KR20140110182A - Hydraulic Breaker with Idle Blow Preventing Function - Google Patents

Abstract

The present invention relates to a hydraulic braker with idle blow preventing function, which prevents idle blow by a simple structure without an expensive sensor which is weak to a shock. Even though a lower ring of a piston moves downwards lower than a lower chamber, the hydraulic pressure supplied to the lower chamber is supplied to a second middle chamber though an idle blow preventing line. Therefore, the piston is no longer moved downwards and stopped to prevent idle blow.

Description

Technical Field [0001] The present invention relates to a hydraulic breaker with idle blowing prevention function,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a hydraulic breaker having a publicity prevention function, and more particularly, to a hydraulic breaker having a publicity prevention function for preventing a publicity with a simple structure without using an expensive sensor that is weak against impact.

Generally, a hydraulic breaker is a type of construction machine that is used as a power machine by using the hydraulic pressure of an excavator mounted on an excavator such as a construction heavy equipment. It is used for repairing pavement, dismantling concrete structure, and crushing rock. The hydraulic breaker converts the energy of the hydraulic pressure and the nitrogen gas into kinetic energy of the piston, and the converted kinetic energy is transmitted to the workpiece through the chisel, and the workpiece is crushed.

1 is a view for explaining a general hydraulic breaker. Referring to FIG. 1, a conventional hydraulic breaker includes a cylinder body 20 provided with a piston 40 reciprocatingly mounted thereon, a head cap 10 coupled to an upper portion of the cylinder body 20 and filled with nitrogen gas, A front head 30 coupled to a lower portion of the cylinder 20 and installed to reciprocate the chisel 45, a hydraulic valve (not shown) installed in the cylinder main body 20 and connected by hydraulic lines, 50 and an accumulator 60 for storing the hydraulic energy and compensating for the insufficient flow rate while absorbing the impact pressure. The piston 40 is repeatedly lifted and lowered by the hydraulic pressure flowing into the cylinder body 20 to strike the chisel 45. The chisel 45 is repeatedly struck by the pressure of the piston 40 The object to be crushed is crushed.

When the chisel 45 is completely crushed by hitting the object to be crushed, there is no object to receive the chisel 45 under the chisel 45, so that the chisel 45 is instantly floated, and then the chisel 45 Is lowered below the front head 30 by its own weight. At this time, the lower end of the piston 40 and the upper end of the chisel 45 are in a relaxed state. In this case also, when the piston 40 reciprocates, the piston 40 hits the upper end of the chisel 45 At this time, the lower end of the piston 40 collides with the inner wall surface of the front head 30, and the inner wall surface of the front head 30 is severely damaged and deformed There is a problem.

In order to solve such a problem, a hydraulic breaker is disclosed in Japanese Patent Application No. 10-0675586, which is equipped with a plurality of sensors to prevent a publicity. However, the sensor is vulnerable to impact due to its characteristics, which increases the maintenance cost, and the cost of the sensor itself is high, which raises the price of the hydraulic breaker.

Registration No. 10-0675586

SUMMARY OF THE INVENTION It is an object of the present invention to solve the problems of the prior art as described above, and it is an object of the present invention to provide a hydraulic breaker having a publicity preventing function for preventing the publicity with a simple structure without using an expensive sensor which is weak in impact.

According to an aspect of the present invention, there is provided an air conditioner comprising: a head cap which is filled with a gas therein; a piston connected to a lower portion of the head cap, the piston being reciprocated therein, And a front head mounted to the lower portion of the cylinder body and installed to reciprocate the chisel, wherein the lower chamber and the middle chamber of the cylinder body are made of a synthetic resin, Wherein the piston is spaced apart from the upper ring and the lower ring in a direction from the top to the bottom along the longitudinal direction of the piston, and the piston, which is moved up and down along the cylinder body, The upper end of the lower ring of the piston is located at the point of impact, And the lower end of the lower ring of the piston is located in the lower chamber such that the outer periphery of the lower ring closes the non-return line, and the piston is located below the hitting point Wherein the upper end of the lower ring of the piston is located in the central chamber and the lower end of the lower ring is located in the lower portion of the lower chamber so that the non-return preventing line is open, Is supplied to the central chamber through the high pressure hydraulic pressure supply line to the lower chamber and applies pressure upward to the lower end of the upper ring of the piston located in the central chamber to lower the piston The hydraulic breaker having the anti-publicity function.

Further, the present invention provides a hydraulic breaker having a publicity prevention function, further comprising a cut-off portion for selectively blocking the publicity prevention line.

The central chamber provided inside the cylinder body may include a first central chamber located opposite the lower end of the upper ring of the piston when the lower end of the lower ring of the piston is located below the lower chamber, And a second middle chamber spaced apart from a lower portion of the first middle chamber so as to face the upper end of the lower ring of the piston, wherein the hydraulic pressure supplied to the middle chamber through the anti- Wherein the first central chamber is supplied to the first central chamber and the second central chamber through a space between the inner periphery provided between the upper ring and the lower ring and the middle chamber, Wherein when hydraulic pressure is supplied to the first middle chamber and the second middle chamber, the lower end of the upper ring of the piston in the first middle chamber Pressing pressure is large at the second central chamber than the oil pressure for pressing the upper end of the lower ring of the piston, there is provided a hydraulic breaker having an gongta protection, it characterized in that the piston is moved to the top.

A hydraulic supply line interconnecting the upper chamber and the central chamber; And a hydraulic valve provided between the hydraulic supply line and the upper chamber for controlling supply of the hydraulic pressure supplied to the hydraulic supply line to the upper chamber, wherein a lower end of the lower ring of the piston is connected to the lower chamber, The hydraulic pressure introduced into the lower chamber presses the lower end of the lower ring of the piston upward so that the lower end of the lower ring of the piston moves upward When the hydraulic pressure introduced into the central chamber is supplied to the hydraulic pressure supply line, the hydraulic pressure is supplied to the hydraulic pressure supply line so that the hydraulic pressure supplied to the hydraulic pressure supply line flows into the upper chamber, Wherein the upper end of the upper ring of the piston is pressed downward so that the piston strikes the upper end of the chisel Having gongta protection, characterized by providing a hydraulic breaker.

The piston includes an upper rod provided on an upper portion of the upper ring along a longitudinal direction thereof, a middle rod provided between the upper ring and the lower ring, and a lower rod provided below the lower ring. Wherein the center rod is configured to have a larger cross sectional area than the lower rod and the inner diameter portion provided on the inner side of the cylinder body is provided on the upper side of the lower chamber of the cylinder body, And a second inner diameter portion provided on the lower side of the lower chamber of the cylinder body and configured to be larger than the first inner diameter portion so as to be in close contact with the outer diameter of the lower rod of the piston Of the hydraulic circuit breaker.

Even if the lower ring of the piston is moved downwardly of the lower chamber, since the hydraulic pressure supplied to the lower chamber is supplied to the second central chamber through the anti-publicity line, the piston is no longer moved downward and the operation is stopped There is an effect that the rattling is prevented.

In addition, since the present invention does not use an expensive sensor which is weak against impact, the manufacturing cost is low and the maintenance cost is low.

1 is a view for explaining a general hydraulic breaker.
FIG. 2 is a schematic view illustrating a state where a piston of a hydraulic breaker having a publicity-preventing function according to a preferred embodiment of the present invention is in contact with a chisel.
3 is a schematic view illustrating a state where the piston of the hydraulic breaker having the anti-pinning function according to the preferred embodiment of the present invention is lifted and separated from the chisel.
4 is a view schematically showing a state in which the piston of the hydraulic breaker having the anti-pinning function according to the preferred embodiment of the present invention is lowered from a predetermined position and then prevented from being blocked.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a hydraulic breaker having a publicity prevention function according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is a schematic view illustrating a state where a piston of a hydraulic breaker having a publicity-preventing function according to a preferred embodiment of the present invention is in contact with a chisel.

Referring to FIG. 2, the hydraulic breaker includes a head cap 100 to which gas is charged, a cylinder body 200 coupled to a lower portion of the head cap 100 and installed to reciprocate the piston 250, And a front head 300 coupled to a lower portion of the cylinder body 200 and installed to reciprocate the chisel 350. This basic structure is the same as the prior art.

The head cap 100 is filled with nitrogen gas, and the upper end of the piston 250 is positioned inside the head cap 100.

The cylinder body 200 has an inner diameter portion 201 so that the piston 250 moves up and down inside the cylinder body 200. An upper chamber 210 and a middle chamber 220 are formed in the lower portion of the inner diameter portion 201, And the lower chamber 230 are spaced apart from each other. The central chamber 220 includes a first central chamber 222, a second central chamber 226 located below the first central chamber 222, a first central chamber 222 and a second central chamber 226 (Not shown). The first central chamber 222, the moving guide chamber 224, and the second central chamber 226 are spaced apart from each other and formed independently of each other. And the first central chamber 222 is configured to have a larger cross-sectional area than the second central chamber 226, as will be described below.

The cylinder body 200 is provided with a hydraulic pressure supply unit 202 and hydraulic lines for supplying hydraulic pressure to the upper chamber 210, the middle chamber 220 and the lower chamber 230. The hydraulic pressure supply unit 202 is connected to the lower chamber 230 of the cylinder body 200 at one side and to the outside of the cylinder body 200 at the other side to supply high pressure hydraulic pressure supplied from the outside to the lower chamber 230 do. The hydraulic lines include an anti-publicity line 240, a hydraulic supply line 242, and a discharge line 244. The anti-publicity line 240 interconnects the lower chamber 230 and the second central chamber 226 of the central chamber 220 to supply the hydraulic pressure supplied to the lower chamber 230 to the second central chamber 226 . The non-interruption prevention line 240 may include a cut-off portion (not shown). When the non-interruption prevention line 240 is not used, the interruption prevention line 240 may be selectively cut off . The hydraulic pressure supply line 242 interconnects the moving guide chamber 224 and the upper chamber 210 of the central chamber 220 to connect the hydraulic pressure supplied to the moving guide chamber 224 of the central chamber 220 to the upper chamber 210). A hydraulic valve 243 is further provided between the hydraulic pressure supply line 242 and the upper chamber 210 to selectively control the hydraulic pressure supplied to the hydraulic pressure supply line 242 to be supplied to the upper chamber 210 do. The hydraulic valve 243 will be described later. The discharge line 244 is connected to the first central chamber 222 to discharge the hydraulic pressure supplied to the first central chamber 222 to an external tank (not shown) or the like. The anti-publicity line 240, the hydraulic supply line 242 and the discharge line 244 are opened or closed depending on the position of the upper ring 252 or the lower ring 254 of the piston 250 being moved up and down, Will be described later.

The piston 250 is positioned at the inner diameter portion 201 of the cylinder body 200 and the upper end of the piston 250 is connected to the upper end point of the head cap 100 by the oil pressure supplied to the inner diameter portion 201 of the cylinder body 200 B and the blowing point A while reciprocating between the blowing point A and the blowing point A. When the impact is completed and the crushed material is crushed, the chisel 350 is lowered from its original position by its own weight, and the upper end of the piston 250 is further lowered than the impact point A and moved to the public point C At this time, the release preventing line 240, which will be described later, is opened, and the piston 250 is moved upward to prevent the blind. The piston 250 is elongated along the longitudinal direction and is divided into an upper rod 251a, a middle rod 251b and a lower rod 251c from the upper side to the lower side. An annular upper ring 252 is provided between the upper rod 251a and the middle rod 251b and an annular lower ring 254 is provided between the middle rod 251b and the lower rod 251c. The upper ring 252 is located between the upper chamber 210 and the middle chamber 220 of the cylinder body 200 when the upper end of the piston 250 is located at the impact point A and has an upper end 252a Is positioned at the lower portion of the upper chamber 210 and the lower end 252b thereof is positioned at the upper portion of the central chamber 220. [ The lower ring 254 is spaced below the upper ring 252 such that when the upper portion of the piston 250 is positioned at the point of impact A the upper portion 254a thereof is located at the center of the central chamber 220, Is positioned between the chamber 222 and the second central chamber 226 and its lower end 254b is located in the lower chamber 230. [

The front head 300 is coupled to the lower portion of the cylinder body 200 and the lower end of the piston 250 located in the cylinder body 200 is positioned inside the front head 300. A chisel 350 is positioned inside the front head 300.

The upper end of the chisel 350 is positioned to face the lower end of the piston 250 and the lower end of the chisel 350 is located in the lower part of the front head 300 do. The upper end of the chisel 350 is struck by the piston 250 to crush the crushed material. When the lower end of the chisel 350 is completely broken and the lower end of the chisel 350 is not supported by the crusher or the hydraulic breaker is lifted so that the lower end of the chisel 350 is not brought into contact with the crushed material, A chisel pin (not shown) is provided on the inner side of the front head 300 so as to be latched without being pulled out downward.

Hereinafter, the operation of the hydraulic breaker having a publicity prevention function according to a preferred embodiment of the present invention will be described.

FIG. 3 is a schematic view illustrating a state in which a piston of a hydraulic breaker having a publicity prevention function according to a preferred embodiment of the present invention is lifted and separated from the chisel. FIG. 4 is a cross- In which the piston of the hydraulic breaker is lowered from a predetermined position and then prevented from becoming stalled.

Referring to FIG. 2, the lower end of the chisel 350 is located in the crusher, and the upper end of the chisel 350 is in contact with the lower end of the piston 250. At this time, the upper end of the piston 250 is located at the impact point A, and the lower end of the piston 250 is in contact with the upper end of the chisel 350. The upper end 254a of the lower ring 254 of the piston 250 is positioned above the second central chamber 226 of the cylinder body 200 to which the hydraulic supply line is connected and the lower ring 254 of the piston 250 The lower end 254b of the piston 250 is positioned below the second central chamber 226 of the cylinder body 200 so that the outer circumference of the lower ring 254 of the piston 250 contacts the second central chamber 226 of the cylinder body 200, Preventing line 240 that is connected to the second central chamber 226 of the cylinder body 200 is closed.

In this state, the operator presses the foot switch on the foot so that the hydraulic pressure is supplied to the hydraulic pressure supply unit 202. [ The high pressure hydraulic pressure is supplied to the lower chamber 230 of the cylinder body 200 through the hydraulic pressure supply unit 202 so that the lower end 254b of the lower ring 254 of the piston 250 located in the lower chamber 230, So that the piston 250 is moved upward.

The middle rod 251b of the piston 250 is configured to have a larger cross sectional area than the lower rod 251c and the lower rod 251c is configured to have a larger cross sectional area than the upper rod 251a. And the upper ring 252 and the lower ring 254 of the piston 250 have the same area. The inner diameter portion 201 of the cylinder body 200 is divided into a first inner diameter portion 201a and a second inner diameter portion 201b. The first inner diameter portion 201a is divided into a lower chamber 230 of the cylinder body 200 And the second inner diameter portion 201b is provided on the lower side of the lower chamber 230 of the cylinder body 200 and is in contact with the lower ring 254 of the piston 250. [ The first inner diameter portion 201a is larger than the first inner diameter portion 201a so as to be in close contact with the outer diameter of the lower rod 251c. The pressure supplied to the lower chamber 230 of the cylinder body 200 applies an upward pressure to the lower ring 254 of the piston 250 to raise the piston 250, Is moved to the middle chamber 220 by taking a space between the inner diameter portion 251c and the inner diameter portion 201 of the cylinder body 200. [

3, when a lower end portion 254b of the lower ring 254 of the piston 250 is positioned in the lower chamber 230, a high-pressure hydraulic pressure is supplied to the lower chamber 230 through the hydraulic supply portion 202 The hydraulic pressure introduced into the lower chamber 230 pushes the lower end 254b of the lower ring 254 of the piston 250 upward so that the piston 250 is lifted, The lower end 254b of the lower ring 254 is moved to the moving guide chamber 224 of the center chamber 220. [ At this time, the upper end of the piston 250 is located at the upper end point B.

The hydraulic pressure introduced into the lower chamber 230 is transmitted to the moving guide chamber 224 of the middle chamber 220 through the space between the inner diameter portion 201 of the cylinder body 200 and the lower rod 251c of the piston 250, And is then transferred to the upper chamber 210 through the hydraulic supply line 242. At this time, the hydraulic pressure in the hydraulic pressure supply line 242 rises from the hydraulic pressure supply line 242 to the hydraulic pressure valve 243 so that the hydraulic pressure valve 243 is opened, And is introduced into the chamber 210. The hydraulic pressure supplied to the upper chamber 210 presses the upper end of the upper ring 252 of the piston 250 located in the upper chamber 210 downward to cause the piston 250 to descend as shown in FIG. , And the lower end of the piston (250) strikes the upper end of the chisel (350).

When the piston 250 is lowered, the lower ring 254 of the piston 250 is positioned in the lower chamber 230 of the cylinder body 200, and the lower chamber 254 of the piston 250 is moved from the hydraulic pressure supply portion 202 of the cylinder body 200 The pressure of the hydraulic fluid supplied to the piston 250 is applied upward to the lower ring 254 of the piston 250 so that the piston 250 repeatedly ascends and descends, 350). ≪ / RTI >

4, when the crushed material located at the lower end of the chisel 350 is completely crushed or when the lower end of the chisel 350 is not brought into contact with the crushed material by lifting the hydraulic breaker, And is moved downward by its own weight to be caught by a chisel pin (not shown). At this time, the lower end of the piston 250, which is lowered by the hydraulic pressure, also descends along the chisel 350, so that the upper end of the piston 250 is moved to the public point C.

When the upper end of the piston 250 is moved to the clearance point C, the anti-publicity line 240 which is covered by the outer periphery of the lower ring 254 of the piston 250 and closed in FIG. 2 is opened. The outer periphery of the lower ring 254 of the piston 250 covering the second central chamber 226 of the cylinder body 200 is positioned at the center of the cylinder body 200, The upper end 254a of the lower ring 254 of the piston 250 is located in the second central chamber 226 of the cylinder body 200, The lower end 254b of the lower ring 254 of the piston 250 is located below the lower chamber 230 of the cylinder body 200. [ As a result, the lower chamber 230 of the cylinder body 200 is covered by the outer periphery of the lower ring 254 of the piston 250, and the second central chamber 226 of the cylinder body 200 is covered by the piston 250 Preventing line 240 connected to the space between the center rod 251b of the cylinder body 200 and the first inner diameter portion 201a of the cylinder body 200 and connected to the second central chamber 226 of the cylinder body 200 And the hydraulic pressure supplied to the lower chamber 230 of the cylinder body 200 is supplied to the second central chamber 226 of the cylinder body 200 on the anti-publicity line 240.

The hydraulic pressure supplied to the second central chamber 226 of the cylinder body 200 is transmitted to the cylinder body 200 through the space between the inner diameter portion 201 of the cylinder body 200 and the middle load 251b of the piston 250. [ To the moving guide chamber 224 and the first central chamber 222 of the first chamber 224. The hydraulic pressure is supplied to the first central chamber 222 and the second central chamber 226 of the cylinder main body 200 while the first central chamber 222 of the cylinder main body 200 is supplied with the hydraulic pressure The lower end 252b of the upper ring 252 is positioned and the upper end 254a of the lower ring 254 of the piston 250 is positioned in the second middle chamber 226 of the cylinder body 200, The hydraulic pressure supplied to the chamber 222 applies upward pressure to the lower end 252b of the upper ring 252 of the piston 250 and the hydraulic pressure supplied to the second middle chamber 226 is transmitted to the lower portion 252b of the piston 250, Pressure is applied to the upper end 254a of the ring 254 downward. Since the first central chamber 222 is formed to have a cross-sectional area larger than that of the second central chamber 226, the hydraulic pressure supplied to the first central chamber 222 is greater than the hydraulic pressure supplied to the second central chamber 226 Pressure, so that the piston 250 is not moved downward, and is stopped so as to be prevented from being actuated. The hydraulic pressure supplied to the first middle chamber 222 is discharged to an outer tank (not shown) or the like along the discharge line 244 connected to the first middle chamber 222. The upward and downward movement of the piston 250 is terminated do.

As described above, even if the lower ring 254 of the piston 250 is moved downwardly of the lower chamber 230, the hydraulic pressure supplied to the lower chamber 230 is transmitted to the second central chamber 226, so that the piston 250 is no longer moved downward, and the operation is stopped to prevent the air baffle. In addition, since the present invention does not use an expensive sensor which is weak against impact, the manufacturing cost is low and the maintenance cost is low.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims.

100: Head cap 200: Cylinder body
201: inner diameter portion 201a: first inner diameter portion
201b: second inner diameter portion 202: hydraulic pressure supply portion
210: upper chamber 220: central chamber
222: first central chamber 224: moving guide chamber
226: second central chamber 230: lower chamber
240: Anti-publicity line 242: Hydraulic supply line
243: Hydraulic valve 244: Discharge line
250: piston 251a: upper rod
251b: middle load 251c:
252: upper ring 252a: upper end
252b: lower end portion 254:
254a: upper end portion 254b: lower end portion
300: front head 350: chisel

Claims (5)

And an upper chamber, a middle chamber, and a lower chamber which are coupled to a lower portion of the head cap and installed to reciprocate the piston in the lower portion, A hydraulic breaker comprising a cylinder main body and a front head coupled to a lower portion of the cylinder main body and installed to reciprocate the chisel,
Wherein the lower chamber and the middle chamber of the cylinder body are configured to be interconnected by an anti-stalling line, the piston being spaced apart from the upper ring and the lower ring along the longitudinal direction thereof,
Wherein the upper end of the lower ring of the piston is located at the top of the anti-public service line when the piston, which is moved up and down along the cylinder body, is positioned at the striking point so as to strike the chisel, Is positioned in the lower chamber, the outer periphery of the lower ring is configured to close the anti-public service line,
Wherein an upper end of the lower ring of the piston is located in the middle chamber and a lower end of the lower ring is located in a lower portion of the lower chamber when the piston is positioned at a lower point below the hitting point, Wherein the high-pressure hydraulic pressure supplied from the outside to the lower chamber is supplied to the central chamber through the open-circuit prevention line opened from the outside to the lower chamber of the upper ring of the piston positioned in the center chamber Wherein the hydraulic breaker is configured to restrict a downward movement of the piston by applying a pressure upward.
The method according to claim 1,
Further comprising a cut-off portion for selectively cutting off the non-turnover prevention line.
The method according to claim 1,
Wherein the central chamber provided in the cylinder body comprises:
A first central chamber positioned opposite the lower end of the upper ring of the piston when the lower end of the lower ring of the piston is located below the lower chamber; And a second central chamber spaced apart from a lower portion of the first chamber,
Wherein the hydraulic pressure supplied to the central chamber through the anti-public release line is transmitted through the space between the inner peripheral portion provided between the upper ring and the lower ring of the piston and the central chamber to the first central chamber and the second central chamber, Wherein the first central chamber is configured to have a larger cross-sectional area than the second central chamber,
When hydraulic pressure is supplied to the first and second middle chambers, hydraulic pressure in the first middle chamber for pressing the lower end of the upper ring of the piston is transmitted to the upper end of the lower ring of the piston in the second central chamber, And the piston is moved to the upper side. The hydraulic breaker according to claim 1,
The method according to claim 1,
A hydraulic supply line interconnecting the upper chamber and the middle chamber; And
Further comprising a hydraulic valve provided between the hydraulic supply line and the upper chamber for controlling supply of the hydraulic pressure supplied to the hydraulic supply line to the upper chamber,
When a high-pressure hydraulic pressure flows from the outside into the lower chamber in a state where a lower end of the lower ring of the piston is located in the lower chamber, the hydraulic pressure introduced into the lower chamber causes the lower end of the lower ring of the piston to move upward The lower end of the lower ring of the piston is introduced into the central chamber,
When the hydraulic pressure introduced into the middle chamber is supplied to the hydraulic pressure supply line, the hydraulic pressure valve is raised so that the hydraulic pressure supplied to the hydraulic pressure supply line flows into the upper chamber, And the piston is configured to strik the upper end of the chisel.
5. The method of claim 4,
The piston includes an upper rod provided on an upper portion of the upper ring along a longitudinal direction thereof, a middle rod provided between the upper ring and the lower ring, and a lower rod provided below the lower ring, The middle rod is configured to have a larger cross-sectional area than the lower rod,
Wherein the inner diameter portion provided on the inner side of the cylinder body is provided on the upper side of the lower chamber of the cylinder body and has a first inner diameter portion in tight contact with the lower ring of the piston and a second inner diameter portion on the lower side of the lower chamber of the cylinder body And a second inner diameter portion configured to be larger than the first inner diameter portion so as to be in close contact with an outer diameter of the lower rod of the piston.

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