JPH0596643U - Spool valve - Google Patents

Abstract

(57) [Summary] [Purpose] To improve the response of control pressure and quality. [Structure] Auxiliary ports 55 and 42 are provided between the land portion 51 of the spool 5 and the sleeve 4 to control the opening and closing of the auxiliary ports 55 and 42 in conjunction with the control of the inflow port 2, and the control fluid is also supplied from the auxiliary ports 55 and 42. Is supplied to the outflow port 3.

Description

[Detailed description of the device]

[0001]

[Industrial applications]

 The present invention relates to a spool valve used for various oils, pneumatic control, etc.

[0002]

[Prior Art]

 A conventional spool valve of this type is shown in FIG. That is, the spool valve 100 includes a sleeve 103 having an inflow port 101 and an outflow port 102 which are axially separated from each other by a predetermined distance, and a spool 104 which is inserted into the inner periphery of the sleeve 103 so as to be movable back and forth. The pressure chamber 105 is provided at the end of the spool 104, and the solenoid main body 106 that drives the spool 104 is configured.

The spool 104 is provided with a first land portion 107 and a second land portion 108 which are axially separated from each other and are in sliding contact with the inner circumference of the sleeve 103, and the first land portion 107 and the second land portion 108 are separated from each other. An inflow port 101 and an outflow port 102 communicate with each other to form an annular flow path, and a control pressure introducing port 110 for introducing the control fluid from the inflow port 101 into the pressure chamber 105 is provided.

Then, the spool 104 is moved by turning on / off the solenoid body 106 to open / close the inflow port 101 at the first land portion 107, and balance the pressure in the pressure chamber 105 and the force in the solenoid body 106. Then, the pump pressure P _p as the supply pressure from the inflow port 101 is controlled, and the control pressure P _c that controls the pump pressure P _p by the outflow port 102 is introduced into the control target (not shown). ..

[0005]

[Problems to be solved by the device]

However, in the case of the above-mentioned conventional technique, the supply flow rate from the pump pressure P _p side as the supply pressure when the inflow port 101 is opened to increase the control pressure P _c is the inflow by the first land portion 107 of the spool 104. Since it was determined only by the opening amount X of the port 101, the stroke of the spool 104 had to be lengthened in order to increase the opening amount X. However, in consideration of the suction force of the solenoid main body 106, the opening amount X was restricted. Therefore, the response of the control pressure P _c could not be further improved.

The present invention has been made in order to solve the above-mentioned problems of the prior art. The purpose of the present invention is to provide a spool valve capable of improving responsiveness of control pressure and quality. To provide.

[0007]

[Means for Solving the Problems]

 In order to achieve the above object, according to the present invention, a spool is reciprocally inserted into an inner circumference of a sleeve, and a land portion slidably contacting the inner circumference of the sleeve is provided on the spool. In the spool valve that controls the supply pressure by changing the opening amount of the inflow port of the inflow port and the outflow port that are spaced apart by a predetermined distance, an auxiliary port is provided between the land portion and the sleeve to It is characterized by controlling the opening and closing of the auxiliary port in conjunction with the control and supplying the control fluid from the auxiliary port to the outflow port.

[0008]

[Action]

 In the spool valve having the above structure, when the opening amount of the inflow port is changed by the land part to increase the control pressure, the control fluid is interlocked with the control of the inflow port to control the opening and closing of the auxiliary port to control the auxiliary port. Since it can also be supplied to the outflow port from the above, the supply amount of the control fluid is increased, and the response of the control pressure can be improved.

[0009]

【Example】

 The present invention will be described below based on the illustrated embodiment. 1 and 2 showing a spool valve according to an embodiment of the present invention, reference numeral 1 denotes a spool valve body. The spool valve 1 has a schematic structure including an inflow port 2 and an outflow port 3. Valve sleeve 4 serving as a sleeve, a spool 5 reciprocally inserted into the inner circumference of the valve sleeve 4, a pressure chamber 6 provided at an end of the spool 5, and the valve sleeve 4 are assembled in a pair. It is composed of a solenoid body 7 for driving the spool 5.

The valve sleeve 4 has a cylindrical shape and is provided with an inflow port 2 and an outflow port 3 which are spaced apart from each other in the axial direction by a predetermined distance, and is further separated from the outflow port 3 toward the axial solenoid body 7 by a predetermined distance. A drain port 8 is provided. The spool 5 is reciprocally inserted into the inner circumference of the guide hole 41 of the valve sleeve 4, and the opening end of the valve sleeve 4 opposite to the solenoid body 7 has a convex cross section for closing the opening end. The projection 91 of the plug 9 enters into the guide hole 41 to insert and fix the plug 9, and the pressure chamber 6 is formed between the spool 5 and the plug 9.

The spool 5 is provided with a first land portion 51 and a second land portion 52 which are axially separated from each other and slidably contact the inner periphery of the guide hole 41. The first land portion 51 and the second land portion 52 are provided. An annular flow path 53 is provided between the inflow port 2 and the outflow port 3 so as to communicate with each other. Then, the first land portion 51 opens and closes the inflow port 2, and the second land portion 52 opens and closes the drainage port 8. Further, the control pressure P _c inlet 54 for introducing the control pressure P _c which is controlled by changing the opening amount X of the inlet port 2 by the first land portion 51 in the pressure chamber 6 is provided in the spool 5 .. The control pressure P _c introducing port 54 has a through hole 54A penetrating the annular flow path 53 between the first land portion 51 and the second land portion 52, and an axial pressure force from the radial center portion of the through hole 54A. The hole 54 </ b> B extends toward the chamber 6 and opens to the pressure chamber 6.

An annular groove 55 is formed in the first land portion 51, and accordingly, the first land portion 51 is divided into an A land portion 51A (on the axial plug 9 side) and a B land portion 51B. The width of the A and B lands 51A and 51B is smaller than the diameter of the inflow port 2. Further, the valve sleeve 4 is also provided with an annular recessed groove 42 on the plug 9 side from the inflow port 2 at a predetermined distance in the axial direction, and the width of the recessed groove 42 is smaller than the width of the A land portion 51A. ing. As shown in FIG. 2, the positional relationship between the groove 42, the A and B lands 51A and 51B of the first land 51, and the inflow port 2 is linked with the control of the inflow port 2 as shown in FIG. 55 and the concave groove 42 can be controlled to be opened and closed. That is, as shown in FIG. 2B, the B land portion 51B opens the inflow port 2 by the movement of the spool 5, so that the inflow port 2, the annular concave groove 55 of the first land portion 51, and the concave portion of the valve sleeve 4 are formed. The groove 42 and the pressure chamber 6 communicate with each other. Further, when controlling the supply pressure from the inflow port 2, the A land portion 51A is slidably contacted with the inner circumference of the guide hole 41 of the valve sleeve 4 as shown in FIG. The B land portion 51B can control the opening amount X of the inflow port 2 by changing it.

On the other hand, a sleeve spring 10 is interposed in the pressure chamber 6, and one end of the sleeve spring 10 enters the outer peripheral portion of the protrusion 91 of the plug 9 and abuts on the end surface of the plug 9, The end enters the outer peripheral portion of the protruding portion having a diameter smaller than that of the first land portion 51 protruding toward the plug 9 side of the spool 5 and contacts the end surface of the first land portion 51 to urge the spool 5 toward the solenoid body 7 side. There is.

The solenoid main body 7 for driving the spool 5 includes a cylindrical coil 12 housed in the inner periphery of the bowl-shaped case 11 and a magnetic body inserted in the inner periphery of one opening of the coil 12. Made center post 13 and a washer-shaped fixing plate 14 for connecting and fixing the case 11 and the center post 13 by closing one opening end of the case 11, and reciprocating freely to the inner circumference of the other opening of the case 11. And a plunger 15 made of a magnetic material to be inserted into the sleeve 4. The sleeve 4 and the solenoid body 7 are coaxially assembled in a pair by an annular member 16.

The center post 13 has a cylindrical shape, and a rod 18 having a step portion 17 is slidably inserted into the inner periphery of the center post 13 via a bearing 19. One end of the rod 18 is inserted into a through hole 15A provided in the plunger 15 and is operatively connected to the plunger 15 via a washer 20 which is engaged with a large diameter portion of the step portion 17 of the rod 18. Further, a solenoid spring 21 is provided on the other outer circumference of the rod 18, and the solenoid spring 21 has a retainer ring 22 fitted and fixed to the other outer circumference of the rod 18 and an opening end portion of the center post 13. It is interposed between the spring force adjusting members 23 fixed to, and the plunger 15 is biased toward the sleeve 4 side by the solenoid spring 21.

When the solenoid body 7 is turned on, the plunger 15 is magnetically attracted to the center post 13 against the spring force of the solenoid spring 21, and the rod 18 operatively connected to the plunger 17 is moved to the spring force adjusting member 23 side. The movement causes the spool 5 to move toward the solenoid body 7 side by the spring force of the sleeve spring 10. Therefore, the first land portion 51 moves to the solenoid body 7 side, and the opening amount X of the inflow port 2 is changed by the B land portion 51B as shown in FIG. 2 (a), and the pressure source shown in the circuit of FIG. The pump pressure P _p from the pump 24 is controlled, the control pressure P _c is output from the outflow port 3, the load volume Q of the cylinder 25 on the control pressure P _c side is satisfied, and the control target (not shown). Control). Incidentally, 26 is a tank.

In the spool valve having the above-described configuration, when the solenoid main body 7 is turned on and the current applied to the solenoid main body 7 is maximum, the spool 5 moves to the solenoid main body 7 side to the maximum so that the first land portion The A and B land portions 51A and 51B of 51 are brought into sliding contact with the inner circumference of the guide hole 41 of the valve sleeve 4 to close the inflow port 2. Therefore, the control pressure P _c 0, the pressure in the pressure chamber 6 are 0, and the opening amount X0 of the inflow port 2 is.

When the current applied to the solenoid body 7 becomes 0, the pressure in the pressure chamber 6 becomes 0, so that the plunger 15, the rod 18, and the spool 5 are momentarily moved by the spring force of the solenoid spring 21 in FIG. The inflow port 2 is largely moved to the left side, and the inflow port 2 is opened by the B land portion 51B of the first land portion 51 of the spool 5, and the control pressure P _c and the control pressure P _c introduction port 54 in the spool 5 are opened by the opening. When the pressure in the pressure chamber 6 (the same pressure as the control pressure P _c ) increases through the spool 5, the spool 5 returns to a position where it balances with the spring force of the solenoid spring 21 (to the right in FIG. 1), and the control pressure P _c Maximum, maximum pressure in the pressure chamber 6, maximum opening X of the inflow port 2 X maximum. Since the spool 5 is in the position shown in the figure until the spool 5 returns, the pump pressure P _p as the supply pressure changes the opening amount X of the inflow port 2 by the B land portion 51B. In addition to supplying the control fluid, the annular groove 55 of the spool 5 and the groove 42 of the valve sleeve 4 are also supplied. That is, through the inflow port 2, the annular groove 55 of the spool 5, the groove 42 of the valve sleeve 4, the pressure chamber 6, the control pressure P _c inlet 54 in the spool 5, and to the outflow port 3 via the flow path 53. Therefore, the supply flow rate increases and the control pressure P _c is increased.

Therefore, when the annular groove 55 of the spool 5 and the groove 42 of the valve sleeve 4 are provided to reduce the current applied to the solenoid body 7 and increase the control pressure P _c , the pump pressure P as the supply pressure is used. _p annular groove 55 to the control fluid as described above, be fed to the control pressure P _c side of Cylinders 25 through the outlet port 3 also through the control pressure P _c inlet 54 the groove 42 or al possible, the load capacity Q of the cylinder 25 is filled faster response becomes faster the control pressure P _c, it is possible to improve the responsiveness of the control pressure P _c, it is possible to improve the quality.

In the above embodiment, the solenoid main body 7 is used as the driving means for the spool 5, but the means for driving the spool 5 is not limited to the solenoid, and other fluids such as hydraulic pressure may be used. The same can be applied to those using pressure.

[0021]

[Effect of the device]

 The present invention has the above-described configuration and operation, and when the opening amount of the inflow port is changed by the land portion to increase the control pressure, the control fluid is linked to the control of the inflow port to control the auxiliary port. Since it is possible to control the opening and closing of the valve and supply it to the outflow port from the auxiliary port as well, the supply amount of the control fluid is increased, the response of the control pressure can be improved, and the quality can be improved. You can

[Brief description of drawings]

FIG. 1 is an overall vertical cross-sectional view of a spool valve according to an embodiment of the present invention.

2 is an enlarged vertical sectional view of the auxiliary port portion of FIG. 1, and FIG. 2 (a) shows a state where the annular groove of the spool and the groove of the valve sleeve are not in communication with each other. b) is a state of communication.

FIG. 3 is a circuit diagram to which the spool valve of FIG. 1 is applied.

FIG. 4 is an overall vertical sectional view of a conventional spool valve.

[Explanation of symbols]

1 spool valve 2 inflow port 3 outflow port 4 valve sleeve (sleeve) 41 guide hole 42 concave groove (auxiliary port) 5 spool 51 first land portion 51A A land portion 51B B land portion 52 second land portion 53 flow passage 54 control Pressure P _c Introduction port 54A Through hole 54B hole 55 Annular groove (auxiliary port) 6 Pressure chamber 7 Solenoid body 8 Drain port 9 Plug 91 Projection part 10 Sleeve spring 11 Case 12 Coil 13 Center post 14 Fixing plate 15 Plunger 15A Through hole 16 annular member 17 step portion 18 rod 19 bearing 20 washer 21 solenoid spring 22 retainer 23 spring force adjusting member 24 pump 25 cylinder 26 tank

Claims (1)

[Scope of utility model registration request] 1. A spool is reciprocally inserted into an inner circumference of a sleeve, and a land portion is provided on the spool so as to be in sliding contact with the inner circumference of the sleeve, and the land portion is provided at a predetermined axial distance from the sleeve. In a spool valve that controls the supply pressure by changing the opening amount of the inflow port and the outflow port, an auxiliary port is provided between the land portion and the sleeve to control the opening and closing of the auxiliary port in conjunction with the control of the inflow port. Then
A spool valve that supplies control fluid from an auxiliary port to an outflow port.