a wavy shape in thickness, the uneven portion acts as an initial point of fracture in the tensile test, and as a result, the tensile test objectively It is pointed out that the evaluation becomes difficult.

Disclosure of Invention Technical Problem [8] The present invention has been proposed in order to solve all the problems of the related art as described above, and the rubber layer for each component such as a tire tread, belt, carcass, inner liner, , The test specimen rubber material is placed between the stationary mold and the movable mold, the movable mold is moved toward the stationary mold to fix the test specimen rubber material, and then the specimen rubber material, which is automatically reciprocated to the left and right by the rotational power of the motor The present invention has been made to provide a specimen collecting apparatus for a tire rubber test, which is capable of taking a rubber specimen of a certain thickness from the specimen specimen rubber material by using a cutting knife for harvesting.

The present invention, as a means for pursuing the above object,

1. A specimen collecting apparatus for a tire rubber test specimen, which is configured to collect a test specimen from a specimen rubber material cut into a rod-like shape having a predetermined thickness for each of components of a tire tread, a belt, a carcass, an inner liner,

The apparatus for sampling a tire rubber,

A work table fixedly installed on the floor or table so that the upper surface thereof is horizontal;

A forward and reverse motor fixedly installed in a fixed box provided on one side of the upper surface of the work table;

A screw shaft connected to the axes of the forward and reverse motors and formed so as to protrude in the other direction of the work table and horizontally installed to rotate in place;

A front and rear guide rails fixed to the front and rear upper side surfaces of the work table so as to be parallel to each other;

"자형 터널형상으로 형성되어 있으며, 양단의 일단 및 타단은 전,후방 가이드레일을 따라 좌,우로 이동가능하게 설치되어 있는 이동틀체와;And to project upwardly from the work table,

A movable frame body which is formed in a shape of a "-shaped tunnel ", and one end and the other end of which are provided movably to the left and right along the front and rear guide rails;

A moving guide block fixedly attached to a bottom portion of the moving frame body so as to surround the screw shaft and configured to move the moving frame body along the screw axis to left and right as the screw shaft rotates in the forward and reverse directions;

A stationary mold fixedly installed on a top surface of the work table in a vertical direction toward the left and right longitudinal direction;

A movable mold installed vertically to the left and right longitudinal direction so as to be parallel to the stationary mold and being adjustable to move back and forth so as to adjust the spacing distance with respect to the stationary mold;

And a slider which is detachably attached to a bottom portion of the mobile frame and is slidably movable in a state where the blade contacts the upper surfaces of the stationary mold and the moving mold, Blade mold;

Is formed.

Further, a specimen-supporting mold for supporting a specimen rubber material is provided between the stationary mold and the movable mold so as to be movable upward and downward.

In addition, the upper surface of the specimen-supporting mold is formed as a horizontal surface, and the lower surface thereof is formed as an inclined surface. The elevating and lowering adjusting mold, in which the upper surface is slidably installed on the inclined bottom surface of the specimen- So as to move up and down the specimen supporting die while moving left and right along the screw rotation axis.

In addition, a fixed support is fixed to the upper surface of the work table so as to be parallel to the movable mold at a position spaced apart from the movable mold by a predetermined distance, and the fixed support includes a plurality of Characterized in that a manual adjustment bolt is formed.

In addition, a length measuring scale for measuring the length of the specimen rubber material, which is fixed in a state of being stuck between the stationary mold and the moving mold, is formed on the upper surface of the stationary mold, And a thickness measuring bar having a thickness measuring scale for measuring the thickness of the rubber specimen to be cut out from the rubber material is fixedly installed.

According to the present invention, a test piece rubber material cut into a bar shape having a predetermined size for each component of each part such as a tire, a belt, a carcass, an inner liner, and a sidewall is stuck between a stationary mold and a moving mold, When the reverse motor is driven, the protruding portion of the specimen rubber material protruding higher than the upper surface of each of the stationary mold and the movable mold is sliced automatically while sliding along the upper surface of each of the stationary mold and the movable mold Since the cut surface of the rubber specimen taken at a certain thickness in the test specimen rubber material forms a flat horizontal surface, the tensile strength at the time of tensile test can be reduced, It is possible to objectively evaluate the physical properties and at the same time, So that the effect can be provided.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a plan view of a sample collecting apparatus for tire rubber test for explaining the present invention. Fig.
2 is a front view of a sample collecting apparatus for tire rubber test according to the present invention
3 is a sectional view taken along the line AA in Fig. 1
4 is a sectional view taken along line BB of Fig.
5 (a) and 5 (b) show an operation state in which the upper portion of the test specimen rubber material shown by the enlarged portion C in FIG. 3 is cut to a predetermined thickness and the rubber specimen is taken

A concrete example of a sample collecting apparatus for testing a tire rubber according to the present invention will be described in detail with reference to the accompanying drawings.

1 shows a specimen collecting apparatus for testing a tire rubber. The specimen collecting apparatus 1 for testing a tire high specimen includes a work table 2 fixed on a floor or a top plate of a table and having a horizontal upper surface, A reverse motor 3 connected to the output shaft of the forward and reverse motors 3 and connected to the other side of the work table 1 A fixed die 4 vertically fixed on the upper surface of the work table 2 so as to be in parallel with the screw shaft 31; (5) provided so as to be movable in forward and backward directions on the drawing while being disposed parallel to the stationary mold (4) at a position spaced apart from the movable mold (4) (2) so as to be parallel to the movable mold (5) A specimen rubber piece 100 installed between the stationary mold 4 and the movable mold 5 to support the specimen rubber material 100 so as to be vertically adjustable, The front and rear guide rails 8a and 8b are fixed to the front and rear side rails 8a and 8b so as to be parallel to each other on both sides of the front and rear sides of the work table 2, 8b are slidably supported at one end 81 and the other end 82 to constitute a mobile frame body 8 which is installed to be movable in the left and right directions from above the upper surface of the work table 2. [

"자형 터널형상으로 형성되어 있으며(도 4 참조), 상기 이동틀체(8)의 중심부분 저면에는 시험용 시편고무재료(100)에서 일정 두께를 절취해내는 방법으로 고무시편(110)을 채취하기 위한 시편절취칼날금형(9)이 조립볼트(92) 등으로 착탈가능하게 조립되어 있으며, 또한 상기 시편절취칼날금형(9)은 칼날부분(91)이 하향으로 경사지는 상태로 돌출 형성되고, 또 상기 칼날부분(91)의 하단에 형성되는 칼날(부호 생략)은 고정금형(4) 및 이동금형(5) 각각의 상면에 밀착된 상태로 슬라이드 이동이 가능하게 설치되어 있다.The mobile frame body 8 has a "

(See FIG. 4), the bottom surface of the central part of the mobile frame body 8 is cut at a predetermined thickness from the test piece rubber material 100 to obtain a rubber specimen 110 The test piece cutting blade 9 is detachably assembled with the assembly bolt 92 or the like and the test piece cutting blade 9 is formed such that the blade portion 91 is inclined downward, A blade (not shown) formed at the lower end of the blade portion 91 is provided so as to be slidable in a state of being in close contact with the upper surface of each of the stationary die 4 and the movable die 5.

A moving guide block 83 is installed on the bottom surface of the moving frame body 8 so as to surround the screw shaft 31 and is configured to move in the left and right directions along the screw shaft 31.

Therefore, the moving frame 8 is provided with a movement guide block 83 (see FIG. 1) which moves in the left and right directions along the screw shaft 31 which is rotated in the forward and reverse directions as the forward and reverse motors 3 are driven in the forward and reverse directions, ) As shown in Fig. For example, when the forward and reverse motors 3 are driven in the forward direction and the screw shaft 31 is rotated in the normal direction, the movement guide block 83 installed to surround the screw shaft 31 moves in the right direction The mobile frame body 8 is configured to move in the right direction in the drawing. On the other hand, when the forward and reverse motors 3 are driven in the reverse direction, And is configured to move in the left direction in the drawing.

Both ends of the screw shaft 31 connected to the output shaft of the forward and reverse motors 3 are supported so as to be rotatable by the bearing housings 32 and 33.

A length measuring scale 41 for measuring the length of the test piece rubber material 100 is formed on the horizontal upper surface of the stationary mold 4. The length measuring scale 41 is formed on the horizontal upper surface of the stationary mold 4, Is formed at a position deviated from the range in which the blade portion (91) of the blade (9) slides.

A thickness measuring scale 42 for measuring the thickness of the rubber sample piece 110 to be cut out from the test piece rubber material 100 is formed at a position where the scale 41 for measuring the length of the stationary mold 4 starts. (See the enlarged portion of Fig. 1).

The movable mold 5 is disposed parallel to the stationary mold 4 at a position spaced apart from the stationary mold 4. The movable mold 5 is fixed to the stationary mold 4 at a predetermined interval, So that both end portions in the width direction of the test piece rubber material 100 located between the upper ends of the stationary mold 4 and the movable mold 5 can be firmly stuck and fixed .

The movable mold 5 is adjusted by a plurality of manual adjustment bolts 61 formed at regular intervals in a fixed support 6 fixed on the upper surface of the work table 2 so as to adjust the spacing between the movable mold 5 and the fixed mold 4 .

The fixed support 6 is disposed on the opposite side of the stationary mold 4 with respect to the movable mold 5 and is fixed to the upper surface of the work table 2, Each of the plurality of manual adjustment bolts 61 is formed so as to pass through a threaded assembly of the screw part 62. The end 63 of each of the plurality of manual adjustment bolts 61 is connected to the movable mold 5, And is rotatably connected in a state of being inserted into the connection protruding portion 51 formed in the base portion.

Further, each of the plurality of manual adjustment bolts 61 is formed of a bolt which is easy to rotate without any tool.

The upper surface of the specimen-supporting mold 7, which is adjustable between the stationary mold 4 and the movable mold 5, is horizontally formed. The bottom surface of the specimen-supporting mold 7 is inclined at a predetermined angle And an elevation control mold 7a is provided on the bottom of the specimen-supporting mold 7 so as to be slidable in left and right directions.

The elevating control metal mold 7a is disposed on the other side of the work table 2 (see the right side in the drawing) and is rotatably supported by a rotation shaft (not shown) passing through the support 72 fixed between the stationary metal mold 4 and the movable metal mold 5 The lift shaft 7a is provided with a rotation shaft 73, and the lift shaft 7a is formed with a screw portion 74 extending from one side (see the left side in the drawing) The upper surface of the elevating and lowering adjusting mold 7a is fixed to the upper surface of the specimen supporting mold 7 so that the upper surface of the elevating and lowering adjusting mold 7a is in contact with the upper surface of the specimen supporting mold 7, The slant surface 71 is formed to be inclined at an inclination angle equal to that of the inclined surface 71 formed on the bottom surface of the bottom surface 71a.

A manual handle 75 is connected to an end of the rotation shaft 73 protruding from the right in the drawing.

Therefore, as the manual handle 75 is rotated in the forward and reverse directions, the elevation control mold 7a installed to surround the screw portion 74 moves in the left and right direction in the drawing, 7a are moved in the left and right directions, so that the specimen-supporting mold 7 is controlled to move upward and downward.

The operation of the specimen collection apparatus 1 for testing a tire rubber according to the present invention will be described below.

First, a specimen collecting apparatus 1 for a tire rubber test uses a test specimen rubber material 100 cut in a bar shape at respective portions of a tire such as a tread, a belt, a carcass, an inner liner and a sidewall, The size or length of the test specimen rubber material 100 is set to be parallel to the upper surface of the work table 2 and to the left and right sides of the movable mold 5 And the width of the rod-shaped test piece rubber material 100 is not less than the width of the test piece supporting die 7 provided between the stationary die 4 and the moving die 5 A width larger than the width is used.

This is because when the width of the test piece rubber material 100 is smaller than the width of the test piece supporting mold 7, the test piece rubber material 100 can not be firmly held by the stationary mold 4 and the movable mold 5 Because.

Therefore, the length of the specimen rubber material 100 used in the specimen collecting apparatus 1 for testing the tire rubber is not particularly limited, but the width of the specimen rubber material 100 is not necessarily limited to the lengths of the stationary mold 4 and the moving mold 5) of the test piece supporting mold (7).

The rod-shaped test piece rubber material 100 cut to a predetermined size as described above is inserted into the specimen holding tool 1 provided between the stationary mold 4 and the moving mold 5 of the tire rubber test specimen collecting apparatus 1 The upper surface of the test piece rubber material 100 placed on the test piece supporting mold 7 is to be collected on the upper surface of each of the stationary mold 4 and the movable mold 5, The test specimen rubber material 100 should be lifted and lowered so as to protrude by the thickness of the rubber specimen 110. [

Therefore, when the test specimen rubber material 100 placed on the specimen-supporting mold 7 is to be lifted and lowered, the manual handle 75 protruding from the other side of the work table 2 (see the right side in the figure) The threaded portion 74 extending in the leftward direction in the drawing rotates in the rotation shaft 73, so that the elevating and lowering adjusting die 7a provided thereon slides in the left and right directions in the drawing, So that the metal mold 7 can be adjusted up and down.

That is, when the manual handle 75 is rotated in the forward direction, the threaded portion 74 also rotates in the normal direction. At this time, the lift control mold 7a is moved in the leftward direction The specimen-supporting mold 7 descends to the lower side in the figure, so that the test piece rubber material 100 placed on the specimen-supporting mold 7 is in a descending state, and on the contrary, When the manual handle 75 is turned in the opposite direction, the threaded portion 74 also rotates in the reverse direction. At this time, the lift adjusting dies 7a are moved to the right side in the drawing (see the right side portion where the manual handle is installed) The test piece supporting mold 7 is lifted up to the upper side in the figure so that the test piece rubber material 100 placed on the test piece supporting mold 7 is raised.

When the test piece rubber material 100 placed on the test piece supporting mold 7 while moving the manual handle 75 to the left and right is moved up and down as described above, the worker places the test piece rubber material 100 on the specimen- It is visually confirmed whether the upper surface of the test piece rubber material 100 protrudes higher than the upper end of the stationary mold 4 and the height of the upper surface of the test piece rubber material 100 is measured on the thickness measuring rod 43 The upper surface of the test piece rubber material 100 is adjusted so as to protrude to a predetermined height from the upper end of the stationary mold 4 by a method of comparing the thickness of the test piece rubber material 100 with a scale 42 for thickness measurement, The movable mold 5 is fixed to the stationary mold 6 in a fixed screw 4 by sequentially tightening the plurality of manual adjustment bolts 61 provided at fixed intervals in the screw tightening direction ) To Let it move the specimen supporting mold for test specimens of rubber material 100 is put on (7) is firmly fixed in a state that obstruction between the fixed die 4 and the moving mold (5).

When the test piece rubber material 100 placed on the test piece supporting mold 7 is tightly stuck with the stationary mold 4 and the moving mold 5 as described above, 3 is driven, the rubber specimen 110 can be collected from the test specimen rubber material 100.

That is, when the test specimen rubber material 100 placed on the specimen-supporting mold 7 is firmly stuck between the stationary mold 4 and the moving mold 5, the workpiece 2 is moved left and right 1 and 2, the movable frame body 8 is in a state of being moved to a position adjacent to the forward and reverse motors 3, and the movable frame body 8, The blade portion 91 of the stationary mold 4 and the movable mold 5 can be slid in a state of being closely attached to the upper left upper surface of each of the stationary mold 4 and the movable mold 5, The screw shaft 31 rotates to move the movement guide block 83 in the left and right directions.

For example, when the mobile frame 8 is to be moved from the left to the right of the work table 2, the forward and reverse motors 3 are driven to rotate the screw shaft 31 in the forward direction, On the contrary, when the mobile frame 8 is moved from the right side to the left side of the work table 2, the forward and reverse motors 3 are driven to rotate the screw shaft 31 in the reverse direction.

1 and 2, the test specimen rubber material 100 for collecting the rubber specimen 110 in the state where the mobile frame body 8 is positioned on the left side of the work bench 2 as described above is fixed to the stationary mold 4 When the forward and reverse motors 3 are driven while being firmly stuck between the movable mold 5 and the movable mold 5, the screw shaft 31 rotates in the normal direction and the movable guide block 83 is moved from the left side to the right side The movable frame body 8 is moved from the left to the right like the movement guide block 83. Therefore, the sample cutter blade mold 9 fixedly attached to the bottom of the movable frame body 8 is also provided The test piece rubber material 100 (100) is moved in a state in which the blade portion 1 of the test piece cutting blade 9 is in close contact with the upper surface of the upper surface of each of the stationary die 4 and the movable die 5, The movable mold 4 is slid toward the fixed mold 4, Moving the mold 5 will be to cut the rubber specimen 110 parts projecting above the respective top (see (A) (B) in Fig. 5)

The blade portion 91 of the specimen cutting blade 9 for cutting the portion of the rubber specimen 110 is fixed to the horizontal upper surface formed on the upper end of each of the stationary mold 4 and the movable mold 5, The rubber specimen 110 having a certain thickness is taken out by a cutting action like a waving blade while moving.

On the other hand, after the mobile frame body 8 is moved from the left to the right as described above and the operation of cutting the rubber specimen 110 into a predetermined thickness by the test piece rubber material 100 is completed, So as to prepare for the next operation of collecting the rubber specimen 110. [

As described above, the tire specimen collecting apparatus 1 for tire rubber testing according to the present invention can automatically collect the rubber specimen 110 using the rotational power of the forward and reverse motors 3, 110 can be cut so as to form an even horizontal surface, so that the objective evaluation result such as a tensile test can be reliably made.

1: Sample collection device for tire rubber test
2: Work table 3: Positive and reverse motors
31: screw shaft 32, 33: bearing housing
4: stationary mold 41: scale for measuring length
42: scale for measuring thickness 43: thickness measuring bar
5: movable mold 51: connecting projection
6: Fixing support 61: Manual adjustment bolt
62: female thread portion 63: end
7: Supporting mold of specimen 7a:
71: slope 72:
73: rotating shaft 74: threaded portion
75: Manual handle 8: Mobile frame body
8a: front guide rail 8b: rear guide rail
81: Once 82:
83: Movement guide block 9: Specimen cutting blade mold
91: blade portion 92: assembly bolt
100: Test specimen rubber material 110: Rubber specimen

Claims (5)

1. A specimen collecting apparatus for a tire rubber test specimen, which is configured to collect a test specimen from a specimen rubber material cut into a rod-like shape having a predetermined thickness for each of components of a tire tread, a belt, a carcass, an inner liner,
The apparatus for sampling a tire rubber,
A work table fixedly installed on the floor or table so that the upper surface thereof is horizontal;
A forward and reverse motor fixedly installed in a fixed box provided on one side of the upper surface of the work table;
A screw shaft connected to the axes of the forward and reverse motors and formed so as to protrude in the other direction of the work table and horizontally installed to rotate in place;
A front and rear guide rails fixed to the front and rear upper side surfaces of the work table so as to be parallel to each other;
And to project upwardly from the work table,

A movable frame body which is formed in a shape of a "-shaped tunnel ", and one end and the other end of which are provided movably to the left and right along the front and rear guide rails;
A moving guide block fixedly attached to a bottom portion of the moving frame body so as to surround the screw shaft and configured to move the moving frame body along the screw axis to left and right as the screw shaft rotates in the forward and reverse directions;
A stationary mold fixedly installed on a top surface of the work table in a vertical direction toward the left and right longitudinal direction;
A movable mold installed vertically to the left and right longitudinal direction so as to be parallel to the stationary mold and being adjustable to move back and forth so as to adjust the spacing distance with respect to the stationary mold;
And a slider which is detachably attached to a bottom portion of the mobile frame and is slidably movable in a state where the blade contacts the upper surfaces of the stationary mold and the moving mold, Blade mold;
Wherein the rubber sample collecting device is constituted by a plurality of test pieces.
The method according to claim 1,
Wherein a specimen-supporting mold for supporting a specimen rubber material is provided between the stationary mold and the moving mold so as to be adjustable in the upward and downward directions.
3. The method of claim 2,
Wherein the upper surface of the specimen-supporting mold is formed in a horizontal plane and the lower surface thereof is formed in an inclined surface, and a lift-adjusting adjusting mold is provided on the inclined bottom surface of the specimen-supporting mold so that an upper surface thereof is slidably movable, Wherein the apparatus is capable of moving up and down the specimen supporting die while moving left and right along the screw rotation axis.
The method according to claim 1,
Wherein a fixed support is fixed to the upper surface of the work table so as to be parallel to the movable mold at a position spaced apart from the movable mold by a plurality of manual adjustments to adjust the movement of the movable mold to the front and rear sides with respect to the fixed mold, Wherein a bolt is formed on the surface of the tire rubber.
The method according to claim 1,
A length measuring scale for measuring the length of the specimen rubber material fixed in a state of being stuck between the stationary mold and the moving mold is formed on the upper surface of the stationary mold, Characterized in that a thickness measuring bar having a thickness measuring scale for measuring the thickness of the rubber sample to be cut is fixedly installed.

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