KR101978226B1 - Apparatus for reducing fluid shock of sequence valve - Google Patents

Abstract

The present invention relates to an apparatus for relieving the impact of a working fluid in a sequence valve, comprising: a body (10) having a cushioning space (15); An operating means 20 having a spool guide 21 and a spool 25 connected to one side of the body 10 to communicate with the buffer space 15; Adjusting means (30) having a vibration damping rod (33) and a cone spring (35) accommodated in a cushioning space (15) of the body (10); And an SMA disc (40) interposed between the actuating means (20) and the adjusting means (30).
Accordingly, the present invention has the effect of improving the convenience and practicality of the actual use by the active control corresponding to the change of physical properties of the operating oil in suppressing the vibration and noise caused by the cavitation of the operating oil by applying the structure to the sequence valve.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a hydraulic pressure sequence valve, and more particularly, to a fluid shock damping device for a sequence valve for suppressing vibration and noise caused by cavitation due to pressure drop of operating oil during operation.

Normally, a sequence valve controls an operation sequence by a pressure or the like when a branch circuit is provided by a plurality of actuators (actuators), and is used for a heavy equipment, a processing machine, an injection machine, and the like. During the operation of the sequence valve, the pressure of the operating oil drops below the saturated vapor pressure, and the gas component is separated to induce cavitation. Therefore, cavitation bubbles cause vibration and noise as well as rapid durability degradation.

As a prior art document which can be referred to in order to solve such a problem, a patent document such as Korean Patent Laid-Open Publication No. 2016-0081045 is known.

Comprising: a valve body having a chamber communicating with a flow path; And an upper opening and closing member and a lower opening and closing member which are provided so as to rise and fall in correspondence with each other on the upper side and the lower side of the chamber of the valve body to close the flow path by opening or separating the flow path. Thus, cavitation and vibration reduction are expected by permitting only a part of the flow of the fluid at the beginning of the opening.

As another prior art document, Korean Patent Registration No. 1384718 by the present applicant can be referred to.

Body; Spool guide; spool; A connecting sheet having a seat spring receiving groove formed therein; Rear end pressure spring; An elastic adjustment block including a block spring seating groove, a body engagement surface, and a locking nut; And a vibration damping rod extending and positioned between the block spring seat groove and the seat spring seat groove in the rear end pressure spring.

However, according to the above-mentioned prior art, since the physical properties of the working fluid are changed during the winter season and the summer season, it is troublesome to periodically change the control state, and as a result, the effectiveness of the vibration reduction caused by the citation is insufficient.

Korean Patent Laid-Open Publication No. 2016-0081045 entitled " Gate Valve for Cavitation and Vibration Prevention " (Publication Date: Jul. Korean Patent Registration No. 1384718 entitled " Sequence control valve with reduced cavitation vibration " (published on Apr. 29, 2014).

SUMMARY OF THE INVENTION It is an object of the present invention to overcome the above-mentioned problems of the prior art by providing a method of controlling vibration and noise caused by cavitation of operating oil in an operating process based on a simple and lightweight structure, So that it is possible to increase the efficiency of actual use.

In order to achieve the above object, the present invention provides an apparatus for relieving impact of a working fluid in a sequence valve, comprising: a body having a buffer space; An operating means having a spool guide and a spool coupled to one side of the body in communication with the buffer space; Adjusting means having a vibration damping rod and a conical spring received in a buffer space of the body; And an SMA disc interposed between the actuating means and the adjusting means.

In the detailed construction of the present invention, the adjusting means is characterized in that a conical spring is coupled concentrically to one end and the other end of the vibration damping rod.

As a detailed configuration of the present invention, the SMA disk is formed to have a trapezoidal cross section in which a wheel portion, a small wheel portion, and a connecting portion are integrally joined.

As a modification of the present invention, the connection part is further provided with an elastic part for maintaining the functionality of bidirectional shape memory.

As a detailed configuration of the present invention, the operating means further includes an SMP tube for causing a change in sectional area on the flow path of the spool guide at a set temperature.

In the detailed construction of the present invention, the SMP tube is characterized by forming an annular groove on the outer circumferential surface to induce uniform shrinkage of the neck portion on the inner side.

As a modification of the present invention, an elastic portion is provided between the groove and the neck portion to maintain the functionality of the bidirectional shape memory.

As described above, according to the present invention, in order to suppress the vibration and noise caused by the cavitation of the operating oil, the sequence valve is applied in a thin and simple structure to improve the convenience and practicality of the actual use by the active control corresponding to the change in physical properties of the operating oil .

Brief Description of the Drawings Fig.
2 is a schematic diagram showing an SMA disk operation of a device according to the present invention;
Figure 3 is a schematic diagram showing the SMP tube operation of the device according to the invention
4 is a configuration diagram showing a main operation state of the apparatus according to the present invention;

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The present invention proposes an apparatus for relieving the impact of a working fluid in a sequence valve. The present invention is directed to a sequence valve applied to a heavy equipment, a processing machine, an injection machine, and the like, but is not limited thereto. The impact of the working fluid is caused by cavitation as mentioned in the prior art document 2.

The body (10) according to the present invention is a structure having a buffer space (15). The body 10 has a cylindrical structure and an arm spiral at one end and the other end of a cushioning space 15 penetrating the body in a cylindrical shape. The cushioning space 15 accommodates the actuating means 20 described below to directly reduce vibration and noise caused by cavitation.

According to the present invention, the operating means 20 has a spool guide 21 and a spool 25 which are connected to one side of the body 10 so as to communicate with the cushioning space 15. The spool guide 21 has a cylindrical structure which is coupled to one end of the body 10 and has a plurality of ports connected to an inner space passing through a cylindrical shape. In FIG. 1, the spool guide 21 is illustrated as having a front port 22 and a rear port 23. The spool 25 has a cylindrical structure slidably coupled to the inner space of the spool guide 21 and has a vertical flow passage 27 and a horizontal flow passage 28 in addition to the inlet passage 26 at one end. The vertical flow passage 27 communicates with the inlet flow passage 26 in a direction perpendicular to the inlet flow passage 26 while the horizontal flow passage 28 is formed horizontally on a circumference separated from the inlet flow passage 26.

According to the state of Fig. 1, when the pressure of the inlet flow passage 26 is lower than the set value, the working fluid which has been supplied to the front port 22 can not be transmitted to the ports 22 and 23, To the port (23).

On the other hand, an adjusting screw 31 is tightly coupled to the other side of the body 10 through a lock nut so as to communicate with the buffer space 15.

According to the present invention, the adjusting means (30) has a vibration damping rod (33) and a conical spring (35) accommodated in a buffer space (15) of the body (10). Basically, the vibration damping rod 33 and the conical spring 35 perform the same function as the vibration damping rod 70 and the rear end pressure spring 50 of the above-described prior art document 2. In other words, vibration (noise) is reduced corresponding to the reciprocating stroke of the spool 25 by the sequential operation of the vibration damping rod 33 and the conical spring 35. The initial attenuation by the cone spring 35 and the attenuation by the vibration attenuation rod 33 and the cone spring 35 in addition to the attenuation of the end of the stroke in the vibration attenuating rod 33 can be performed.

As a detailed construction of the present invention, the adjusting means (30) is characterized in that a conical spring (35) is coupled concentrically to one end and the other end of the vibration damping rod (33). As shown in Fig. 1, the large-diameter portion of the conical spring 35 is disposed on the side of the spool 25, and the large-diameter portion of the elastic portion 45 on the other end is disposed toward the adjusting screw 31 side. The small-diameter portion of the opposing conical spring 35 is tightly engaged with the vibration damping rod 33. With such a configuration, the three attenuation modes described above can be implemented and the size of the attenuation mode can be reduced to realize a slim and compact design. Filling the buffer space 15 of the body 10 with an action fluid or a separate fluid is advantageous for alleviating operating noise and improving durability of the adjustment means 30. [

According to the present invention, the SMA disk 40 is interposed between the actuating means 20 and the adjusting means 30. The SMA disk 40 is formed of a shape memory alloy (Shape Memory Alloy) which is restored to a shape memorized at a predetermined temperature. 1 illustrates a state in which the SMA disc 40 is interposed in contact with the conical spring 35 of the adjusting means 30 and the spool 25 of the actuating means 20, respectively. It is possible to omit the illustration of the SMA disk 40 and to coat synthetic resin for improving the physical properties on both sides of the SMA disk 40.

The SMA disk 40 is formed in a trapezoidal cross section in which the wheel portion 41, the small wheel portion 42, and the connecting portion 43 are integrally joined. The outer diameter of the small wheel portion 42 is formed to be smaller than the inner diameter of the outer wheel portion 41 and the connecting portion 43 is formed to be in contact with the large diameter portion of the conical spring 35, . According to such a configuration, it is possible to reduce the size of the SMA disk 40 and increase the operational reliability of shrinkage / expansion as shown in Figs. 2 (a) and 2 (b). Fig. 2 (b) shows an initially expanded shape of the SMA disc 40. Fig. 2 (a) illustrates a shape contracted by an external force.

As a modification of the present invention, the connection portion 43 is further provided with an elastic portion 45 for maintaining the functionality of bidirectional shape memory. 2, the elastic portion 45 is shown only in a part of the connecting portion 43, but the entire connecting portion 43 can extend to the wheel portion 41 and the small wheel portion 42 as well. The elastic portion 45 may be formed as a rod-like metal or resin having elasticity. The SMA disc 40 assists the one-way operation by the resilient portion 45 in terms of practical applicability, although bi-directional actuation between Figs. 2 (a) and 2 (b) is preferred. In any case, the operating temperature of the SMA disc 40 is set based on the seasonal (seasonal and summer) temperature of the sequence valve.

The operating means 20 further comprises an SMP tube 50 for causing a change in cross sectional area of the flow path of the spool guide 21 at a set temperature. The adjusting means 30 and the SMA disc 40 attenuate the cavitation induced vibration by the spool 25 but it is basically difficult to mitigate the cavitation. Proper cavities must be maintained in addition to the appropriate stroke rate for cavitation relaxation by the working fluid, but the viscosity change of the fluid increases during the winter and summer. The SMP tube 50 is formed of a shape memory polymer based on a polymer having abrasion resistance, oil resistance, and heat resistance. (Vitrification) temperature of the SMP tube 50 is set based on the seasonal (seasonal and summer) temperature of the sequence valve.

As a detailed configuration of the present invention, the SMP tube (50) is characterized in that an annular groove (51) is formed on the outer peripheral surface to induce uniform contraction of the neck portion (53) inward. The SMP tube 50 has a cylindrical structure and is arranged so that the groove 51 and the neck portion 53 are opposed to each other at an intermediate portion thereof. Fig. 3 (b) illustrates an initially contracted shape of the SMP tube 50, and Fig. 3 (a) illustrates an expanded shape due to an external force. 3 (b), the neck portion 53 appears in the summer when the neck portion 53 does not appear in the state of FIG. 3 (a) in the winter and the viscosity of the fluid is maintained at a constant flow path cross-sectional area. In this process, the groove 51 assists the shrinkage behavior of the material so that the neck 53 is uniformly contracted. If the contraction of the neck portion 53 becomes uneven, it may act as another cavitation factor.

As a modification of the present invention, an elastic portion 55 is further provided between the groove 51 and the neck 53 to maintain the functionality of the bidirectional shape memory. 3 illustrates a state in which the elastic portion 55 is wider than the width of the groove 51. FIG. The elastic portion 55 may be formed as a rod-shaped metal or resin having elasticity. The basic function of the elastic portion 55 is the same as that of the elastic portion 45 of the SMA disc 40 described above.

4A and 4B illustrate a state in which the pressure in the inlet passage 26 of the spool 25 exceeds a predetermined value and the fluid moves to the front port 22 and the rear port 23 is blocked . 4A corresponds to a state in which the SMA disc 40 is expanded as compared with the state shown in FIG. 4B, and the viscosity of the operating fluid is lowered during the summer season and the impact force of the spool 25 is increased. In the summer, vibration is relieved in Fig. 4 (a) and cavitation is relieved in Fig. 3 (b).

According to the present invention, even if the operation of unscrewing or tightening the adjustment screw 31 during the winter season and the summer season is relaxed or eliminated in the equipment to which the sequence valve is applied, the operation of the adjustment means 30, the SMA disc 40, the SMP tube 50 It is possible to prevent vibration and noise caused by cavitation.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention. It is therefore intended that such variations and modifications fall within the scope of the appended claims.

10: Body 15: Buffer space
20: actuating means 21: spool guide
22: front port 23: rear port
25: spool 26: inlet channel
30: adjusting means 31: adjusting screw
33: vibration damping rod 35: conical spring
40: SMA disk 41:
42: small wheel section 43:
45: elastic part 50: SMP tube
51: groove 53: neck
55:

Claims (7)

An apparatus for relieving an impact of a working fluid in a sequence valve, the apparatus comprising:
A body 10 having a buffer space 15;
An operating means 20 having a spool guide 21 and a spool 25 connected to one side of the body 10 to communicate with the buffer space 15;
Adjusting means (30) having a vibration damping rod (33) and a cone spring (35) accommodated in a cushioning space (15) of the body (10); And
And an SMA disc (40) interposed between the actuating means (20) and the adjusting means (30)
The SMA disk 40 is formed in a trapezoidal cross section in which a wheel portion 41, a small wheel portion 42, and a connecting portion 43 are integrally joined,
Characterized in that the operating means (20) further comprises an SMP tube (50) for causing a change in sectional area on the flow path of the spool guide (21) at a set temperature. The method according to claim 1,
Wherein the adjusting means (30) comprises a conical spring (35) coupled to one end and the other end of the vibration damping rod (33) concentrically. delete The method according to claim 1,
Characterized in that the connection part (43) further comprises an elastic part (45) for maintaining the functionality of the bi-directional shape memory. delete The method according to claim 1,
Wherein the SMP tube (50) has an annular groove (51) formed in its outer circumferential surface to induce uniform contraction of the neck (53) inward. The method of claim 6,
Further comprising an elastic portion (55) between the groove (51) and the neck portion (53) for maintaining the functionality of bidirectional shape memory.

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