KR200204697Y1 - A temperature control valves - Google Patents

Abstract

In the present invention, the temperature of the fluid heated by the steam of the tank 30 such as a heat exchanger or an oil filter is changed into an electrical on / off signal through the temperature sensor 25 so that the solenoid valve 22 is opened and closed. The present invention relates to an electric temperature regulating valve capable of maintaining a constant temperature at a desired steam temperature by allowing steam flowing in and out of the valve 10 to be automatically introduced / blocked. Temperature controller 23 is connected to the solenoid valve 22 of the user can be remotely controlled from the outside by a wire 24, the temperature controller 23 is a temperature sensing unit installed in the temperature detection portion of the tank 30 The sensor 25 is connected to the capillary tube 27, and the temperature control valve 10 is installed with a piston 15 having the guide ring 16 fastened to the lower main body 11. City under the piston (15) The spout 13 is provided with a spring 20 having a disk 14 and a screen 21 coupled thereto, and a speed valve 19 for regulating and regulating the flow rate and flow rate of steam in the cover 12 above the piston 20. ) And the bypass valve 17 is installed together with the needle valve 18.

Description

A temperature control valves

The present invention relates to an electric temperature control valve using a temperature sensor and a pilot valve, and more specifically, a temperature detected by the temperature sensor by escaping from a mechanical structure in which the valve is directly operated by the evaporation pressure of the expansion liquid and the spring force. Electric temperature control to keep the temperature in the device constant at the desired temperature by changing the high and low of the electric signal to the electrical on / off signal so that the solenoid valve can be opened and closed automatically. It is about a valve.

In general, temperature control valves are used to detect the temperature change of the fluid and to control the opening of the valve by moving the driving part compared with the preset temperature. It consists of an adjusting part for regulating and maintaining the temperature of the fluid to be used by adjusting, and a valve part and a driving part.

Such a temperature control valve is configured to be used to select a wide range of temperature control range of about 10-110 ℃ usually, according to the set temperature, the user can freely adjust the temperature by adjusting the control knob of the temperature controller It is made of working structure.

As shown in the mechanical temperature control valve shown in Figs. 4 and 5, the temperature sensor 125 in which the expansion liquid suitable for the temperature control range is sealed is installed on the temperature detection part of the tank 130, and the As the temperature change of the fluid is changed to the pressure of the expansion liquid of the temperature sensor 125, the temperature control valve 110 installed in the steam pipe 132 together with the plurality of on / off valves 131 is operated.

That is, when the temperature of the fluid heated by the steam of the tank 130 rises, the expansion liquid in the temperature sensor 125 begins to evaporate and its evaporation pressure is closed through the capillary tube 127 which is the connecting copper pipe ( Bellows (118), and when the vapor pressure increases, the bellows 118 expands and contracts when the pressure decreases to adjust the opening of the temperature control valve 110.

At this time, the temperature is controlled by maintaining the balance of the force of the steam pressure by the spring 120 moving in the opposite direction against the force of the steam pressure acting on the bellows 118, and the adjustment handle 123 By turning up and down), the compression of the spring 120 changes and the setting temperature can be adjusted (Setting). After the start of operation, wait for about 15-30 minutes to observe the temperature after the stable operation.

When the temperature is set again, the adjustment handle 123 is turned counterclockwise while looking at the indicator 117, and the spring 120 is compressed to set the valve 110 at a high temperature. Turn clockwise to set to low temperature.

However, the mechanical temperature control valve described above has a structure in which the valve 110 is directly operated by the evaporation pressure of the expansion liquid and the force of the spring 120, so that the force of the spring 120 must be increased to have a wide temperature control range. Since the pressure of the expansion liquid must also be large, many manufacturing constraints are followed. Therefore, the conventional products have a temperature control range within a maximum of 30 ° C. and use the spring 120 and the temperature sensor 125 separately for different temperature control ranges. Inevitably, the temperature adjustment range was small.

In addition, the amount of the expansion liquid of the temperature sensor 125 for detecting the temperature increases and takes a long time to absorb and release the heat of a large amount of liquid, which is until the temperature is opened and closed the valve 110 Since it takes a long time, the width of the temperature change in the tank 130 such as a heat exchanger or an oil preheater increases in actual use, and the accuracy of temperature adjustment is inevitably lowered.

In addition, since the spring 120 is installed on the valve 110 to increase in size, the handling and installation thereof are inconvenient, and the temperature sensor 125 and the valve 110 should be connected by the capillary tube 127 so that the tank ( The distance between the valve 130 and the valve 110 could not be installed. Since the expansion liquid is also filled in the capillary tube 127, it is difficult to manufacture at 5M or more due to the sensitivity of the temperature sensing. Also in the installation of the 125 has a number of problems such as directionality is impossible to install the valve 110, the capillary tube 127 or the temperature sensor 125 should be around the handling so as not to damage the valve 110 is installed.

The present invention has been made to solve the problems of the conventional mechanical temperature control valve to operate the valve directly by the evaporation pressure and the spring force of the expansion liquid as described above, to the steam of the tank such as heat exchanger or oil filter The high and low temperature of the fluid heated by the temperature sensor is converted into an electrical on / off signal so that the steam flowing through the valve can be automatically introduced / blocked as the solenoid valve is opened and closed. It is an object of the present invention to provide an electric temperature control valve that can be maintained at a constant temperature of the fluid.

1 is a structural diagram of an electric temperature control valve of the present invention.

Figure 2 is a structural diagram connected to a temperature sensor of the temperature controller of the temperature control valve according to the present invention.

3 is a state of use of the temperature control valve according to the present invention installed in the steam pipe.

Figure 4 is a structural diagram of a mechanical temperature control valve of the prior art.

5 is a state diagram used in the temperature control valve according to the prior art installed in the steam pipe.

※ Explanation of code about main part of drawing ※

10: temperature control valve 11: main body (Main Body)

12: Cover 13: Seat

14: Disc 15: Piston

16: Guide Ring 17: Bypass Valve

18: Needle Valve 19: Speed Valve

20: Spring 21: Screen

22: Solenoid Valve 23: Temperature Controller

24: Electric wire 25: Temperature sensor (heating rod)

26: Connector 27: Capillary Tube

28: Power Panel 29: Thermometer

30: hot water tank 31: on-off valve

32: steam pipe 33: strainer (Strainer)

The temperature control valve of the present invention for achieving the above object, the high and low of the temperature detected by the temperature sensor is changed into an electrical on / off signal, the solenoid valve is opened and closed, the steam flowing through the temperature control valve automatically / In order to be cut off, a thermostat that can be remotely controlled by a user from the outside to the solenoid valve on the top of the temperature control valve is connected by a wire, the temperature controller is a capillary temperature sensor installed on the temperature detection part of the tank It is characterized in that connected to the tube.

In addition, the temperature control valve is installed in the lower main body of the piston with the guide ring is fastened to the seat of the piston is installed in the spring and the disk coupled to the screen, the cover of the piston upper flow rate and flow rate It characterized in that the bypass valve is installed with the speed valve and the needle valve to regulate the regulation.

Hereinafter, a preferred embodiment of the electric temperature control valve according to the present invention will be described in detail with reference to the drawings.

Figure 1 shows a detailed structure of the electric temperature control valve of the present invention, Figure 2 shows a connection structure connected to the temperature sensor 25 of the temperature controller 23 of the temperature control valve 10 according to the present invention. 3, the temperature control valve 10 according to the present invention shows a use state installed in the steam pipe 32 with a plurality of on-off valve 31.

As shown in the figure, the electric temperature control valve of the present invention is a high and low of the temperature detected by the temperature sensor 25 is changed into an electrical on / off signal so that the solenoid valve 22 is opened and closed the temperature control valve 10 In order to allow the steam flowing in / out automatically, the solenoid valve 22 of the upper end of the temperature control valve 10 is connected to the wire 24 by a temperature controller 23 which can be remotely controlled by the user. The temperature controller 23 is connected to the capillary tube 27 by a temperature sensor 25 installed at the temperature detection part of the tank 30.

That is, the temperature change of the tank 30 detected through the temperature sensor 25 is compared to the set temperature of the temperature controller 23, and the solenoid valve 22 installed on the upper end of the valve 10 is turned on / off to control the steam. The inlet / outlet is configured to be automatically adjusted, and the temperature controller 23 is connected to the power panel 28 so as to remotely control the valve 10 by an electrical signal, and at the same time the capillary tube 27. Irrespective of the temperature sensor 25 filled with the expansion liquid therein, the solenoid valve 22 is connected to the wire 24 so that the valve 10 may be installed at a distance of 5M or more from the tank 30.

In addition, the solenoid valve 22 is turned on / off by the electrical control signal from the temperature controller 23 and the temperature control valve 10 in which the inflow of steam is electrically controlled is guided to the lower main body 11. A piston 15 to which the ring 16 is fastened is installed, and a spring 20 to which the disk 14 and the screen 21 are coupled is installed on the seat 13 below the piston 15.

In addition, the bypass valve 17 is installed in the cover 12 above the piston 20 together with the speed valve 19 and the needle valve 18 for controlling and regulating the flow rate and flow rate of steam. 17 is used to manually operate the temperature control valve 10 in case of power failure or failure of the solenoid valve 22.

The electric temperature regulating valve of the present invention configured as described above has a solenoid valve on the top of the temperature regulating valve 10 as shown in FIG. 3 showing the use state installed in the steam pipe 32 together with a plurality of on / off valves 31. 22) and the temperature controller 23 is connected to the wire 24 without restriction of the installation position, the temperature controller 23 is connected to the power supply panel 28 is supplied with power, such as heat exchanger or oil preheater It is connected to the temperature sensor 25 and the capillary tube 27 installed on the temperature detection portion of the tank 30, and one end of the tank 30 is attached to the thermometer (29).

Since the temperature control valve 10 uses a power source (AC 220V) as an auxiliary power source, it is possible to remotely control the remote at a convenient distance, and the capillary tube 27 of the temperature sensor 25 serves as a hydraulic expansion capillary regulator. Robustly manufactured to maintain high accuracy and precision, the temperature deviation is ± 1.5 ℃ of the set temperature, so it is highly reliable.

In addition, the spring 20 inside the temperature control valve 10 is an excellent product that has been repeated 1 million times or more, and there is no deformation even when used for a long time, and the solenoid valve 22 uses a product that has undergone 1 million energization tests. Excellent durability

Therefore, the electric temperature control valve of the present invention is a high and low of the temperature detected by the temperature sensor 25 of the tank 30 is changed into an electrical on / off signal so that the solenoid valve 22 is opened and closed, the temperature control valve (10) By automatically flowing / blocking the steam flowing through the tank, the fluid temperature in the apparatus can be precisely set through the temperature controller 25 and kept constant at the fluid temperature to be used.

That is, since the expansion pressure of the temperature sensor 25 operates the solenoid valve 22, which is an electric switch, not directly driving the valve 10, it does not require a large force, and the size of the temperature sensor 25 is small. The adjustment range can be increased to within 100 ℃, which is because the small amount of the expansion liquid is filled in the temperature sensor 25 can be absorbed and released heat in a short time to increase the accuracy of the temperature adjustment.

In addition, since the solenoid valve 22 is installed without the need of a spring or a bellows, such as a mechanical temperature control valve, the size of the valve 10 may be reduced, and the valve 10 and the temperature sensor 25 may be wired. 24 is connected to the tank 30, the temperature sensor 25 is installed may be installed as far away from the valve, and there is no restriction in the installation direction of the temperature sensor 25, the temperature after the valve 10 installation Since the sensor 25 is connected, handling at the time of installation can be facilitated, and in particular, since the valve 10 is operated as an electrical signal, remote control is possible.

As described above, according to the electric temperature regulating valve of the present invention, the high and low temperature detected by the temperature sensor is removed from the mechanical structure in which the valve is directly operated by the evaporation pressure of the expansion liquid and the spring force. By switching off the solenoid valve to open and close the solenoid valve, the steam flowing through the valve can be automatically introduced / blocked so that the temperature in the device can be kept accurate and constant.

In other words, by adjusting the opening degree of the valve by using the solenoid valve driven by electricity by the electric driving method, the user can not only convenience, but also the structure and installation of the equipment is simple and the fluid temperature is kept constant and accurate to save energy and use. It is expected to be able to optimize the efficiency of the installation.

Claims (2)

The high and low of the temperature detected by the temperature sensor 25 is changed into an electrical on / off signal so that the steam flowing through the temperature control valve 10 can be automatically introduced / blocked while the solenoid valve 22 is opened and closed. The temperature controller 23, which can be remotely controlled by the user, is connected to the solenoid valve 22 at the top of the temperature control valve 10 by an electric wire 24, and the temperature controller 23 has a temperature of the tank 30. Electric temperature control valve, characterized in that the temperature sensor 25 is installed on the detection site is connected to the capillary tube (27). According to claim 1, wherein the temperature control valve 10 is installed in the seat (13) below the piston (15) while the piston 15, the guide ring 16 is fastened to the main body 11 of the lower side is installed A spring 20 in which the disk 14 and the screen 21 are coupled to each other is installed, and the cover 12 above the piston 20 has a speed valve 19 and a needle valve for controlling and regulating the flow rate and flow rate of steam. 18) The electric temperature control valve, characterized in that the bypass valve 17 is installed together.