KR100202702B1 - Solenoid valve - Google Patents

Abstract

The solenoid valve according to the present invention comprises a housing; Solenoids provided on both sides of the housing; A spool moving from side to side by the solenoid; A solenoid valve having a spool formed in the spool and connected to an input pump and an output tank, and having a spool groove for controlling the opening and closing of the outlet and the inlet port connected to the hydraulic controller. And switch the outlet lot, and when the spool is in the neutral position, the input port is blocked and the output port is connected to bypass the inlet and outlet ports, so that the switch can be operated automatically and manually operated. .

Description

Solenoid valve

1 is a cutaway and partial cut-away view of a three-position multi-circuit switch to which the present invention is applied.

2 is a side view of a three-position multicircuit switch to which the present invention is applied.

3 is a block diagram of the present invention showing a solenoid valve of a three-position multi-circuit switch.

4 is a cross-sectional view showing a solenoid valve of a three-position multicircuit switch according to the present invention.

5 is a hydraulic circuit diagram of a solenoid valve according to the present invention.

6 is a cross-sectional view showing a solenoid valve according to the prior art.

7 is a hydraulic circuit diagram of a solenoid valve according to the prior art.

* Explanation of symbols for main parts of the drawings

41: spool 42: housing

43: incoming line 44: solenoid

45: port 49: spool groove

P: Input port T: Output port

A: Inflow port B: Outflow port

The present invention relates to a solenoid valve applied to a three-position multi-circuit switch, and more particularly, to a solenoid valve capable of more efficiently and safely using a three-position multi-circuit switch by automatically operating and manually operating the switch. It is about a valve.

The manual operation method is an essential component that is required in the automatic operation method of the 3-position multi-circuit switchgear which solves the problem that the switch takes a long time and operates the switch remotely for distribution automation.

The solenoid valve according to the prior art, as shown in Figures 6 and 7, the power supply is installed on the upper portion of the housing (2), the lead wire is connected to the solenoid (3) through the power supply connection spool ( 5) move left and right to open and close each port.

Referring to the hydraulic circuit diagram shown in Figure 7 with reference to as follows. When the pump is driven by an applied power supply and oil is introduced from the pulp. When the solenoid 3 is operated by the power supply and the spool 5 is pulled in one direction, the pump is left-circuit 7 and the input port ( The oil through P) is connected to the outflow port (B) and sent to the hydraulic control device. The oil through the hydraulic control device is connected to the output port (T) sent to the tank through the inflow port (A) to control the hydraulic pressure. When the device is operated, the pump is driven by the re-applied power and oil is introduced from the pump. When the solenoid 3 is operated by the power supply and the spool 5 is pulled in the other direction, the right circuit ( 8) In the state, the oil through the input port (P) is connected to the outflow port (B) is sent to the hydraulic control device, the oil through the hydraulic control device is an output port sent to the tank through the inlet port (A) Hydraulic control connected with (T) An operation thereby.

However, in this conventional technique, when the spool 5 is in the neutral state, the inlet and output ports P and T and the outflow and inlet ports B are closed so that no operation is performed. There is a problem that becomes impossible. That is, in operating the switchgear, the opening-closing operation is automatically performed, but the grounding operation is inevitably performed by the operator by manual operation, which makes the safety more reliable, and manual operation is inevitable. There is a problem to install the device separately. In addition, the power connection 1 of the solenoid valve is installed on the upper portion of the housing 2 there is a problem that the appearance becomes large.

Reference numeral 11 is a spool groove for adjusting the opening and closing of the port 6.

Accordingly, an object of the present invention is to devise in view of the above problems, to be able to operate the switch automatically and manually also to use a three-position multi-circuit switch more efficiently, safely, It is to provide solenoid valve which miniaturized the device by manufacturing in compact size.

The object of the present invention is a housing, a solenoid provided on both sides of the housing, a spool moving from side to side by the solenoid, an input / output port formed on the spool and connected to an input pump and an output tank, and a hydraulic controller. A solenoid valve having a spool groove for controlling an input port, an output port connected to an outlet port, and an outlet port to open and close positions and a neutral position, wherein the input port is blocked when the spool is in a neutral position, and the output port is connected to the inlet port and the outlet port. It is achieved by a solenoid valve which is connected to the outlet port and configured to bypass the output port, the inlet port and the outlet port.

EMBODIMENT OF THE INVENTION Hereinafter, the solenoid valve which concerns on this invention is demonstrated according to the Example shown in attached drawing.

1 is an external view and a partial cutaway view of a three-position multi-circuit switch to which the present invention is applied, and FIG. 2 is a side view of a three-position multi-circuit switch to which the present invention is applied, and FIG. 3 is a three-position view of the present invention. It is a block diagram which shows the solenoid valve of a circuit switch, FIG. 4 is sectional drawing which shows the solenoid valve of the 3-position multicircuit switch by this invention, and FIG. 5 shows the hydraulic circuit diagram of the solenoid valve which concerns on this invention, respectively.

4 and 5 show an embodiment in which the present invention is applied to a 4-port-3-position solenoid valve, comprising: a housing 42; Solenoids 44 provided on both sides of the housing 42; A spool 41 moving left and right by the solenoid 44; Spool groove 49 is formed in the spool 41 to control the opening and closing of the input and output ports (P) (T) connected to the input pump and output tank, and the outflow and inlet ports (B) (A) connected to the hydraulic controller. In addition, the spool 41 converts the inlet port (A) and the outlet port (B) by the left and right movement, the input port (P) is blocked and the output when the spool (41) is in the neutral position The port T is connected to the inflow port A and the outflow port B so that the output port T, the inflow port A, and the outflow port B can be bypassed.

Solenoids 44 are installed on both sides of the housing 42, and a lead wire 43 is connected to the side ends of the solenoids 44.

Referring to the effect of the solenoid valve according to the invention formed as described above are as follows.

Looking at the overall configuration of the three-position multi-circuit switch to which the present invention is applied, the main body portion 100 is located in the center, the controller portion 200 located in the upper portion of the main body and responsible for the control, and the lower portion of the main body portion It is composed of a driving unit 300 located.

The main body portion 100 is provided with a constant power bushing 81 connected to the constant power at the upper end of the front, four automatic contact manipulation mechanism 11 is installed at the lower portion of the constant power bushing 81, respectively Next to the automatic contact manipulation mechanism 110, a viewing window 82 for visually viewing the operating state of the three-position mechanism 120 therein is attached, and the respective automatic contact manipulation mechanisms ( 110, an input / output unit consisting of three main bushings 85 and one ground bushing 86 is provided.

The driving unit 300 is configured to include a power transformer connected to the constant input power and a rechargeable battery connected to the power transformer.

Accordingly, the automatic contact manipulation mechanism 110 of the main body unit 100 is driven by electrical control of the controller unit 200 supplied with power from the rechargeable battery.

When the power pack 91 composed of a pump, a motor and a tank is operated by the power input from the battery, the oil in the oil tank flows into one side of the miniaturized menu folder 92 by the operation of the power pack 91. . The introduced oil is controlled by the solenoid valve 93 of the present invention mounted on the upper portion of the menu folder 92, and moves in the cylinder 94a through the oil pipe 96. Since the drive shaft 70 is rotated by moving the latch release mechanism by the reciprocating motion of the cylinder push rod 94b, the 3-position mechanism 120 inside the switch is operated.

The use of hydraulic pressure in the movement method of the cylinder takes about 15 seconds to compress air and use compressed air when pneumatic is used, but there are many time delays, but when using hydraulic pressure, the response speed is not only fast. The response was accurate and it was adopted hydraulically.

As shown in the hydraulic circuit diagram of FIG. 5 showing the hydraulic control by the solenoid valve 93, when the power is applied and the spool 41 installed in the housing 42 of the solenoid valve 93 moves to one side, the spool The opening and closing of the port is controlled by the groove to enter the left circuit 46. The oil through the pump passes through the input port (P), pushes the push rod while filling the upper portion of the cylinder (94a) through the outlet port (B), the oil of the pushed lower portion is discharged through the inlet port (A) Exit the output port (T) to enter the tank.

When the power is re-applied and the solenoid valve 93 is operated to enter the left circuit 47, the inflow port A and the outflow port B are switched to perform the opposite operation. That is, oil is filled in the lower part of the cylinder 94a through the menu folder 92, discharged in the upper part, and pushes the push rod 94b in the cylinder to the upper part, and the 3-position is operated by the operation of the push rod 94b. The central axis 70 of the mechanism 120 is rotated in the opposite direction to move the moving contact 132 downward, that is, in the horizontal direction, to operate the switch in an 'off' state.

On the other hand, when the user directly operates the switchgear for maintenance and device inspection, the manual operation is possible to allow the user to manually ground the switchgear. That is, when the remote control or the user directly operates the control switch of the main body to put the switch in the 'off' state, when the power is applied to the solenoid valve 92 and the state of the central circuit 48 of the hydraulic circuit diagram, the pump is The oil coming into the input port (P) through it is shut off and the output port (T) through the tank is connected to the inlet port (A) and the outlet port (B) is connected to the output port (T) and inlet port (A) and outflow The ports B are configured to be bypassed with each other so that only oil in the lower portion of the cylinder 94a can be circulated with each other. At this time, when the user turns the operation handle 110a, the push rod 94b in the cylinder is forcibly moved, and oil is flowed according to the movement of the push rod, thereby enabling manual operation.

Conventionally, there was a problem that it was difficult to manually operate the solenoid valve mechanisms manually controlled by remote control using hydraulic pressure. In the present invention, the solenoid valve operated automatically can be manually operated, so that the user directly It is possible to work after confirming the grounding condition by manual operation, so as to add safety to the work.

On the other hand, the solenoid 44 is provided on both sides of the solenoid valve housing 42, the lead wire 43 is connected to the side end of the solenoid, and the power inlet part is waterproofed, so that the water may be exposed to moisture or weather conditions. Malfunction caused by leakage is prevented, and the conventional power connection is removed to contribute to the miniaturization of the device.

As described above, the solenoid valve according to the present invention is the input port is blocked when the spool is in the neutral position and the output port is connected to the inlet port and the outlet port to bypass the output port, the inlet port and the outlet port by In addition, the switch is operated automatically and has the effect of being able to operate manually.

Claims (1)

A housing, a solenoid provided on both sides of the housing, a spool moving left and right by the solenoid, an input and an output port formed on the spool and connected to an input pump and an output tank, and an input port and an output port connected to a hydraulic controller. And a spool groove for adjusting the outflow and inlet ports to open and close positions and the neutral position, wherein the input port is blocked and the output port is connected to the inflow port and the outflow port when the spool is in the neutral position. Solenoid valve characterized in that configured to be bypassed with the inlet and outlet ports.