KR20160059496A - Hose connecting structure for hydraulic breaker - Google Patents

Hose connecting structure for hydraulic breaker Download PDF

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Publication number
KR20160059496A
KR20160059496A KR1020140160546A KR20140160546A KR20160059496A KR 20160059496 A KR20160059496 A KR 20160059496A KR 1020140160546 A KR1020140160546 A KR 1020140160546A KR 20140160546 A KR20140160546 A KR 20140160546A KR 20160059496 A KR20160059496 A KR 20160059496A
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KR
South Korea
Prior art keywords
connected
hydraulic
hose
hydraulic hose
end
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KR1020140160546A
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Korean (ko)
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KR101638448B1 (en
Inventor
이정덕
김형곤
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대모 엔지니어링 주식회사
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Priority to KR1020140160546A priority Critical patent/KR101638448B1/en
Publication of KR20160059496A publication Critical patent/KR20160059496A/en
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Publication of KR101638448B1 publication Critical patent/KR101638448B1/en

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Abstract

The present invention is capable of reducing material costs, shortening a length for hose connection, and a rotation radius of an excavator arm by connecting a hose of a hydraulic breaker with a main body of the breaker and the upper part of a bulk cap and connecting the hose with a hydraulic pipe of the excavator arm in the upper part of the bulk cap. According to the present invention, a hose connecting structure for a hydraulic breaker comprises: a first hydraulic hose of which one end is connected with the main body of the breaker through a connection unit and of which the other end is connected with a joint unit placed in the bulk cap; and a second hydraulic hose of which one end is connected with the joint unit and of which the other end is connected with the hydraulic pipe of the excavator arm.

Description

Technical Field [0001] The present invention relates to a hose connecting structure for a hydraulic breaker,

[0001] The present invention relates to a hose connection structure for a hydraulic breaker, and in particular, it is possible to improve the durability of a product by minimizing the influence of vibration generated during a breaker operation by improving a hydraulic hose connection structure, To a hose connection structure for a hydraulic breaker in which the structure is improved.

Generally, a hydraulic breaker is widely used for crushing concrete or rocks by attaching to a construction equipment such as an excavator, a loader, and the like, and a chisel, which is a crushing tool, The concrete and the rock are crushed by the hitting force which hits the piston up and down.

These hydraulic breakers consist of hydraulic cylinders and pistons, with a chisel on the front of the cylinder used to break the object.

When the piston is reciprocated by the operation of the cylinder, the chisel is hit, and a strong impact is applied to the object, and the object is split or broken.

A valve device is provided at the rear end of the hydraulic cylinder to control the supply of the fluid required for the operation of the piston to one side of the surface of the hydraulic cylinder. The hydraulic oil is temporarily stored on the surface of the hydraulic cylinder adjacent to the fluid control part, An accumulator for use as an energy source is formed.

The valve device includes a valve housing formed on one surface of the hydraulic cylinder, a valve coupled to the interior of the valve housing to horizontally move through the opening of the valve housing to control the supply of fluid, a valve housing to seal the opening, And a valve cover coupled through a plurality of fastening members.

Particularly, in the case of a breaker for crushing a rock or a concrete structure, a relatively large impact is required, and thus high reliability is required in the detachment and hydraulic connection.

For example, "Hydraulic hose connector of an excavator breaker" (Registered Date: 2006.11.02) of Korean Registered Utility Model No.0430686 is a hydraulic hose connector of an excavator breaker, which has a central penetrating portion for progressing hydraulic pressure, An adapter that is fastened and fixed to the hydraulic hose connection portion of the body, and a split type clamp which is fastened to the rear surface of the adapter while surrounding the flange of the hydraulic hose. As a result, a stable connection state of the hydraulic hose can be ensured and the effect of preventing breakage of the hydraulic hose due to an operation shock is expected.

However, when the hydraulic hose connection structure of the existing breaker operates in a state where it is mounted on an excavator, high pressure hydraulic oil flows through the hydraulic hose and flows into the breaker to perform various hitting operations such as excavator shaking, The recoil and the shifting of the position of the impacted object) may cause the hose adapter to break or the metal part of the hose to break and the oil to leak.

As another example, a "hydraulic hose connector for a hydraulic breaker" (Registered on Jan. 01, 2006) of Korea Registered Utility Model No. 0406201 discloses a hydraulic hose connecting portion of a hydraulic hose to which a hydraulic hose extending from an excavator is fastened, So as to prevent the breakage of the hydraulic hose and the adapter which is a fastening mechanism of the hydraulic hose.

In this case, there is a problem that the unit price of the product increases due to the application of the expensive swivel structure.

"Hydraulic hose connector of an excavator breaker" (Registration date: 2006.11.02) of Korean Registered Utility Model No. 0430686, "Hydraulic hose connector for hydraulic breaker" of Korean Utility Model Registration No. 0406201 (registered on January 1, 2006)

It is an object of the present invention to improve the durability of a product by minimizing the influence of vibrations generated during a breaker operation by improving the hydraulic hose connection structure of the hydraulic breaker, And to provide a hose connection structure for a hydraulic breaker in which the structure is improved so as to reduce costs and minimize oil leakage.

According to an aspect of the present invention, there is provided a hydraulic hose comprising: a first hydraulic hose having one end connected to a breaker main body through a connecting means; a joint means connected to the other end of the first hydraulic hose and provided in the bulk cap; And a second hydraulic hose connected to the joint means and the other end connected to the hydraulic pipe of the excavator arm.

The bulk cap has a through hole formed on a bottom surface thereof so as to allow the first hydraulic hose to pass therethrough.

The connecting means includes a first connection pipe connected to a hydraulic path of the breaker main body and connected to change the flow path, and a hose adapter connected to the first connection pipe and connected to the first hydraulic hose.

The joint means includes a lock nut to which the other end of the first hydraulic hose is connected, a second coupling pipe connected to the lock nut, a joint member connected to the second coupling pipe and coupled to penetrate the bulk cap, And an adapter member connected to the end of the joint member and connected to the second hydraulic hose.

The connection structure of the hydraulic hose for the breaker is not directly connected from the hydraulic pipe of the existing excavator arm to the main body side of the breaker, but is connected to the upper part of the bulkhead by the first hydraulic hose from the breaker main body, The second hydraulic hose is connected to the hydraulic pipe of the excavator arm for securing the turning radius of the excavator arm. In addition, the connection length of the hydraulic hose is shortened, It is possible to reduce the load on the part of the metal member that is generated by the metal plate, thereby improving the durability of the parts.

1 is a front view showing a hose connection structure for a hydraulic breaker according to the present invention;
Fig. 2 is a side view of Fig. 1; Fig.

The present invention improves the structure in which the hose is connected to the main body and the bulk cap of the breaker in the hydraulic breaker and the hose is connected to the hydraulic pipe of the excavator arm at the upper part of the bulk cap to secure the turning radius of the excavator arm To shorten the length of the hose connection and reduce the cost.

1 and 2, the hose connection structure for a hydraulic breaker according to the present invention is characterized in that one end is connected to the breaker main body 10 via a connecting means 200 and the other end is connected to the bulkhead 30 A second hydraulic hose 400 having one end connected to the joint means 300 and the other end connected to the hydraulic pipe 22 of the excavator arm 20, .

More specifically, the first hydraulic hose 100 is connected to the upper side of the bulk cap 30 through the perforated hole 32a formed in the upper surface of the breaker main body 10.

The connection means 200 includes a first connection pipe 220 connected to the hydraulic path of the breaker main body 10 and connected to change the flow path, and a second connection pipe 220 connected to the first connection pipe 220, And a hose adapter 210 connected to the hose 100.

The first connection pipe 220 may include an elbow pipe, one end of which is connected to the breaker main body 10 in a horizontal direction, and the other end of which is connected to the upward hose adapter 210.

The joint means 300 includes a lock nut 310 for preventing the first hydraulic hose 100 from being connected to the other end of the first hydraulic hose 100 and a second connection pipe 320 connected to the lock nut 310, A joint member 330 connected to the second connection pipe 320 and coupled to the bulk cap 30 so as to penetrate the bulk cap 30 and a second connection pipe 330 connected to the end of the joint member 330 and connected to the second hydraulic hose 400 And an adapter member 340 connected thereto.

The joint member 330 is inserted into a fastening hole 35 formed in the bulk cap 30 to be fixed to the bulk cap 30 horizontally and is fastened with a second connection pipe 320 on one side and an adapter member 35 on the other side. (340) are oriented upward.

The joint member 330 has a structure that is bolted to the edge of the fastening hole 35.

The second connection pipe 320 is connected to the lock nut 310 connected to the end of the first hydraulic hose 100 and connected to the end of the joint member 330 by an angle of 90 degrees. And an elbow pipe can be employed.

The second hydraulic hose 400 has a structure in which one end is hose-connected to the adapter member 340 and the other end is hose-connected to the hydraulic pipe 22 of the excavator arm 20.

The first and second hydraulic hoses 100 and 400 are each composed of two for the inflow and outflow of high-pressure oil.

One end of the first hydraulic hose 100 is connected to the breaker main body 10 through the connecting means 200 and the other end of the first hydraulic hose 100 is connected to the bulkhead 30 Through the through hole 32a formed in the bottom surface 32 of the bulk cap 30 so as to be connected to the upper side of the joint 30a.

As a result, the first hydraulic hose 100 is connected to the upper portion of the bulk cap 30 through the through hole 32a, thereby shortening the length of the hose. Accordingly, the load due to the self weight and vibration of the long hydraulic hose can be reduced .

In addition, since the connecting portion between the other end of the first hydraulic hose 100 and the joint means 300 is located in the brackets on both sides of the bulk cap 30, there is an advantage that breakage due to an external impact can be prevented.

Since the joint member 330 of the present invention has a structure in which it is fitted to the fastening hole 35 formed in the both side brackets of the bulk cap 30 and is tightly connected with the bolt, , And the vibration transmitted to the two hydraulic hoses (100, 400) can be minimized.

When high pressure oil is supplied to the hydraulic pipe 22 attached to the excavator arm 20, the high pressure oil is transmitted to the second hydraulic hose 400 side connected to the hydraulic pipe 22 and is transmitted to the second hydraulic hose 400 Pressure oil is passed to the first hydraulic hose 100 side after passing through the joint means 300.

The process of passing the high pressure oil through the joint means 300 sequentially passes the adapter member 340 connected to the second hydraulic hose 400, the joint member 330, the second connection pipe 320 and the lock nut 310 sequentially .

The high pressure oil delivered to the first hydraulic hose 100 is supplied to the flow path of the breaker main body 10 after passing through the hose adapter 210 and the first connection pipe 220 of the connecting means 200, So that the object to be crushed is crushed by the upward and downward movement of the crusher 50.

 The connecting structure of the hydraulic hose for the breaker is not directly connected from the hydraulic pipe 22 of the existing excavator arm 20 to the main body 10 of the breaker, The second hydraulic hose 400 is connected to the hydraulic pipe 22 of the excavator arm 20 at the upper part of the bulk cap 30 and the second hydraulic hose 100 is connected to the second hydraulic hose 100 The connection length of the hydraulic hose can be shortened by connecting the vehicle so that the load of the metal part generated by the self weight of the long hose and the vibration can be reduced and the durability of parts can be improved.

10: Breaker main body 20: Excavator arm
22: Hydraulic pipe 30: Bulk cap
32: bottom surface 32a: through hole
35: fastening hole 100: first hydraulic hose
200: connecting means 210: hose adapter
220: first connection pipe 300: joint means
310: lock nut 320: second connection pipe
330: joint member 340: adapter member
400: 2nd hydraulic hose

Claims (4)

  1. A first hydraulic hose 100 connected to the breaker main body 10 via a connecting means 200,
    Joint means 300 connected to the other end of the first hydraulic hose 100 and provided in the bulk cap 30,
    And a second hydraulic hose (400) having one end connected to the joint means (300) and the other end connected to the hydraulic pipe (22) of the excavator arm (20).
  2. The method according to claim 1,
    Wherein the bulk cap (30) has a through hole (32a) formed in the bottom surface (32) so as to allow the first hydraulic hose (100) to pass therethrough.
  3. The method according to claim 1,
    The connecting means 200 includes a first connecting pipe 220 connected to the hydraulic path of the breaker main body 10 and connected to change the flow path,
    And a hose adapter (210) connected to the first connection pipe (220) and connected to the first hydraulic hose (100).
  4. The method according to claim 1,
    The joint means 300 includes a lock nut 310 to which the other end of the first hydraulic hose 100 is connected,
    A second connection pipe 320 connected to the lock nut 310,
    A joint member 330 connected to the second connection pipe 320 and coupled to penetrate the bulk cap 30,
    And an adapter member (340) connected to an end of the joint member (330) and connected to the second hydraulic hose (400).
KR1020140160546A 2014-11-18 2014-11-18 Hose connecting structure for hydraulic breaker KR101638448B1 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
KR1020140160546A KR101638448B1 (en) 2014-11-18 2014-11-18 Hose connecting structure for hydraulic breaker

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
KR1020140160546A KR101638448B1 (en) 2014-11-18 2014-11-18 Hose connecting structure for hydraulic breaker

Publications (2)

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KR20160059496A true KR20160059496A (en) 2016-05-27
KR101638448B1 KR101638448B1 (en) 2016-07-13

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Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH035754U (en) * 1989-06-07 1991-01-21
JPH057902U (en) * 1991-07-12 1993-02-02 日立造船株式会社 Power generation facility in refuse incineration plant
KR100406201B1 (en) 1992-11-20 2003-11-06 니치아 카가쿠 고교 가부시키가이샤 Light-emitting gallium nitride-based compound semiconductor device
KR100430686B1 (en) 1996-12-31 2004-04-27 주식회사 하이닉스반도체 Method of manufacturing storage node electrode of semiconductor device for blocking diffusion paths of oxygen
KR200406201Y1 (en) * 2005-10-19 2006-01-20 주식회사 코막 Device for jointing hydraulic hose into the hydraulic breaker
JP2012067580A (en) * 2010-08-27 2012-04-05 Hitachi Constr Mach Co Ltd Work device of construction machine

Patent Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH035754U (en) * 1989-06-07 1991-01-21
JPH057902U (en) * 1991-07-12 1993-02-02 日立造船株式会社 Power generation facility in refuse incineration plant
KR100406201B1 (en) 1992-11-20 2003-11-06 니치아 카가쿠 고교 가부시키가이샤 Light-emitting gallium nitride-based compound semiconductor device
KR100430686B1 (en) 1996-12-31 2004-04-27 주식회사 하이닉스반도체 Method of manufacturing storage node electrode of semiconductor device for blocking diffusion paths of oxygen
KR200406201Y1 (en) * 2005-10-19 2006-01-20 주식회사 코막 Device for jointing hydraulic hose into the hydraulic breaker
JP2012067580A (en) * 2010-08-27 2012-04-05 Hitachi Constr Mach Co Ltd Work device of construction machine

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