KR101384177B1 - Electronic Proportional Pressure Reducing Valve - Google Patents

Abstract

In an electromagnetic proportional pressure reducing valve including a tube assembly and a plunger installed horizontally movable in an inner space of the tube assembly in response to the generation of electromagnetic force, the tube assembly includes a flange and a body. Is integrated through a permanent fastening with a non-magnetic material interposed therebetween, and a space portion is provided therein to allow horizontal movement of the plunger, and the outer circumference of the plunger is smaller than the inner diameter of the tube assembly, and is radially spaced apart. At least one thin plate is provided, and the electromagnetic proportional pressure reducing valve is characterized in that a negative induction groove for fluid induction is formed between the thin plates.
The present invention is a non-magnetic material is installed in the tube assembly facing the plunger, induces the flow of the magnetic flux, allows the plunger to reduce the magnetic resistance, smooth horizontal movement of the plunger, and through the thin plate between the inner circumference and the plunger Since the plunger is non-magnetically spaced at a predetermined distance, the plunger has an effect of preventing resistance and friction caused by magnetism. In addition, the thin plate is radially installed on the outer circumference of the plunger, thereby reducing wear due to friction with the inner circumference, and maintaining the performance of the valve and improving the performance and durability of the valve through the smooth movement of the plunger. .

Description

Electronic Proportional Pressure Reducing Valve

The present invention relates to an electromagnetic proportional pressure reducing valve for controlling the hydraulic oil pressure, and more particularly, by blocking the magnetic resistance applied to the plunger and inducing the flow, it is possible to smoothly move the plunger An electromagnetic proportional pressure reducing valve.

In general, industrial vehicles such as excavators, cranes, forklifts, and the like have a hydraulic system for driving the device, which is equipped with an electronic proportional pressure reducing valve (hereinafter referred to as a valve) for controlling the hydraulic pressure in the system.

The valve is a solenoid portion 20 for generating an electromagnetic force, the spool 11 for controlling the pressure of the fluid and the sleeve 13 and the flow path forming and supporting the valve 10 as shown in Figure 1 showing a conventional electromagnetic proportional pressure reducing valve It is largely composed of a block (not shown), the operation state and detailed configuration of each part is omitted as usual.

The solenoid portion 20 includes a housing 21, a coil 23 for generating an electromagnetic force, a plunger 27 and a plunger 27 for moving in the horizontal direction to control the movement of the spool 11 according to the electromagnetic force of the coil 23. And a tube assembly 29 housed therein.

The valve 10 selectively opens and closes each port P, A, T provided in the sleeve 13 through horizontal movement of the spool 11 to effectively control the hydraulic pressure of the hydraulic system.

At this time, the movement of the spool 11 is operated in conjunction with the horizontal movement of the plunger 27 in accordance with the generation of electromagnetic force, in the valve 10, the movement of the plunger 27 may be more important than anything.

However, in the conventional valve 10, the plunger 27 is affected by the magnetoresistance and friction caused by the generation of the electromagnetic force, so that the movement is not smooth, and the movement may be delayed by the magnetoresistance, which is a spool Not only is the movement of (11) not smooth, but there is a problem that the pressure control of the hydraulic oil is not easy due to delay or the like.

Therefore, in order to achieve effective control of the hydraulic system in the valve 10, it is urgent to develop a technology that can reduce the magnetic resistance and friction caused by the movement of the plunger 27 by controlling the smooth flow of the magnetic flux. There is an urgent need to develop a complete barrier to friction.

Therefore, the present invention has been made to solve the problems described above, the object of the present invention is to install a non-magnetic material in the tube assembly facing the plunger, induce the flow of magnetic flux, and the plunger to reduce the magnetic resistance The present invention provides an electronic proportional pressure reducing valve capable of smooth horizontal movement of the plunger.

Another object of the present invention is to provide an electromagnetic proportional pressure reducing valve capable of non-magnetizing the plunger with a predetermined distance between the inner circumference and the plunger through a thin plate, so that the plunger can prevent resistance and friction caused by magnetism.

Another object of the present invention is the thin plate is installed on the outer circumference of the plunger radially, can reduce the wear caused by friction with the inner circumference, the performance and durability of the valve through the smooth movement of the plunger as well as maintaining the performance of the valve It is to provide an electronic proportional pressure reducing valve that can improve the.

The present invention for achieving the above object in the electromagnetic proportional pressure reducing valve including a tube assembly (plunge) installed to be movable horizontally in the inner space of the tube assembly according to the generation of electromagnetic force, The tube assembly is a flange and the body is integrated through a non-magnetic material through a permanent fastening, and a space portion is provided therein to allow horizontal movement of the plunger, the outer circumference of the plunger is smaller than the inner diameter of the tube assembly Disclosed is an electromagnetic proportional pressure reducing valve having a size, and having at least one thin plate at radial intervals therebetween, and having a negative guide groove for inducing fluid therebetween.

The thin plate, in the form of a rectangular bar, preferably maintains a spaced state between the inner circumference and the plunger to prevent resistance and friction caused by magnetism.

The thin plate is preferably detachably installed through a clamping groove provided in the outer circumference of the plunger and an interference fit by indentation.

The tube assembly is made of metal, and is preferably integrated through the male clamping and welding in the press-fitted form.

The male is preferably in the form of indentation in which the inner / outer portions of the respective ends connected to each other overlap each other, or in the form of a step in which one surface is protruded between the inner and outer circumferences.

The body and the nonmagnetic body have a step shape in which each surface facing each other is symmetrical with each other, and the step shape includes a first fastening protrusion provided at the nonmagnetic end and a second fastening protrusion provided at the end of the body. It is preferable.

It is preferable that the flange and the non-magnetic body are coupled by indentation in which inner and outer circumferences of the respective surfaces facing each other are overlapped with each other, and the overlapping is preferably a shape in which the flange end is provided and the non-magnetic inner circumference. .

The tube assembly, the flange and the body is made of low carbon steel, it is preferable to block the resistance and friction of the electromagnetic force, and to induce the direction of the magnetic flux to block the magnetic resistance of the plunger.

The thin plate is made of any one of stainless steel, copper, and brass as a nonmagnetic material, and is preferably radially installed on the outer circumference of the plunger through an interference fit that is detachable from the mounting portion.

It is preferable that at least three thin plates are provided at regular intervals on the outer circumference of the plunger.

According to the configuration of the present invention, the following effects can be expected.

The present invention has a non-magnetic material is installed in the tube assembly facing the plunger, induces the flow of the magnetic flux, it is effective to enable the plunger to smooth the horizontal movement of the plunger by reducing the magnetic resistance.

The present invention is a predetermined distance between the inner circumference and the plunger through the thin plate, the non-magnetic of the plunger is possible, and thus the plunger prevents resistance and friction caused by magnetism, smooth movement of the plunger, as well as pressure control of the hydraulic oil It has an easy effect.

According to the present invention, the thin plate is installed at a radial interval on the outer circumference of the plunger to reduce wear due to friction with the inner circumference, and maintain the performance of the valve, and improve the performance and durability of the valve through the smooth movement of the plunger. It can be effective.

1 is an overall view shown to explain a conventional valve,
Figure 2 is an overall view showing for explaining a valve according to an embodiment of the present invention,
3 is a perspective view illustrating a tube assembly according to a preferred embodiment of the present invention;
4 is a cross-sectional view for explaining the coupling state of the tube assembly according to an embodiment of the present invention,
5 is a perspective view illustrating a plunger according to an embodiment of the present invention;
6 is an exploded view showing to explain the installation state of the thin plate according to an embodiment of the present invention, and
Figure 7 is a longitudinal sectional view of the plunger shown for explaining another guide groove in the preferred embodiment of the present invention.

Hereinafter, a preferred embodiment of the electromagnetic proportional pressure reducing valve according to the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

In describing the present invention, the defined terms are defined in consideration of the functions of the present invention, and they can be changed according to the intention or custom of the technician working in the field, and the definition is based on the contents throughout this specification It should be reduced.

Figure 2 is an overall view showing for explaining a valve according to an embodiment of the present invention.

As shown, the electromagnetic proportional pressure reducing valve (hereinafter, the valve 100) includes a spool 101, in which a spool 101 and a spool 101 are accommodated and a plurality of ports P, A, and T are provided. And a solenoid part (190), the solenoid portion 190 is a housing (housing (180)), the coil (coil (170)) and the rod 157 is provided with a plunger ( plunger 150) and a tube assembly (tube assembly 110) is installed, the control device is configured.

Here, a description of a conventional configuration corresponding to the prior art will be omitted, and the tube assembly 110 and the plunger 150 for smooth movement of the plunger 150 will be described in detail.

In addition, the rod rod 157 is integral with or detachable from the plunger 150 and is for connecting the plunger 150 and the spool 101 to each other. Omit.

The tube assembly 110 is installed between the body 140 and the body 140 and the body 140 and the flange 140 having the body 140 and the rod hole 121, in which the adjusting device 160 is installed. It includes a non-magnetic material 130, a predetermined space portion 111 is provided therein to enable horizontal movement of the plunger 150.

These tube assemblies 110 are integrated with each other by permanent fastening to each other, which will be described with reference to FIGS. 3 and 4.

3 is a perspective view illustrating a tube assembly according to a preferred embodiment of the present invention, and FIG. 4 is a cross-sectional view of the tube assembly.

As illustrated, the tube assembly 110 includes a body 140 on which the adjusting device 160 is installed, a non-magnetic body 130 formed of a tubular body, and a flange 120 provided with a rod hole 121. A space 111 for horizontal movement of the plunger 150 is provided.

The tube assembly 110 is made of metal and is fastened to each other by a male and a female, with the nonmagnetic body 130 interposed therebetween, after which a permanent integration is performed by welding.

Here, the male fastening is preferably in the form of a press-fit in which the inner / outer portions of the respective ends connected to each other are overlapped with each other, or a stepped shape in which one surface between the inner and outer circumferences facing each other protrudes.

That is, the body 140 and the nonmagnetic body 130 are hermetically fastened to each other through each of the first fastening protrusions 131 and the second fastening protrusions 141 having a step shape, and the flange 120 is connected to the nonmagnetic material 130. The structure is fastened to each other by a predetermined overlapping indentation, the outer periphery of the protrusion 123 and the inner circumference of the nonmagnetic material 130 is fastened to the flange 120 end by a predetermined overlapping indentation, and each fastening portion is permanently integrated by welding. To achieve.

The tube assembly 110 is made of metal, and the nonmagnetic material 130 is preferably stainless steel, and each flange 120 and the body 140 fastened about the nonmagnetic material 130 are magnetic. It is very preferable that it is a free cutting steel which is good in toughness and is easy to process, and it is very preferable that it is sum22 from which the lead component was removed.

This is to induce the flow of magnetic flux when the electromagnetic force is generated, as shown in Figure 2, to minimize the influence on the magnetic plunger 150.

That is, by installing the nonmagnetic material 130 in the area facing the plunger 150, the magnetic flux flows to the free steel (flange 120 and the body 140), and thus the plunger 150 It is possible to keep the smooth movement state by reducing the resistance and friction against magnetism.

In addition, in the tube assembly 110, the adjusting device 160 is for adjusting the pressure of the elastic body 161, that is, the pressure applied to the plunger 150, which is a conventional one, and thus, detailed description thereof will be omitted.

On the other hand, by reducing the magnetic force applied to the plunger 150 through the tube assembly 110, the horizontal movement was smooth, but for the smoother movement can be achieved by non-magnetizing the plunger 150 by completely blocking the magnetism This will be described with reference to FIG. 5.

5 is a perspective view illustrating the plunger according to the preferred embodiment of the present invention.

As shown in the figure, the plunger 150 is provided with at least one thin plate 151 on the outer circumference radially so that resistance and friction due to magnetism generated by the electromagnetic force are blocked, so that the space between the inner portion of the space 111 and the plunger 150 is separated. It is possible to minimize the wear caused by the frictional resistance with the inner portion of the space 111.

The thin plate 151 has a rectangular bar shape as shown in FIG. 6, and the thin plate 151 may be detachably installed through a clamping groove 153 provided in an outer circumferential radial direction of the plunger 150 and by a press fit. Do.

In addition, the thin plate 151 is a nonmagnetic material, and is preferably made of at least one metal of stainless steel, copper, and brass.

Such a thin plate 151 is preferably at least two or more radially on the outer circumference of the plunger 150, very preferably three or more radially as shown in FIG.

In addition, it is preferable that the guide groove 155 is further provided between the thin plates 151 to guide the flow of the fluid.

Induction groove 155 is the plunger 150 induces the flow of the hydraulic fluid in the space 111, at least minimize the rotation of the plunger 150, more stable horizontal movement of the plunger 150 is possible, the valve Responsiveness and repeatability of 100 can be improved.

Therefore, the present invention reduces the magnetic resistance and friction through the tube assembly 110, by completely blocking the reduced magnetism through the thin plate 151, smooth movement of the plunger 150, as well as reducing the wear rate of the performance of the valve 100 Of course, the performance and durability of the valve 100 can be improved.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. Therefore, the embodiments disclosed in the present invention are intended to illustrate rather than limit the scope of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas falling within the scope of the same shall be construed as falling within the scope of the present invention.

100: valve 101: spool
103: sleeve 110: tube assembly
111: space portion 120: flange
121: rod hole 123: protrusion
130: non-magnetic material 131: first fastening protrusion
140: body 141: second fastening protrusion
150: plunger 151: sheet
153: fastening groove 155: guide groove
157: rod 160: adjusting device
161: elastic body 170: coil
180 housing 190 solenoid part

Claims (10)

An electromagnetic proportional pressure reducing valve comprising a tube assembly and a plunger installed to be movable horizontally in an inner space of the tube assembly in response to the generation of electromagnetic force,
The tube assembly, the flange and the body is integrated through a permanent fastening with a non-magnetic material between, a space is provided therein to allow horizontal movement of the plunger,
The outer circumference of the plunger is a size smaller than the inner diameter of the tube assembly, at least one thin plate is provided at radial intervals, the negative induction groove for the fluid induction between the thin plate is formed Proportional pressure reducing valve. The method of claim 1,
The thin plate,
An electronic proportional pressure reducing valve having a rectangular bar shape, which maintains a spaced state between the inner circumference and the plunger to prevent resistance and friction caused by magnetism. The method of claim 1,
The thin plate,
Electromagnetic proportional pressure reducing valve, characterized in that the removable plunger is installed through the clamping groove provided in the outer circumference of the plunger and the press fit. The method of claim 1,
The tube assembly includes:
An electromagnetic proportional pressure reducing valve, which is made of metal and is integrated through a male tightening and welding in a press-fit form. 5. The method of claim 4,
The male,
An electromagnetic proportional pressure reducing valve, characterized in that the inner / outer portion of each end connected to each other is in the form of a press-in overlapping each other, or a step shape in which one surface between the inner / outer circumference protrudes. 5. The method of claim 4,
The body and the nonmagnetic material, each surface facing each other is a symmetrical step shape,
The stepped form is an electromagnetic proportional pressure reducing valve, characterized in that it comprises a first fastening protrusion provided on the end portion of the non-magnetic material, and a second fastening protrusion provided on the body end. 5. The method of claim 4,
The flange and the non-magnetic body are coupled by indentation in which inner and outer circumferences of one surface facing each other overlap each other,
The overlap is an electromagnetic proportional pressure reducing valve, characterized in that the projecting portion provided with the flange end portion is pressed into the inner circumference of the nonmagnetic material. The method of claim 1,
The tube assembly includes:
The flange and the body is made of low carbon steel, the electromagnetic proportional pressure reducing valve, characterized in that to block the resistance and friction of the electromagnetic force, to induce the direction of the magnetic flux to block the magnetic resistance of the plunger. The method of claim 1,
The thin plate,
An electromagnetic non-magnetic material, which is made of any one of stainless steel, copper, and brass, and is detachably installed through a clamping groove formed by an outer circumference of the plunger and an interference fit by pressing. 8. The method of claim 7,
The thin plate,
Electromagnetic proportional pressure reducing valve, characterized in that at least three or more are installed at regular intervals in the outer circumference of the plunger.

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