JP2009079743A - Solenoid valve - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a solenoid valve wherein a sleeve having an orifice can be fixed to a valve body at an adequate position without requiring temporarily assembling or disassembling work and using adhesive or welding. <P>SOLUTION: The solenoid valve comprises a poppet 13 to be operated with electromagnetic force, and the sleeve 11 having the orifice 12. With the operation of the poppet 13, a front end 13a of the poppet 13 closely contacts/leaves the orifice 12 to control a flow through the orifice 12. The sleeve 11 is threaded to a base 17 as part of the valve body for adjusting the stroke amount of the poppet 13. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a solenoid valve that is used in general hydraulic equipment and is controlled to open and close by electromagnetic force.

  Conventionally, in a solenoid valve, as shown in FIG. 3, in order to keep the stroke amount of the poppet 103 with respect to the orifice (flow rate control hole) 102 provided in the sleeve 101 within a specified value range, conventionally, a plurality of solenoid valves having different thicknesses are used. The shim 104 (made of iron or stainless steel) is prepared, the shim 104 having an appropriate thickness is selected, and the poppet 103 is assembled between the spring 105 pressing the poppet 103 against the seat surface and the core 106 constituting the valve body. Further, as shown in FIG. 4, the sleeve 101 is fixed to the base 107 constituting the valve body with an adhesive at an appropriate position.

Further, Patent Document 1 discloses a method of adjusting the position of the valve body with respect to the valve seat by screwing the drive shaft and the one end side shaft of the valve and adjusting the screwing amount.
JP 7-253173 A

  However, in the adjustment method using the shim, in order to know the necessary thickness of the shim 104, the stroke amount of the poppet 103 once temporarily assembled without the shim 104 is accurately measured, and then the poppet 103 has a predetermined thickness. A shim 104 having an appropriate thickness is selected so that the stroke amount is obtained. Then, after disassembling, it is necessary to incorporate the shim 104 having the selected thickness and to assemble the shim 104, so that the assembling work takes time.

  Further, in the method of fixing the sleeve 101 to a part of the valve body (base 107) with an adhesive, the adhesive peels off depending on the use conditions (type of hydraulic oil, oil temperature, pressure, etc.), and the sleeve 101 loosens from the valve body. As a result, it may not function as a solenoid valve.

  Furthermore, in the method described in Patent Document 1, an adjustment point by screwing is provided on the shaft side, and as described in paragraph number “0014” of the same document, the adjustment point by screwing is formed by ultrasonic welding. It is necessary to fix and prevent loosening, a process of welding is required, and disassembly during maintenance is difficult.

  An object of the present invention is to provide a solenoid valve capable of fixing a sleeve having an orifice to a valve body at an appropriate position without accompanying temporary assembly or disassembling work and without causing loosening. .

  The present invention comprises a poppet that is actuated in the axial direction by electromagnetic force, and a sleeve having a flow rate control hole that is closed when the tip of the poppet is inserted. In a solenoid valve that controls the flow through the flow rate control hole by closely contacting / separating the flow rate control hole, the sleeve is screwed into the valve body so that the poppet stroke amount can be adjusted, and the sleeve A lock nut abutted on the screw is screwed together.

  According to the present invention, when the sleeve having the orifice is fixed to the valve body, it is not necessary to use an adhesive or to perform welding. Therefore, the bonding may be performed depending on the use conditions such as the type of hydraulic oil, the oil temperature, and the pressure. The sleeve can be fixed to the valve body at an appropriate position without being peeled off, and the work time can be shortened because only the adjustment work after assembly is required without any temporary assembly or disassembly work. Furthermore, even if the sleeve is worn or damaged over time, the parts can be easily replaced or adjusted.

  This embodiment will be described below. The basic configuration of the solenoid valve of the present embodiment is as shown in FIG. 1, and in particular, an embodiment of an industrial machinery hydraulic solenoid valve is shown in FIG. The solenoid valve of this embodiment is a normally closed type in which the valve is closed when the coil is not energized.

  In the solenoid valve of FIG. 1, the valve body includes a core 16, a base 17, and a pipe 18. The poppet 13 is incorporated therein so as to be pressed against the sheet surface by the spring 15. As for the poppet 13, the front-end | tip part 13a implement | achieves opening and closing of a valve by seating or leaving | separating to the orifice (flow control hole) 12 formed in the sleeve 11 screwed by the base 17. FIG.

  The movement of the poppet 13 for opening and closing the valve is performed by providing a coil 19 as shown in FIG. 2, energizing the coil 19, causing the core 16 to function as an electromagnet, and using the electromagnetic force as a suction force from the magnetic material. When the poppet 13 acts on the poppet 13, the poppet 13 is pulled toward the core 16, so that the tip 13 a is separated from the orifice 12, and when the coil 19 is deenergized and the electromagnetic force is lost, the poppet 13 is spring 15. Is pressed against the sleeve 11, and the tip end portion 13 a seats the orifice 12.

  In particular, as a feature of the present embodiment, the sleeve 11 is screwed into the base 17, the sleeve 11 can be adjusted in a predetermined range, and the relative position with respect to the base 17 can be adjusted, and the lock nut 20 is arranged on the outer periphery of the sleeve 11. It is screwed and provided so as to contact the end surface of the base 17. With this configuration, the position of the orifice 12 and thus the stroke amount of the poppet can be adjusted by utilizing the screwed relationship between the sleeve 11 and the base 17.

  Further, after adjusting the position of the sleeve 11, the sleeve 11 is firmly tightened against the base 17 by abutting against the end surface of the base 17 using the screwed relationship of the lock nut 20 to the sleeve 11 and further tightening. Can be fixed.

  In the solenoid valve configured as described above, the operation is the same as in the prior art. When the coil 19 is not energized, the poppet 13 is pressed against the sleeve 11 by the spring 15, and the tip portion 13a of the poppet 13 is Seat the orifice 12 and close the valve.

  On the other hand, by energizing the coil 19 and causing the core 16 to function as an electromagnet, the poppet 13 overcomes the force of the spring 15 that presses against the seat side and is drawn toward the core 16 side, and the tip portion 13a moves away from the orifice 12 and the valve be opened.

  In particular, in the present embodiment, the position of the sleeve 11 in which the orifice 12 is formed can be adjusted by utilizing the screwing relationship, and the poppet can be set in a predetermined manner without temporarily assembling or disassembling the apparatus. It can be easily adjusted so that the valve can be closed in the stalk position.

  In this embodiment, the application example using the normally closed type solenoid valve has been described. However, the present invention can also be applied to a normally open type solenoid valve that opens the valve when the coil 19 is not energized.

The figure which shows schematic structure of the solenoid valve of this invention The figure which shows schematic structure which attached the coil to the solenoid valve of this invention The figure which shows schematic structure of the solenoid valve using the conventional shim The figure which shows schematic structure of the solenoid valve using the conventional adhesion | attachment

Explanation of symbols

11 Sleeve 12 Orifice 13 Poppet 13a Tip 17 Base

Claims (1)

A poppet that operates in the axial direction by electromagnetic force; and a sleeve having a flow control hole that is closed when the tip of the poppet is inserted, and the poppet moves into the flow control hole as the poppet is operated. In a solenoid valve that controls the flow through the flow rate control hole by closely contacting / separating, the sleeve is screwed into the valve body so that the stroke amount of the poppet can be adjusted, and the sleeve contacts the valve body. A solenoid valve characterized in that a lock nut is screwed together.

Images