KR102179939B1 - Double acting hydraulic wedge cylinder rod type packer - Google Patents

Abstract

The present invention relates to a double-action hydraulic wedge cylinder rod type packer and, more specifically, to a double-action hydraulic wedge cylinder rod type packer, which includes: a connector unit; packer units provided on one side and the other side of the connector unit; a water pressure pipe penetrating into the center of inner surfaces of the connector unit and the packer units in a longitudinal direction and a water pressure adjusting unit supplying a water pressure having a predetermined pressure to the water pressure pipe; a contraction oil pressure pipe installed to be spaced apart from one side of the water pressure pipe by a predetermined interval and a contraction oil pressure supply unit supplying oil pressure having a predetermined pressure to the contraction oil pressure pipe; and an extension oil pressure pipe installed to be spaced apart from the other side of the water pressure pipe by the predetermined interval and an extension oil pressure supply unit supplying oil pressure having a predetermined pressure to the extension oil pressure pipe, wherein the packer units include: a cylinder tube including the contraction oil pressure pipe and the extension oil pressure pipe; a piston which is provided in the cylinder tube, of which one side comes in contact with the oil pressure supplied to the cylinder tube, and which is moved in a longitudinal direction by the oil pressure; a wedge cylinder rod coming in contact with the other side of the piston and moved in the longitudinal direction; and a supporter provided on an outer circumferential surface of one side of the packer units and allowing the wedge cylinder rod to be extended in a width direction while inserted along an inner circumferential surface of a cylinder rod cover formed on one side of the piston.

Description

Double acting hydraulic wedge cylinder rod type packer

The present invention relates to a double-acting hydraulic wedge-type cylinder rod-type packer, and more particularly, through a packer unit configured of a double-acting type, the wedge-type cylinder rod is moved forward and backward by hydraulic pressure, and at the same time, the support body covers the inner side of the rock mass. It relates to a double-acting hydraulic wedge-type cylinder rod-type packer that is tightly sealed to improve the contact area and sealing force with the rock mass.

In recent years, as the necessity for the creation of urban space utilization increases, the importance of the development of underground spaces is increasing. In Korea, the rock layer is shallow, so underground rock excavation is essential for the development of an underground space.

However, conventional rock excavation using explosives or using a rock breaker generates a lot of noise and vibration. The noise generated during rock excavation may cause civil complaints. In addition, vibrations generated during excavation may weaken the surrounding ground and cause the ground to collapse and cause cracks in facilities and buildings.

Currently, a vibration-free halm construction method is used to reduce noise and vibration during rock excavation. However, such a vibration-free halm construction method has a problem that the progression speed, which is the efficiency of the rock crushing operation, is significantly lowered, and the limitations according to the actual work environment are severe.

Therefore, in order to minimize the damage caused by such noise and vibration generated during rock excavation, a low noise and low vibration rock excavation device and method have been required. In addition, research to simplify the excavation process is being actively conducted in order to save the time and cost required during excavation.

Korean Patent Publication No. 10-2104260

The present invention was conceived in view of the above problems, and an object of the present invention is to promote the forward and backward movement of the wedge-shaped cylinder rod by hydraulic pressure through a packer unit configured as a double acting type, and at the same time, the support body is provided on the inner side of the rock mass. It is to provide a double-acting hydraulic wedge-type cylinder rod type packer to improve the contact area and sealing force with the rock by tightly sealing it.

Another object of the present invention is to provide a double-acting hydraulic wedge-type cylinder rod type packer for easily cutting the inner side and ends of rock mass through hydraulic injection by installing a hydraulic injection port at the middle end of the connector unit and the rear end of the packer unit. .

The objects of the embodiments of the present invention are not limited to the above-mentioned objects, and other objects not mentioned will be clearly understood by those of ordinary skill in the technical field to which the present invention belongs from the following description. .

According to a feature for achieving the object as described above, the present invention is a connector unit; A packer unit provided on one side and the other side of the connector unit; A hydraulic pressure pipe passing through a center of the connector unit and the inner surface of the packer unit in a longitudinal direction, and a hydraulic pressure supply control unit supplying a hydraulic pressure of a predetermined pressure to the hydraulic pressure pipe; A contraction hydraulic pressure supply unit that supplies hydraulic pressure of a predetermined pressure to the contraction hydraulic tube and a contraction hydraulic pipe installed at a predetermined interval on one side of the hydraulic pipe; A renal hydraulic pipe installed at a predetermined interval on the other side of the hydraulic pipe, and a renal hydraulic pressure supply unit supplying hydraulic pressure of a predetermined pressure to the renal hydraulic pipe, wherein the packer unit comprises: the contraction hydraulic pipe and the renal hydraulic pressure A cylinder tube including a tube, a piston provided inside the cylinder tube and in contact with the hydraulic pressure supplied to the cylinder tube and moving in the longitudinal direction by the hydraulic pressure, and a piston contacting the other side of the piston and moving in the longitudinal direction A double-acting hydraulic wedge type comprising a wedge-shaped cylinder rod that is formed and a support that is provided on an outer circumferential surface of one side of the packer unit and that the wedge-shaped cylinder rod is inserted along the inner circumferential surface of the cylinder rod cover formed on one side of the piston and expands in the width direction A cylinder rod type packer may be provided.

In addition, according to an embodiment of the present invention, the contraction hydraulic pipe and the expansion hydraulic pipe are formed to reciprocate in the longitudinal direction of the inner surface of the connector unit and the packer unit, so that the piston can be moved forward and backward in the longitudinal direction. A double-acting hydraulic wedge-type cylinder rod type packer manufactured in a type may be provided.

In addition, according to an embodiment of the present invention, the contraction hydraulic pipe and the expansion hydraulic pipe are double-acting hydraulic wedges further comprising a expansion hydraulic inlet installed on one side of the packer unit and a contraction hydraulic inlet installed on the other side of the packer unit. A type cylinder rod type packer may be provided.

In addition, according to an embodiment of the present invention, the material of the support may be provided with a double-acting hydraulic wedge type cylinder rod type packer, which is a urethane resin synthesized with rubber.

In addition, according to an embodiment of the present invention, the hydraulic pressure supply control unit is provided with a double-acting hydraulic wedge-type cylinder rod type packer in which a plurality of hydraulic injection ports for cutting rock mass by spraying hydraulic pressure to the middle and rear ends of the hydraulic pipe are formed. I can.

In addition, according to an embodiment of the present invention, the hydraulic pressure supply control unit may be provided with a double-acting hydraulic wedge type cylinder rod type packer further comprising a hydraulic pressure control unit for adjusting the hydraulic pressure transmitted to the hydraulic pipe.

In addition, according to an embodiment of the present invention, a first hole is formed on one side in the length direction of the contraction hydraulic tube, and a second hole is formed on one side in the length direction of the wedge-shaped cylinder rod,

The first hole and the second hole are positioned so as to correspond to each other, and when hydraulic pressure is introduced when the first hole and the second hole are in contact with each other in the contraction hydraulic pipe during contraction, the wedge-shaped cylinder rod becomes the cylinder rod cover. A double-acting hydraulic wedge-type cylinder rod type packer in which the first hole and the second hole are positioned at the same time as retreating along the inner circumferential surface of the can be provided.

In addition, according to an embodiment of the present invention, the end surface of the support and the end surface of the cylinder rod cover come into contact with each other at the same time as the retraction of the wedge-shaped cylinder rod, so that the support is separated from the wedge-shaped cylinder rod and contracts in the width direction. A double acting hydraulic wedge type cylinder rod type packer may be provided.

According to the double-acting hydraulic wedge-shaped cylinder rod type packer according to the present invention, the wedge-shaped cylinder rod is moved forward and backward by hydraulic pressure through a packer unit composed of a double-acting type, and the support body tightly seals the inner surface of the rock mass, It has the effect of improving the contact area and sealing power with rock mass.

In addition, since the hydraulic injection port is installed at the middle end of the connector unit and the rear end of the packer unit, there is an effect of easily cutting the inner side and the end of the rock mass through hydraulic injection.

1 is a plan view of a double acting hydraulic wedge-type cylinder rod type packer according to an embodiment of the present invention,
2 is a partial plan view showing a packer unit of a double-acting hydraulic wedge-type cylinder rod type packer according to an embodiment of the present invention;
3 to 4 are partial plan views for explaining the operation relationship of the packer unit of the double-acting hydraulic wedge-type cylinder rod type packer according to an embodiment of the present invention;
5 is a partial plan view showing a hydraulic injection port of a double-acting hydraulic wedge-type cylinder rod type packer according to an embodiment of the present invention;
6 is a cross-sectional view showing A-A' of FIG. 1;

The following objects, other objects, features, and advantages of the present invention will be easily understood through the following preferred embodiments related to the accompanying drawings. However, the present invention is not limited to the embodiments described herein and may be embodied in other forms.

Rather, the embodiments introduced herein are provided so that the disclosed content may be thorough and complete, and the spirit of the present invention may be sufficiently conveyed to those skilled in the art.

The embodiments described and illustrated herein also include complementary embodiments thereof.

In this specification, the singular form also includes the plural form unless specifically stated in the phrase. As used in the specification, "comprise" and/or "comprising" does not exclude the presence or addition of one or more other components.

Hereinafter, the present invention will be described in detail with reference to the drawings. In describing the specific embodiments below, various specific contents have been prepared to more specifically describe the invention and to aid understanding. However, readers who have knowledge in this field enough to understand the present invention can recognize that it can be used without these various specific contents. In some cases, it should be noted in advance that parts that are commonly known in describing the invention and are not significantly related to the invention are not described in order to avoid confusion in describing the invention.

1 is a plan view of a double acting hydraulic wedge type cylinder rod type packer according to an embodiment of the present invention, and FIG. 2 is a partial plan view showing a packer unit of a double acting hydraulic type wedge type cylinder rod type packer according to an embodiment of the present invention 3 to 4 are partial plan views for explaining the operation relationship of the packer unit of the double-acting hydraulic wedge-type cylinder rod type packer according to an embodiment of the present invention, and FIG. 5 is a double-acting hydraulic wedge according to an embodiment of the present invention. It is a partial plan view showing the hydraulic injection port of the type cylinder rod type packer, and FIG. 6 is a cross-sectional view showing A-A' of FIG. 1.

1 to 6, the double-acting hydraulic wedge-type cylinder rod type packer of the present invention is largely a connector unit 100, a packer unit 200, a contraction hydraulic supply unit 300, and a renal hydraulic supply unit ( 400).

First, the connector unit 100 may be formed in a cylindrical shape made of stainless steel, and each of the packer units 200 to be described below are provided to be symmetrical to each other on both sides of the connector unit 100.

In addition, a contraction hydraulic pressure supply unit 300 to be described below and a contraction hydraulic pressure pipe 310 and a expansion hydraulic pressure pipe 410 extending from the expansion hydraulic supply unit 400 are installed inside the connector unit 100 to Hydraulic pressure is supplied from the hydraulic supply unit 300 and the expansion hydraulic supply unit 400 to the contraction hydraulic pipe 310 and the expansion hydraulic pipe 410.

That is, the connector unit 100 is a component that serves as a connector for connection between the packer units 200.

The packer unit 200 may be formed in a cylindrical shape made of stainless steel, and may be provided on one side and the other side of the connector unit 100, respectively.

At this time, between the connector unit 100 and the packer unit 200, the connector unit 100 and the packer unit 200 are coupled or separated through a separate bolt B to enable maintenance.

On the other hand, the packer unit 200 is largely configured to include a piston 201, a cylinder tube 202, a wedge-shaped cylinder rod 210, a cylinder rod cover 230, and a support body 240. .

The piston 201 is provided in the inside of the cylinder tube 202 including the contraction hydraulic tube 310 and the expansion hydraulic tube 410, and one side with the hydraulic pressure supplied to the cylinder tube 202 It abuts and is moved longitudinally by the hydraulic pressure.

The piston 201 may be provided in either a vacuum state or a semi-vacuum state to adjust the strength of the hydraulic pressure.

In addition, the piston 201 is provided with a pressurizing body on one side, when moving in the longitudinal direction by the expansion and contraction of the hydraulic pressure, it is revealed that there is an effect of enabling strong compression while simultaneously promoting forward and backward movement.

In addition, the wedge-shaped cylinder rod 210 abuts the other side of the piston 201 and moves in the longitudinal direction by the pressing force of the piston 201.

On the other hand, one side of the wedge-shaped cylinder rod 210 is manufactured in a conical wedge shape, and one end of the wedge-shaped cylinder rod 210 is positioned so as to be in contact with one side of the support 240 to be described below or the support 240 It may be provided in the form of a certain length inserted into the inner end.

The other side of the wedge-shaped cylinder rod 210 is formed to abut the other side of the piston 201, and the wedge-shaped cylinder rod 210 moves in the longitudinal direction of the piston 201 and at the same time, the piston (201) Since it is in contact with the other side, the wedge-shaped cylinder rod 210 moves in the longitudinal direction and at the same time along the inner circumferential surface of the cylinder rod cover 230 formed on one side of the piston 201, the inner side of the support 240 to be described below. It is inserted into the end.

The support body 240 is manufactured in a cylindrical shape, provided on an outer peripheral surface of one side of the packer unit 200, and the wedge-shaped cylinder rod 210 is inserted along the inner peripheral surface of the cylinder rod cover 202 and expanded in the width direction at the same time. And seals the inner surface of the rock mass.

Here, the material of the support 240 may be a urethane resin synthesized with rubber.

The support body 240 expands or contracts in the width direction according to the length into which the wedge-shaped cylinder rod 210 is inserted, and the support body 240 seals the inner surface of the rock mass, and the wedge-shaped cylinder rod ( 210) has the effect of more firmly sealing the inner surface of the rock mass by supporting the lower surface of the support body 240 to prevent the support body 240 from being reduced.

That is, the support body 240 is separated from the side of the packer unit 200, and when the hydraulic pressure is provided to the piston 201, the piston 201 presses one side of the wedge-shaped cylinder rod 210 At the same time, after the wedge-shaped cylinder rod 210 is inserted into the lower side of the support body 240 along the inner circumferential surface of the cylinder rod cover 202, the support body is the same as the conical shape of the wedge-shaped cylinder rod 210 (240) is expanded in the width direction to tightly seal the inner surface of the rock mass.

Further, the lengthwise stroke of the wedge-shaped cylinder rod 210 is preferably between 12 and 30 cm.

When the longitudinal stroke of the wedge-shaped cylinder rod 210 is less than 12 cm, the wedge-shaped cylinder rod 210 is inserted into the lower side of the support body 240 along the inner circumferential surface of the cylinder rod cover 202 Therefore, there is a problem that the support body 240 cannot seal the inner surface of the rock mass because the support body 240 does not extend an appropriate length in the width direction, and the lengthwise stroke of the wedge-shaped cylinder rod 210 is 30 When it exceeds cm, the wedge-shaped cylinder rod 210 is inserted into the lower side of the support body 240 along the inner circumferential surface of the cylinder rod cover 202 for a certain length or more, and the support body 240 is damaged or the width direction Since the support body 240 forcibly seals the inner surface of the rock mass and is damaged due to the fact that the support body 240 is damaged by not withstanding the pressing force, the lengthwise stroke of the wedge-shaped cylinder rod 210 ( Stroke) is preferably between 12 and 30 cm.

In addition, at one of the connector unit 100 or one side of the packer unit 200, a water pressure injection port 320 that is separated from the hydraulic pipe 340 is installed, the hydraulic injection port 320 Is installed at the middle end of the connector unit 100 and at the rear end of the packer unit 200 so that the inner surface and the end of the rock mass can be cut through hydraulic injection.

Such, the hydraulic injection port 320 may be installed in a plurality in the longitudinal direction and the width direction, the diameter of the circular sphere (not shown) formed in the hydraulic injection port 320 can be variously changed, the hydraulic injection port ( 320) is installed eccentrically at a certain angle and can be installed so as to respond according to the condition of the rock mass.

The hydraulic pressure supply control unit 330 is provided with a hydraulic pressure pipe 340 penetrating the center of the inner surface of the connector unit 100 and the packer unit 200 in a longitudinal direction, and a constant pressure in the hydraulic pressure pipe 340 The water pressure of is supplied, and a water pressure of a predetermined pressure is supplied to the water pressure injection port 320.

In addition, the water pressure supply control unit 330 may be provided with a separate water pressure control unit (not shown) for adjusting the water pressure transmitted to the water pressure pipe 340, the water pressure control unit in the water pressure pipe 340 ), it is possible to provide an appropriate water pressure by controlling the water pressure and flow rate flowing into it.

The contraction hydraulic pressure supply unit 300 is provided with a contraction hydraulic pressure pipe 310 installed at a predetermined interval on one side of the hydraulic pressure pipe 340 to supply hydraulic pressure of a certain pressure to the contraction hydraulic pressure pipe 310.

The renal hydraulic pressure supply unit 400 is provided with a renal hydraulic pipe 410 installed at a predetermined interval on the other side of the hydraulic pipe 340 to supply hydraulic pressure of a predetermined pressure to the renal hydraulic pipe 410.

The contraction hydraulic pressure supply unit 300 and the kidney hydraulic pressure supply unit 400 are provided with a contraction hydraulic pressure pipe 310 and a kidney hydraulic pressure pipe 410 that are installed spaced apart from the hydraulic pressure supply control unit 330 by a predetermined distance. Hydraulic pressure of a certain pressure is supplied to the contraction hydraulic pipe 310 and the expansion hydraulic pipe 410 side.

Here, the contraction hydraulic pipe 310 and the expansion hydraulic pipe 410 are formed to reciprocate in the longitudinal direction of the inner surfaces of the connector unit 100 and the packer unit 200, so that the piston 201 is in the longitudinal direction. It is manufactured in a double acting type that can move forward and backward.

Here, a plurality of set screws 203 are installed on the outer circumferential surfaces of the connector unit 100 and the packer unit 200 to support the hydraulic pipe 340, the renal hydraulic pipe 410, and the contraction hydraulic pipe 310. have.

In addition, the contraction hydraulic pipe 310 and the expansion hydraulic pipe 410 are provided with a expansion hydraulic inlet 420 through which hydraulic pressure is introduced into one side of the packer unit 200, and hydraulic pressure is provided at the other side of the packer unit 200. As the contraction hydraulic inlet 430 to contract is installed, the expansion and contraction of hydraulic pressure can be repeated.

Meanwhile, a first hole 450 is formed on one side of the contraction hydraulic pipe 310 in the longitudinal direction, and a second hole 460 is formed on one side of the wedge-shaped cylinder rod 210 in the longitudinal direction.

Through this, the first hole 450 and the second hole 460 are positioned to correspond to each other, and the first hole 450 and the second hole 460 in the contraction hydraulic tube 310 when contracted When this contact, hydraulic pressure is introduced, and the wedge-shaped cylinder rod 210 is retracted along the inner circumferential surface of the cylinder rod cover 230, and at the same time, the first hole 450 and the second hole ( The 460 is positioned so that the packer unit 200 is converted to a standby state.

In addition, at the same time as the wedge-shaped cylinder rod 210 is retracted, the end surface of the support body 240 and the end surface of the cylinder rod cover 230 come into contact with each other. As the wedge-shaped cylinder rod 210 is retracted, After the end surface of the support body 240 and the end surface of the cylinder rod cover 230 are in contact with each other by the acceleration generated, the support body 240 having an elastic force is separated from the wedge-shaped cylinder rod 210 It contracts in the width direction.

That is, the end surface of the cylinder rod cover 230 serves as a stopper to limit the movement of the support body 240 to be separated from the support body 240.

Through this, by performing the reciprocating motion of the wedge-shaped cylinder rod 210 through the forward and backward movement of the wedge-shaped cylinder rod 210, the support 240 is expanded in the width direction, thereby a double acting hydraulic wedge of the present invention A type cylinder rod type packer can be implemented.

Accordingly, according to the double-acting hydraulic wedge-type cylinder rod type packer according to the present invention, the support body (the support body ()) is designed to advance and reverse the wedge-type cylinder rod 210 by hydraulic pressure through the packer unit 100 configured as a double-acting type. 240) firmly seals the inner surface of the rock mass, thereby improving the contact area and sealing force with the rock mass, and a hydraulic injection port 320 is installed at the middle end of the connector unit 100 and the rear end of the packer unit 200 As a result, there is an effect of easily cutting the inner surface and the end of the rock mass through hydraulic injection.

Since the embodiments described in this specification and the configurations shown in the drawings are only the most preferred embodiments of the present invention and do not represent all the technical spirit of the present invention, various equivalents that can replace them at the time of application And it should be understood that there may be variations.

100: connector unit 200: packer unit
201: piston 202: cylinder tube
203: set screw 210: wedge-shaped cylinder rod
230: cylinder rod cover 240: support
300: shrink hydraulic pressure supply unit 310: shrink hydraulic pipe
320: water pressure injection port 330: water pressure supply control unit
340: hydraulic pipe 400: kidney hydraulic supply unit
410: kidney hydraulic pipe 420: kidney hydraulic inlet
430: shrinkage hydraulic inlet

Claims (8)

Connector unit 100;
A packer unit 200 provided on one side and the other side of the connector unit 100;
A hydraulic pressure pipe 340 penetrating the center of the inner surface of the connector unit 100 and the packer unit 200 in a longitudinal direction, and a hydraulic pressure supply control unit 330 supplying a water pressure of a predetermined pressure to the hydraulic pressure pipe 340 ;
A contraction hydraulic pressure supply unit 300 that supplies hydraulic pressure of a predetermined pressure to the contraction hydraulic tube 310 and a contraction hydraulic tube 310 installed at a predetermined interval on one side of the hydraulic tube 340;
Including; a kidney hydraulic pressure pipe 410 installed at a predetermined interval on the other side of the hydraulic pipe 340 and a kidney hydraulic pressure supply unit 400 for supplying hydraulic pressure of a predetermined pressure to the kidney hydraulic pipe 410,
The packer unit 200,
One side of the cylinder tube 202 including the contraction hydraulic tube 310 and the expansion hydraulic tube 410, and the hydraulic pressure supplied to the cylinder tube 202 and provided inside the cylinder tube 202 A piston 201 that contacts and moves in the longitudinal direction by the hydraulic pressure, a wedge-shaped cylinder rod 210 that contacts the other side of the piston 201 and moves in the longitudinal direction, and is provided on an outer peripheral surface of one side of the packer unit 200 And the wedge-shaped cylinder rod 210 is inserted along the inner circumferential surface of the cylinder rod cover 230 formed on one side of the piston 201 and extends in the width direction at the same time as a double-acting hydraulic wedge. Type cylinder rod type packer.
The method according to claim 1,
The contraction hydraulic tube 310 and the kidney hydraulic tube 410,
Double-acting hydraulic wedge type, characterized in that it is formed to reciprocate in the longitudinal direction of the inner surface of the connector unit 100 and the packer unit 200, and is manufactured in a double-acting type capable of moving the piston 201 forward and backward in the longitudinal direction. Cylinder rod type packer.
The method according to claim 2,
The contraction hydraulic tube 310 and the kidney hydraulic tube 410,
Double-acting hydraulic wedge type cylinder rod type packer, characterized in that it further comprises a renal hydraulic inlet 420 installed on one side of the packer unit 200 and a contraction hydraulic inlet 430 installed on the other side of the packer unit 200 .
The method according to claim 1,
The material of the support 240 is a double-acting hydraulic wedge type cylinder rod type packer, characterized in that the urethane resin synthesized with rubber.
The method according to claim 1,
The hydraulic pressure supply control unit 330,
A double-acting hydraulic wedge-type cylinder rod type packer, characterized in that a plurality of hydraulic injection ports 320 are formed to cut rock mass by spraying hydraulic pressure at the middle and rear ends of the hydraulic pipe 340.
The method according to claim 1,
The hydraulic pressure supply control unit 330,
Double-acting hydraulic wedge type cylinder rod type packer, characterized in that it further comprises a water pressure control unit for adjusting the water pressure transmitted to the hydraulic pipe (340).
The method according to claim 1,
A first hole 450 is formed on one side of the contraction hydraulic tube 310 in the longitudinal direction, and a second hole 460 is formed on one side of the wedge-shaped cylinder rod 210 in the longitudinal direction,
The first hole 450 and the second hole 460 are positioned to correspond to each other, and the first hole 450 and the second hole 460 are in contact with each other in the contraction hydraulic tube 310 when contracted. When hydraulic pressure is introduced, the wedge-shaped cylinder rod 210 is retracted along the inner peripheral surface of the cylinder rod cover 230 and the first hole 450 and the second hole 460 are positioned in position. Double acting hydraulic wedge type cylinder rod type packer.
The method of claim 7,
Simultaneously with the retraction of the wedge-shaped cylinder rod 210, the end surface of the support body 240 and the end surface of the cylinder rod cover 230 abut each other, so that the support body 240 is separated from the wedge-shaped cylinder rod 210 Double-acting hydraulic wedge type cylinder rod type packer, characterized in that it is contracted in the width direction.

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