KR102003929B1 - A relief valve for Oil filter of hydraulic pump - Google Patents

Abstract

The present invention relates to a relief valve having an outer bypass-typed discharge hole for preventing increase of the oil temperature of a hydraulic pump, to prevent overload of the hydraulic pump. According to the present invention, a relief valve is coupled to one side of an oil filter of a hydraulic pump to perform a role of a safety valve while always checking a discharge pressure. An inlet hole corresponding to a discharge hole of a filter body is formed in a body of the relief valve and an outlet hole is formed on the other side of the oil filter facing the inlet hole.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a relief valve for an oil pump,

A relief valve is provided at one side of an oil filter of a hydraulic pump so as to function as a safety valve while checking a discharge pressure at all times. An inlet hole corresponding to the discharge hole of the filter body is formed in the body of the relief valve, And a discharge hole is formed on the other side opposite to the hole so that the discharge hole is rapidly discharged to the outside when the working fluid (oil) overflows and flows through the inlet hole by more than the set pressure. (Recovery) of the hydraulic pump to prevent an overload of the hydraulic pump and to greatly improve the durability of the apparatus and the precision of valve operation. The relief valve includes an outer bypass type discharge hole will be.

Generally, a relief valve discharges part or all of the working fluid flowing in the flow path when the pressure of the flow path reaches the set pressure of the valve, thereby maintaining the pressure in the flow path below the set value, Which is a kind of pressure control valve.

In the conventional relief valve, when the working fluid is discharged through the discharge pipe, the communication hole connected to the pump is recycled into the hydraulic pump to regulate the pressure. This circulating fluid is recirculated into the pump in the state where heat is generated This causes an overload of the hydraulic pump, shortening the lifetime of the entire apparatus, and lowering the precision of opening and closing the relief valve.

In addition, when the piston reciprocates in the sleeve, the conventional relief valve causes a high friction coefficient in the axial direction to cause damage due to abrasion damage, which is difficult to smoothly interrupt the flow path due to the durability of the valve itself. A problem that precise control is difficult also occurs.

1. Korean Patent Publication No. 10-2004-0023219 (published on March 18, 2004)

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is a technical object of the present invention to provide a relief valve that is coupled to one side of an oil filter of a hydraulic pump, And a discharge hole is formed on the other side opposite to the inflow hole so that the discharge hole is rapidly discharged to the outside when the working fluid (oil) flows over the set pressure through the inflow hole It is an object of the present invention to prevent overheating of a hydraulic pump by preventing circulation (recovery) of an exothermic fluid to the inside of a hydraulic pump, and to greatly improve device durability and valve operation precision.

In addition, the present invention allows the relief valve externally coupled to the filter body to be easily disassembled and assembled, which facilitates individual handling of consumables during exchange, replacement and maintenance of each part, So that a convenient and safe workability can be ensured.

In addition, the needle valve of the present invention has a groove for friction coefficient reduction formed on one side of the axial outer circumferential surface to greatly improve the movement mobility and open / close performance during sliding opening and closing by hydraulic pressure.

Further, in the present invention, at least one pressure-retaining hole is formed on the rim of the groove for reducing the friction coefficient so that the intermittently leaked fluid can be discharged at all times by the discharge hole, Thereby preventing the use of the needle valve and the activity of the needle valve from being impeded in principle.

In order to achieve the above object, the present invention is characterized in that a communication hole 110, a valve mounting hole 120 and a cap cover assembly hole 130 are formed in order along the longitudinal direction inside the body, An inlet hole 140 is formed in an orthogonal direction to correspond to the discharge hole 17 of the filter body 10 and a discharge hole is formed in a direction orthogonal to the longitudinal direction of the valve mounting hole 120 150) for discharging the overflowed fluid to the outside when the working fluid of the hydraulic pump (P) overflows to a set pressure or more; The fluid is introduced into the valve mounting hole 120 and slid along the longitudinal direction to open the communication hole 110 and the discharge hole 150 when the fluid having the set pressure or more flows through the inlet hole 140, A pressing surface 220 is formed at one end of the cylindrical tube 210 in the longitudinal direction so as to block the opening of the communication hole 110 and to intermittently cover the opening of the communication hole 110, And a needle valve (200) having a through hole (230) formed at the other end thereof so that the close end (311) of the spring (310) is embedded in the space (240) of the circular tube. A spring cap 320 is provided to press the support end 312 of the opposite side opposite to the close end of the spring 310 inserted into the space 240 of the circular tube so as to adjust the tension, The cap 320 is mounted on the inner receiving groove 331 of the spring cover 330 such that the one push surface 321 is pressed or separated by the close contact 341 of the adjusting bolt 340 so that the tension is adjusted A tension adjuster 300 for adjusting the tension; .

Accordingly, the needle valve 200 is formed with a recess 250 for reducing the friction coefficient on the outer circumferential surface in the longitudinal direction of the cylindrical tube 210, so that the sliding movement of the needle valve 200 due to the hydraulic pressure can be greatly improved.

In addition, at least one pressure holding hole 260 is formed in the groove for reducing the friction coefficient, so that the intermittently leaked fluid can be discharged at all times by the discharge hole, so that the pressure in the storage groove, Is prevented from being inhibited.

The adjustment bolt 340 is formed such that a bolt head 342 for disengaging is formed at the opposite end opposite to the tightening end 341. The adjustment bolt 340 is engaged with the coupling jaw 332 of the spring cover 330, And a lock nut 343 is provided on the line of the adjusting bolt 340. When the spring force of the spring cap 320 is set by setting the tension based on the outer peripheral surface of the coupling step 332, Is prevented.

As described above, according to the present invention, there is formed an inflow hole corresponding to the discharge hole of the filter body in the body, and a discharge hole is formed in the other side opposite to the inflow hole. When the working fluid (oil) This makes it possible to prevent the fluid from being circulated (recovered) back to the inside of the hydraulic pump, thereby preventing the overload of the hydraulic pump and greatly improving the durability of the apparatus and the valve operation precision .

In addition, the present invention allows the relief valve externally coupled to the filter body to be easily disassembled and assembled, which facilitates individual handling of consumables during exchange, replacement and maintenance of each part, Thereby ensuring a convenient and safe workability.

In addition, the needle valve of the present invention has a groove for reducing the friction coefficient on one side of the axial outer circumferential surface, and has an effect of greatly improving the movement mobility and opening / closing performance during sliding opening and closing by hydraulic pressure.

Further, in the present invention, at least one pressure-retaining hole is formed on the rim of the groove for reducing the friction coefficient so that the intermittently leaked fluid can be discharged at all times by the discharge hole, It is effective to prevent the use of the needle valve and the activity of the needle valve from being impeded.

1 is a longitudinal sectional view of a relief valve according to the present invention,
2 is a perspective view of an example of a needle valve according to the present invention,
3 is an illustration of a fluid flow of a relief valve according to the present invention,
FIG. 4 is an illustration showing that the relief valve according to the present invention is connected to a hydraulic pump in a state where it is coupled to an oil filter;
5 is a cross-sectional view of another side of the relief valve and oil filter shown in FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described in detail below with reference to the accompanying drawings.

1 to 5, the present invention mainly comprises a body 100, a needle valve 200, and a tension control assembly 300.

The body 100 is formed with a communication hole 110, a valve mounting hole 120, and a cap cover assembly hole 130 in this order along the longitudinal direction.

An inlet hole 140 is formed in the end of the communication hole 110 in a direction orthogonal to the outlet hole 17 so as to correspond to the discharge hole 17 of the filter body 10, When the working fluid of the hydraulic pump P overflows to a predetermined pressure or more, the overflowed fluid is formed to be discharged to the outside.

To be more specific, the side surface of the inflow hole on which the opening is formed is formed such that the body itself is disassembled and assembled on the basis of the filter body while screwing the separate fastening bolts to the side facing the discharge hole side of the filter body.

At this time, the valve mounting hole 120 has a diameter slightly wider than the diameter of the communication hole 110 in order to ensure easy discharge of the fluid.

In addition, a cap cover assembly hole 130 is formed in the rear of the valve mounting hole. The cap cover assembly hole is formed in such a manner that the assembly end 337 of the spring cover 330 described later corresponds to the cap cover assembly hole.

The hexagonal head bolt 334 is formed between the assembling end 337 and the engaging jaw 332 so that the hexagonal head bolt 334 can easily be used as a staple or a spanner, And is disengaged.

An O-ring groove 336 having an O-ring 335 is formed at a corner connecting portion of the hexagonal head bolt 334 abutting on the assembly end 337, And is configured to perform leakage prevention and confidentiality in response.

The needle valve 200 is inserted into the valve mounting hole 120 and slides along the longitudinal direction so that the fluid having a predetermined pressure or higher is introduced into the communication hole 110 and the discharge hole 150 when entering through the inlet hole 140 A cylindrical tube 210 is formed to open and provide a discharge path for the fluid.

A pressing surface 220 is formed at one longitudinal end of the cylindrical tube 210 so as to block the opening of the communication hole 110 and a through hole 230 is formed at the other end opposite to the pressing surface 220. [ And the fastening end 311 of the spring 310 is formed to be embedded in the space 240 of the circular tube.

Accordingly, the needle valve 200 is formed with a recess 250 for reducing the friction coefficient on the outer circumferential surface in the longitudinal direction of the cylindrical tube 210, so that the sliding movement of the needle valve 200 due to the hydraulic pressure can be greatly improved.

In addition, at least one pressure holding hole 260 is formed in the groove for reducing the friction coefficient, so that the intermittently leaked fluid can be discharged at all times by the discharge hole, so that the pressure in the storage groove with the spring cap is increased, So as to prevent the activity from being inhibited.

In this case, the pressing surface 220 of the needle valve is formed such that a contact-type inclined surface 221 such as a trapezoidal shape is formed on the outer peripheral edge, and a chamfered surface 111 (corresponding to the inclined surface) Is formed so as to enlarge the openness of the fluid, and is formed so as to enhance the interruption and tightness.

In addition, the circular tube may further include a slope protrusion 270 for increasing the flow rate in the shape of a hemisphere or a cone on the surface of the pressing surface opposite to the communication hole, so that the fluid, which is being conveyed toward the discharge hole, It is preferable that the curved slope section is formed such that the resistance of the flow velocity is minimized so as to smoothly discharge the oil to the discharge hole.

The tension adjusting assembly 300 may press the supporting end 312 on the opposite side opposite to the close end of the spring 310 inserted into the space 240 of the cylindrical tube to adjust the tension A spring cap 320 is provided.

At this time, when the one-side push surface 321 is pressed or separated by the close contact end 341 of the adjustment bolt 340 in a state where the spring cap 320 is mounted on the inner receiving groove 331 of the spring cover 330, So that the tension is adjusted.

The adjustment bolt 340 is formed such that a bolt head 342 for disengaging is formed at the opposite end opposite to the tightening end 341. The adjustment bolt 340 is engaged with the coupling jaw 332 (Not shown).

At this time, a locknut 343 is provided on the line of the adjusting bolt 340 to prevent the spring cap 320 from flowing when the tension set on the outer peripheral surface of the coupling step 332 is set.

The spring cap 320 has a fixing protrusion 322 formed on a surface of the spring cap 320 which abuts on the supporting end of the spring so as not to detach the supporting end of the spring, and a sliding surface 322 formed between the fixing protrusion 322 and the push surface 321 323 are formed with a packing groove 325 in which the packing 324 is received so that the greasy fluid introduced through the pressure holding hole 260 of the needle valve is not leaked to the adjustment bolt 340 side.

At this time, the protective cap 400 is provided on the outer circumferential surface on which the adjusting bolt is disposed. In the protective cap 400, when the adjusting bolt is housed in the protective cap 400, the female screw 410, And the male screw 337 formed on the outer peripheral surface of the female screw 332.

Next, the relief valve according to the present invention is coupled to the oil filter and the oil filter is operated in conjunction with the hydraulic pump.

First, the filter main body 10 of the oil filter is formed as an upper opened housing and a compartment for each passageway is formed therein. A female screw 11 is formed on the periphery of the opened top of the filter main body 10.

An inflow hole 12 penetrating in the transverse direction is formed at one side of the outer periphery of the filter body 10 and a fluid communicating with the inflow hole 12 in a direction perpendicular to the inflow hole 12 passes through the inflow hole 12, So that the upward flow path 13 is formed.

The upwardly transported fluid is directed downward through the inner oil hole 22 while passing through the filter cartridge 20, and such fluid is formed to flow into the through hole 14 connected to the filter cartridge 20.

The fluid conveyed to the through-hole 14 passes through the suction hole P-1 of the pump P via the discharge hole 15 by the vacuum pressure in the pump P, And then discharged to the oil outlet.

At this time, the filter main body is formed with a relief valve (A) for checking the discharge pressure of the pump (P) as a safety valve at one side.

When the back pressure of the relief valve A is higher than a set pressure as described above, the relief valve A is delivered to the bypass hole 18 through the return hole P-2 of the pump P, The fluid passes through the discharge hole 17 of the filter main body and then flows through the inflow hole 140 and the communication hole 110 formed in the body of the relief valve to discharge or discharge the needle valve 200 to or from the discharge hole 150 .

At this time, a connection hole 19 communicating with the through hole 14 in a direction orthogonal to the through hole 14 is formed at one side of the filter body. The input end of the vacuum gauge 50 is connected to the connection hole 19, P to be able to grasp the internal vacuum state when sucked by the negative pressure.

At this time, the filter main body 10 is formed with a screw fastening hole 11-1 penetrating up and down on the surface without interference with the flow path up hole 13 and the through hole 14, Respectively.

In addition, the filter body 10 is formed with a fastening pipe 11-2 projecting upward from its upper end, and a female screw 11 is formed on the inner circumference of the fastening pipe 11-2, The first packing 11-3 is coupled to the lower portion 11 to secure an internal vacuum when assembled with the cap cover 30.

At this time, the filter main body 10 is formed such that the same second flow path elevating hole 11-4 is formed on the opposite side opposite to the flow increasing hole 13, And a second inflow hole (11-5) is formed at one side of the first inflow hole (11-5), which can selectively pass according to the connection state of the pipe.

The filter body 10 is formed so that the inflow hole 12 is connected to the oil tank and the discharge hole 15 is connected to the suction side of the pump P. [

The filter cartridge 20 is formed with a fitting tube 21 at a lower end portion to be fitted to the through hole 14 of the filter body and a through hole 14 is formed in the upper portion of the fitting tube 21 And a filter member 23 is formed on an outer circumferential surface of the oil hole 22 so as to filter the fluid conveyed through the oil hole 13.

At this time, the filter cartridge 20 is configured such that the fitting tube 21 is fitted in the through hole 14 of the filter body, and the sealing packing 24 is coupled to the inner circumference of the fitting tube 21 when assembled, do.

The cap cover 30 covers the outer circumferential surface of the filter member 23 of the filter cartridge 20 coupled to the filter body 10 so that the inner space portion 31 is maintained in a vacuum state, On the lower outer peripheral surface of the tank shape, a male screw portion 32 is formed so as to correspond to the female screw portion 11 of the filter main body.

At this time, the cap cover 30 is configured such that the second packing 33 is coupled to one side of the outer circumferential surface of the male screw portion to secure an internal vacuum when coupled with the filter body 10.

The cap cover 30 is configured to form an auxiliary rectangular nut 34 on one side of the upper end so as to facilitate opening and closing when the cap cover 30 is disassembled and coupled with the filter body 10.

The vacuum gauge 50 is coupled to the connection hole 19 of the filter main body to grasp the internal vacuum state of the cap cover 30 coupled with the filter main body 10, .

At this time, the vacuum gauge 50 is structured such that the coupling end 51 is screwed to the coupling hole 19 of the filter body to be disassembled and assembled.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention as defined by the appended claims and their equivalents. Of course, such modifications are within the scope of the claims.

10 ... filter body 11 ... female threaded portion
12 ... Inlet ball 13 ... Inlet ball
14 ... Through hole 15 ... Exhaust hole
17 ... discharge hole
18 ... Bypass ball 19 ... Connection ball
20 ... filter cartridge 21 ... fitting pipe
22 ... oil ball 23 ... filter element
30 ... cap cover 31 ... space portion
32 ... male thread part
50 ... vacuum gauge 51 ... coupling stage
100 ... body 110 ... communicating ball
111 ... Chamfer face
120 ... Valve mounting hole 130 ... Cap cover assembly
140 ... Inlet Ball 150 ... Outlet Ball
200 ... Needle valve 210 ... Cylindrical tube
220 ... pressing surface 221 ... inclined surface
230 ... through hole
240 ... space 250 ... groove for reducing the friction coefficient
260 ... pressure maintaining ball
300 ... Tension adjustment tool Assei 310 ... spring
311 ... tight contact 312 ... supported
320 ... spring cap 321 ... push face
330 ... spring cover 331 ... storage groove
332 ... engaging jaw 333 ... screw groove
334 ... Hexagon bolt part 335 ... O-ring
336 ... O-ring groove 337 ... assembly stage
341 ... tight end 342 ... bolt head
343 ... Lucknow
400 ... protective cap

Claims (3)

The valve hole 120 and the cap cover assembly 130 are formed in order along the longitudinal direction in the body so that the inlet hole 140 is formed in the direction perpendicular to the end of the communication hole 110, And a discharge hole 150 is formed in a direction orthogonal to the longitudinal direction of the valve mounting hole 120 so as to correspond to the discharge hole 17 of the hydraulic pump P (100) for discharging the overflowed fluid to the outside when the working fluid of the working fluid flows over the set pressure. The fluid is introduced into the valve mounting hole 120 and slid along the longitudinal direction to open the communication hole 110 and the discharge hole 150 when the fluid having the set pressure or more flows through the inlet hole 140, A pressing surface 220 is formed at one end of the cylindrical tube 210 in the longitudinal direction so as to block the opening of the communication hole 110 and to intermittently cover the opening of the communication hole 110, And a needle valve (200) having a through hole (230) formed at the other end thereof so that the close end (311) of the spring (310) is embedded in the space (240) of the circular tube. A spring cap 320 is provided to press the support end 312 of the opposite side opposite to the close end of the spring 310 inserted into the space 240 of the circular tube so as to adjust the tension, The cap 320 is mounted on the inner receiving groove 331 of the spring cover 330 such that the one push surface 321 is pressed or separated by the close contact 341 of the adjusting bolt 340 so that the tension is adjusted A tension adjuster assembly 300 is provided; A relief valve having an externally bypass type discharge hole for preventing an oil temperature rise of a hydraulic pump constituted by the relief valve,
The needle valve 200 is formed to have a groove 250 for friction coefficient reduction on the outer circumferential surface in the longitudinal direction of the cylindrical tube 210 so as to greatly improve movement mobility and opening and closing performance during sliding opening and closing by hydraulic pressure, The adjusting bolt 340 is formed in a screw groove formed in the engaging step 332 of the spring cover 330 so as to form a bolt head 342 for disengaging at the opposite end opposite to the fastening end 341, And the locknut 343 is provided on the line of the adjustment bolt 340 so that the spring cap 320 can be prevented from flowing when the tension set on the basis of the outer circumferential surface of the coupling step 332 is set. And one or more pressure holding holes 260 are formed in the friction coefficient reducing recess 250 so that the intermittently leaked fluid is always discharged to the discharge hole 150 through the pressure holding hole 260, Inside the receiving groove 331 in which the cap is mounted The needle valve is configured to prevent the needle valve from being hindered by the increase of the pressure, and the pressing surface (220) of the needle valve is formed with a contact slope (221) such as a trapezoidal shape at the outer peripheral edge, The chamfered surface 111 corresponding to the inclined surface is formed on the discharge side end of the cylindrical pipe so as to enlarge the openness of the fluid, And a slope protrusion (270) for increasing the flow rate of the oil in the form of a cone.
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