KR19990035682U - Solenoid valve - Google Patents

Abstract

The solenoid valve 1 of the present invention has a minimum flow through hole 6 having a diameter between 1/10 and 1/100 of the cross section of the valve seat 4 at the central portion of the valve seat 4 side surface of the valve body 2. By forming the so that the solenoid valve (1) is closed so that the minimum flow rate flows into the pipeline.

The solenoid valve of the present invention allows the minimum flow rate to flow between the primary side and the secondary side of the pipeline even when the solenoid valve 1 is completely shut off while being installed on various air conditioners or coil coil units. It prevents freezing of other related equipment and reduces the pressure difference between opening and closing of solenoid valve, and it can drastically reduce power consumption by opening and closing valve.

Description

Solenoid valve

The present invention relates to a solenoid valve which is installed on a pipe of an air conditioner or a coil unit of various buildings or buildings, and is used to control a room temperature by opening a flow of fluid on a pipe by a remote electric signal. When the valve is blocked on the main body of the solenoid valve, the minimum flow rate is always passed through the inside of the pipeline to prevent freezing of pipelines, valves, and related equipment such as air conditioners and coil units in the winter. The present invention relates to a novel type of solenoid valve that can save power.

In general, solenoid valves that open and close pipelines by electrical signals are installed on air conditioners and coil units of various buildings to block or open hot water or cooling water for cooling and heating temperature control. Serves to maintain.

When the solenoid valve is installed in various air conditioners or coil units, it can be operated automatically according to the electrical signal from manual to automatic operation when replacing the operation in summer or winter, which can drastically reduce the overall management point of the system. Therefore, the operation mode of the system can be conveniently performed.

As shown in FIG. 4 showing the installation state of the solenoid valve, the solenoid valve is installed on the pipeline for cooling and heating systems in various buildings, for example, as shown in FIG. It is installed to control the temperature of the room by cutting off and supplying the cold and hot water of the coil unit (FCU), or to maintain the proper level in the tank according to the signal of the water level control of the tank or the container as shown in FIG. The microcomputer installed in the place to open and close the air conditioner or installed in the air conditioner system as shown in FIG. 4C and receives a signal from the detection sensor controls the solenoid valve for cold and hot water control to cut off and supply the supply water in the pipeline. Installed in places that control the temperature.

The solenoid valve of this type according to the prior art has various disadvantages in winter operation rather than summer in the state of being installed in various systems.

In other words, when the solenoid valve completely shuts off the fluid in the conduit, when the fluid in the conduit freezes as it is frozen due to the surrounding cold temperature, the solenoid valve does not operate normally and the pipe and the valve freeze. there was.

In addition, as the fluid in the pipeline freezes and the operating load increases, the solenoid coil breaks frequently because the driving torque of the solenoid exceeds a threshold.

The main cause of this drawback is that the fluid in the conduit must always pass a small amount of water into the conduit even when the solenoid valve is closed. The contact is kept tight and airtight, and the solenoid valve's function is to shut off the flow of fluid in the pipeline completely.

As a result, when the solenoid valve is blocked, the flow of the fluid in the pipe line is stopped and causes various problems such as freezing and freezing due to the external temperature drop.

The present invention was developed to solve the above problems, the solenoid valve of the present invention is to improve the structure of the existing solenoid valve so that even if the valve is completely shut off to pass a minimum amount of water or fluid on the pipeline. By opening the primary and secondary sides of the valve through the minimum flow through hole, even when the solenoid valve is blocked through this through hole, the minimum amount of fluid flows continuously inside the pipeline to prevent freezing of the winter and re-run the solenoid valve. In order to reduce the pressure difference between the primary side and the secondary side, it is possible to drastically reduce the power consumption by opening and closing the valve.

In order to achieve the object as described above, the solenoid valve of the present invention has a solenoid by forming a minimum flow through-hole so that the primary side and the secondary side of the conduit can communicate with each other at the central portion of the side of the valve seat formed inside the valve body of the solenoid valve. Even when the valve is closed, the minimum flow is always allowed to flow inside the pipeline.

1 is a front view of a solenoid valve showing a preferred embodiment of the present invention

FIG. 2 is a right side view of FIG. 1

3 is a cross-sectional view taken along the line A-A of FIG.

Figure 4 is an installation state of the solenoid valve of the present invention

＊ Description of main parts of drawing

1: solenoid valve 2: valve body

3: solenoid 4, 5: valve seat

6: minimum flow rate through hole 7: bonnet

8: bolt 9: moving core

10 disc 11 sheet seal

As shown in Figs. 1 and 2, reference numeral 1 denotes a solenoid valve showing a preferred embodiment of the present invention; As shown in (A), (B), and (C) of FIG. 4, the solenoid valve 1 is installed in a supply water line of various air conditioners, coil coil units, and general tanks, and provides an electrical signal for the flow rate in the line. It can be applied to maintain the state of the fluid inside the pipeline in the desired state by opening and closing by.

The solenoid valve 1 includes a valve body 2 installed on various air conditioners, coil coil units, and general pipelines as shown in FIGS. 1 and 2; It is composed of a solenoid (3) connected to the upper portion of the valve body (2) by a bonnet (7) and a bolt (8) to open and close the flow of fluid in the pipeline in accordance with an external electrical signal.

The valve seats 4 and 5 are formed inside the valve body 2 to control the flow of the fluid in the conduit, and the main feature of the present invention is that The minimum flow rate through hole 6 is formed in the center portion so that the primary side and the secondary side can communicate with each other so that the minimum flow rate always flows into the pipeline even when the solenoid valve 1 is closed.

The minimum flow rate through-hole 6 forms a minimum flow rate through-hole 6 having a diameter between 1/10 and 1/100 of the cross section of the valve seat 4 at the central portion of the side face on the valve seat 4 so as to provide a solenoid. The flow rate is prevented by allowing a minimum flow rate to flow through the through hole 6 on the pipe line in which the valve 1 is installed.

And the solenoid (3) is fixed to the valve body (2) and the bonnet (7) and the bolt (8), the moving core (9) moving up and down to block or open the flow of the fluid, and A disk 10 installed at the lower end of the moving core 9 to open and close the valve seats 4 and 5, and a sheet seal 11 inserted into and fixed to the bottom of the disk; The moving core 9 and the disk 10 open and close the valve seats 4 and 5 while being lifted by the electrical operation of the solenoid 3.

The structure of the solenoid (3) is generally known in the art, the core spring to facilitate the operation of the moving core (9) of the solenoid (3), and restoring the position of the disk 10 when the power is cut off Consisting of a juice spring, the power supplied from the outside is energized by the solenoid (3), the electromagnet force is generated to lift the moving core (9), and the disk (10) is moved to the fluid in the primary side of the pipeline Flows through the valve seats 4 and 5 to the secondary side of the pipe.

The structure of the solenoid valve 1 as described above is well known in the valve industry, and the characteristic configuration of the present invention is such that the primary side and the secondary side of the conduit can communicate with each other on the side of the valve seat 4. The minimum flow rate through-hole 6 is formed in the central portion so that the minimum flow rate always flows into the pipeline even when the solenoid valve 1 is closed.

The solenoid valve 1 of the present invention configured as described above has a minimum flow rate through-hole 6 in the center portion so that the primary side and the secondary side of the conduit can communicate with each other on the side of the valve seat 4, so that the solenoid valve Even in the closing of (1), the fluid at the minimum flow rate always flows inside the pipeline to prevent freezing of the pipeline or valve in winter, and to reduce the pressure difference between the primary and secondary sides of the valve. The power consumption can be reduced.

As described above, the solenoid valve of the present invention improves the internal structure of a solenoid valve installed on a pipeline such as an air conditioner or a coil coil unit so that fluid such as water with a minimum flow rate always flows in the pipeline. There are many special features such as preventing the freezing of winter pipelines, valves and other related devices, and reducing the power required for driving the valves when the solenoid valve is restarted.

Claims (1)

A valve body (2) installed on various air conditioners, shock coil units, and general pipelines; It is composed of a solenoid (3) connected to the upper portion of the valve body (2) with a bolt to open and close the flow of fluid in the pipeline in accordance with an external electrical signal; A valve seat (4, 5) is formed inside the valve body (2) to control the flow of fluid in the conduit; The solenoid 3 is fixed to the valve body 2, the bonnet 7, and the bolt 8, the moving core 9 to move up and down to open and close the flow of the fluid, the moving core A disk 10 for opening and closing the valve seats 4 and 5 while being provided at the bottom of the disk (9), and a sheet seal 11 inserted into and fixed to the bottom of the disk; The moving core 9 and the disk 10 are lifted by the electrical operation of the solenoid 3 to open and close the valve seats 4 and 5 so that the fluid at the primary side of the pipeline opens the valve seats 4 and 5. In a conventional solenoid valve for passing through to the secondary side of the pipe, When the solenoid valve 1 is closed by forming the minimum flow rate through-hole 6 having a diameter between 1/10 and 1/100 of the cross section of the valve seat 4 in the central portion of the side face on the valve seat 4 described above. A solenoid valve that features a minimum flow rate inside the pipeline.