KR20150001016U - thermostatic measurable valve - Google Patents

Abstract

The present invention relates to a direct temperature measurement type flow control valve comprising: a first chamber portion having an inlet; And a second chamber portion provided between the first chamber portion and the second chamber portion so as to communicate the first chamber portion and the second chamber portion in a communicable manner and to allow the first chamber portion and the second chamber portion to flow from the inlet to the outlet A flow controller operable to control a flow rate of the fluid; And a through-hole fixing member that is provided at one end of the temperature sensor and extends through the first chamber portion and is exposed to the outside, and a through- And a temperature measuring unit electrically connected to the temperature sensor and having a wire member extended from the other end of the through-hole fixing member.

Description

[0001] The present invention relates to a thermostatic measurable valve,

The present invention relates to a direct temperature measurement type flow control valve, and more particularly, to a direct temperature measurement type flow control valve capable of directly measuring a temperature of a fluid flowing in the fluid.

A commonly used valve is used to control the flow of fluid through it. The internal structure may be different, but the inner space is normally closed to block or open the fluid to flow.

In addition, some of the valves are provided with a flow rate control function capable of controlling the flow rate of the fluid flowing in the inside to a desired degree. A known configuration is used for flow control. It also includes a flow rate function that prevents the amount of fluid passing through the valve, that is, the flow rate value, from exceeding a certain value. A known cartridge type or diaphragm type is mainly used for such a constant flow function.

A valve referred to as a complex constant flow valve capable of proportional control is a valve capable of not only exceeding a constant flow rate value but also adjusting the flow rate within a certain flow rate value to a desired degree.

These various types of valves are employed in conventional heating apparatuses. Conventionally, the conventional heating apparatus has a partially different configuration, but commonly, the indoor air temperature is measured, and if the measured indoor air temperature does not reach the set temperature set by the user, the heating water is continuously supplied and heating And when the indoor air temperature reaches the set temperature, the valve provided in the supply pipe for the heating water is shut off to stop the heating. In addition, depending on the heating apparatus, the temperature of the heating water that is used after being used for heating may be measured to determine whether or not the apparatus is heated.

In this case, it is necessary to measure the temperature of the fluid flowing inside the water return pipe. However, the valves used in the conventional heating apparatus do not have a configuration for measuring the temperature of the fluid flowing in the heating apparatus. In order to measure the temperature of the fluid according to the valve, there is a problem that the sensor part is provided on the outside, but the temperature of the fluid can not be measured accurately. That is, there is a need to develop a valve capable of measuring the exact temperature of the fluid flowing inside.

Patent Publication No. 10-1998-020832

It is an object of the present invention to provide a direct temperature measurement type flow control valve which is designed to meet the above-mentioned necessity and which can quickly and accurately measure the temperature of a fluid flowing therein.

The direct temperature measurement type flow control valve of the present invention comprises: a first chamber part having an inlet; And a second chamber portion provided between the first chamber portion and the second chamber portion so as to communicate the first chamber portion and the second chamber portion in a communicable manner and to allow the first chamber portion and the second chamber portion to flow from the inlet to the outlet A flow controller operable to control a flow rate of the fluid; And a through-hole fixing member that is provided at one end of the temperature sensor and extends through the first chamber portion and is exposed to the outside, and a through- And a temperature measuring unit electrically connected to the temperature sensor and having a wire member extended from the other end of the through-hole fixing member. ]

Preferably, the through-hole fixing member of the temperature measuring unit is provided in the through-hole provided in the first chamber portion, and the through-hole is provided with an elastic sealing member for covering the through-hole fixing member.

 Preferably, the flow rate control unit includes a constant flow rate function for allowing fluid to flow only up to a predetermined flow rate.

Preferably, the flow rate control unit includes a proportional control function for allowing a fluid having a desired flow rate to pass therethrough.

The apparatus may further include a flow rate control driver coupled to the flow rate controller to drive the flow rate controller.

Preferably, one end of the lead wire member is electrically connected to the temperature sensor, extends through the inside of the through-hole fixing member, and is extended to the outside through the other end of the through-hole fixing member.

According to the present invention, it is possible to accurately and quickly measure the temperature of the fluid flowing inside.

BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is a partial cross-sectional view of a direct temperature measurement type flow control valve according to one embodiment of the present invention;

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The direct temperature measurement type flow control valve 1 according to one embodiment of the present invention includes a first chamber portion 10, a second chamber portion 20, a flow rate control portion 30, and a temperature measurement portion 50, do. In the case of this embodiment, the flow rate control driver 40 is also included. The flow rate control driver 40 includes a motor or the like to generate a mechanical motion to operate the flow rate controller to control the flow rate. However, the flow control driving unit may not be provided in some embodiments.

Since the direct temperature measurement type flow control valve 1 of the present embodiment has a valve configuration capable of controlling the flow of the fluid, it is possible to control the flow rate of the fluid flowing inside.

The first chamber part 10 has a space therein for receiving the fluid flowing through the inlet 12. The first chamber portion 10 has an inlet 12 at the right end with reference to the drawing. The outer surface of the inlet 12 is provided with threads so as to be easily connected to other piping on the outside.

The second chamber part 20 has a space through which the fluid passing through the flow control part 30 can be received after flowing through the inlet 12. The second chamber portion 20 has an outlet 22 at its left end with reference to the drawing.

The fluid that has flowed into the second chamber portion 20 through the outlet 22 is discharged to the outside. A bolt member is provided on the outer surface of the outlet 22 so as to be easily fastened to another pipe.

The flow rate controller 30 is provided between the first chamber portion 10 and the second chamber portion 20. The flow control unit 30 is integrally formed with the first and second chamber units 10 and 20 so that the first chamber unit 10 and the second chamber unit 20 can communicate with each other.

The flow rate control unit 30 operates to control the flow rate of the fluid flowing from the inlet 12 to the outlet 22. On the other hand, the term 'controlling the flow rate of the fluid' means a concept including both blocking or opening 100% of the flow rate (opening) and controlling the flow rate to a desired value. In the case of the present embodiment, the flow rate control section includes all functions for shutting off, opening, and adjusting the flow rate to a desired degree, but depending on the embodiment, it may have only a blocking and opening function.

The flow controller 30 of the present embodiment includes a constant flow function for allowing fluid to flow only up to a certain flow rate. The constant flow function is a function that is required when the heating water of the same flow rate needs to be supplied to each of the multi-generations, such as district heating. In other words, the constant flow function is a function of supplying heating water to each generation for local heating only at a specified flow rate or less.

Meanwhile, the embodiment shown in FIG. 1 employs a cartridge method among the methods for implementing the constant flow function. A specific configuration of this cartridge system uses a known configuration. In some embodiments, a known di flame scheme may be employed to implement the constant flow function.

In the present embodiment, the flow rate control section 30 includes a proportional control function for allowing a fluid having a desired flow rate to pass therethrough. That is, in the case of a valve having a maximum flow rate value of 10 LPM, it is possible to control the flow rate of 6 LPM, which is 60% of the maximum flow rate, to flow according to the operation of the flow controller 30 having a proportional control function And it is also possible to control so that a flow rate of 1 LPM, which is 10% of the maximum flow rate, flows. A specific configuration for implementing the proportional control function uses a known configuration.

The temperature measuring unit 50 includes a temperature sensor 52, a through-hole fixing member 54, and a conductive member 56.

The temperature sensor (52) is located inside the first chamber part (10). That is, it is located in the inner space of the first chamber part 10 and is provided so as to be in direct contact with the fluid flowing through the inner space. The temperature sensor 52 generates an electrical signal corresponding to the temperature of the fluid in contact therewith. The generated electrical signal is transmitted to a separate control unit provided outside through the lead member 56.

The through-hole fixing member 54 is a rod-shaped member passing through the first chamber portion 10 and fixed to the first chamber portion 10. [ A temperature sensor 52 is provided at a lower end portion of the through-hole fixing member 54, which is one end portion. The intermediate portion of the through-hole fixing member 54 is fixed through the first chamber portion 10, and the other end is exposed to the outside.

In the case of this embodiment, the through-hole fixing member 54 is provided in the through-hole 14 provided in the first chamber portion 10. The through hole 14 is provided with a sealing member 58 of an elastic material which surrounds the intermediate portion of the through-hole fixing member 54. On the other hand, the sealing member 58 may include a sealing ring. By providing such a sealing member 58, the water tightness between the through hole 14 and the through-hole fixing member 54 is further ensured.

The conductive member 56 is electrically connected to the temperature sensor 52. One end of the lead member 56 is connected to the temperature sensor 52 and passes through the inside of the through hole fixing member 54 and then exposed to the outside through the other end of the through hole fixing member 54 . The wire member 56 extending from the other end of the through-hole fixing member 54 may be connected to a control unit or the like provided separately on the outside.

On the other hand, in another embodiment, the lead wire member may be connected to the temperature sensor through another conductor portion provided in the through-hole fixing member, not through the wire penetrating the penetration fixing member.

Meanwhile, the direct temperature measurement type flow control valve 1 of the present invention may further include a strainer 60 for removing foreign substances contained in the flowing fluid.

The direct temperature measurement type flow control valve 1 of the present embodiment having the above-described configuration has the following actions and effects.

The direct temperature measurement type flow control valve 1 of the present embodiment is provided with the temperature measurement part 50 including the temperature sensor 52 capable of directly contacting the fluid flowing therein so that the temperature of the fluid can be accurately and quickly There is an advantage that it can be measured.

In the case of the conventional valve, none of the conventional valves has a configuration capable of accurately measuring the temperature of the fluid flowing therein. Conventionally, when it is necessary to measure the temperature of the fluid flowing in the inside of the valve, the temperature is simply measured by attaching a temperature sensor to the outer surface of the valve. However, this conventional method is not satisfactory in terms of accuracy and promptness Respectively.

In the present embodiment, since the sealing member is also provided in the through-hole provided in the first chamber portion, there is an advantage that leakage of the fluid is prevented, and replacement and repair can be performed when a problem occurs in the operation of the temperature sensor .

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the scope of the present invention . Accordingly, the true scope of technical protection of the present invention should be determined by the technical idea of the appended utility model registration claim scope.

1 ... Measuring temperature Measuring type flow control valve
10 ... first chamber 12 ... inlet
20 ... second chamber 22 ... outlet
30 ... Flow controller 40 ... Flow controller
50 ... Temperature measuring part 52 ... Temperature sensor
54: penetrating fixing member 56: conductive member
60 ... strainer

Claims (6)

A first chamber portion having an inlet;
A second chamber portion having an outlet,
And a flow control unit provided between the first chamber unit and the second chamber unit for communicably interconnecting the first chamber unit and the second chamber unit and controlling the flow rate of the fluid flowing from the inlet to the outlet, ; And
A penetration fixing member which is provided at one end of the temperature sensor and extends through the first chamber and is exposed to the outside, And a temperature measuring unit electrically connected to the sensor and having a wire member extending from the other end of the through-hole fixing member. The method according to claim 1,
Wherein the through-hole fixing member of the temperature measuring unit is provided in the through-hole provided in the first chamber portion,
Wherein the through-hole is provided with a sealing member of an elastic material that surrounds the through-hole fixing member. The method according to claim 1,
Wherein the flow rate control unit includes a constant flow rate function for passing the fluid only up to a predetermined flow rate. The method according to claim 1,
Wherein the flow control unit includes a proportional control function for allowing a fluid having a desired flow rate to pass therethrough. The method according to claim 1,
And a flow rate control driver coupled to the flow rate controller to drive the flow rate controller. The method according to claim 1,
Wherein one end of the conductive member is electrically connected to the temperature sensor and extends through the inside of the through-hole fixing member and then is exposed to the outside through the other end of the through-hole fixing member. .

Images