KR200497348Y1 - Measuring device for building piping equipped with thermometer and pressure gauge - Google Patents

Abstract

The present invention relates to a measuring device for building piping that is equipped with a thermometer and a pressure gauge, and its purpose is to install thermometers and pressure gauges in fluid transport pipes such as hot water pipes, heating pipes, and water supply pipes constructed in buildings. The goal is to provide a measuring device for building piping that is equipped with a thermometer and pressure gauge that can simplify and reduce the use of accessory materials. The present invention for this purpose includes a body consisting of a first pipe part forming a first flow path connected to the flow path of the fluid transport pipe, and a second pipe part branched from the first pipe part to form a second flow path branched from the first flow path; A connection part installed at one end of the first pipe and coupled to the fluid transport pipe; A thermometer installed at the other end of the first pipe portion, the sensor rod for temperature detection being inserted into the fluid transport pipe through the first flow path, and detecting and displaying the fluid temperature of the fluid transport pipe; A pressure gauge installed in the second pipe section and detecting and displaying the pressure of fluid flowing into the second pipe section; and a siphon valve installed in the second pipe portion to open and close the flow path of the second pipe portion.

Description

Measuring device for building piping equipped with thermometer and pressure gauge

The present invention relates to a measuring device installed in a pipe constructed in a building to measure the temperature and pressure of fluid flowing through the pipe. More specifically, the thermometer, pressure gauge, and siphon valve are formed in an integrated structure, so that the thermometer and the siphon valve are integrated. This relates to a measuring device for building piping that is equipped with a thermometer and a pressure gauge to simplify the installation structure of the pressure gauge.

Generally, during the construction process of an apartment complex, fluid transport pipes are constructed to supply drinking water or household water to each household.

Meanwhile, currently widely used fluid transport pipes include hot water supply pipes, hot water return pipes, heating supply pipes, heating return water pipes, water supply pipes, and water return pipes, and each of these fluid transportation pipes has a main valve that controls the flow of fluid. A thermometer for measuring temperature, a pressure gauge for measuring pressure, a drain valve, and piping are additionally installed.

Figure 1 shows a perspective view showing a thermometer, pressure gauge, and drain valve installed in a conventional fluid transport pipe.

Since the thermometer 21, the pressure gauge 22, and the drain valve 23 are connected to the fluid transport pipe 10 through a branch tee, the thermometer 21 and the pressure gauge are connected in the process of constructing the fluid transport pipe 10 in the building. Branch tees (31, 32, 33) are formed at the positions where (22) and the drain valve (23) are installed.

Meanwhile, conventionally, the thermometer 21, the pressure gauge 22, and the drain valve 23 are each connected to the fluid transport pipe 10 through branch tees 31, 32, and 33, and the thermometer 21 and the pressure gauge 22 ) are located adjacent to each other, allowing managers to measure temperature and pressure at the same time.

Therefore, a branch tee 31 for installing the thermometer 21 is installed in the fluid transport pipe 10, and another branch tee 32 for installing the pressure gauge 22 is installed at an adjacent location. The two branch tees 31 and 32 installed adjacent to each other are connected to each other through piping materials such as piping joints 34.

As such, conventionally, the use of three branch tees (31, 32, 33) and a pipe joint (34) was required to install the thermometer (21), pressure gauge (22), and drain valve (23) in the fluid transport pipe (10). This not only makes the work cumbersome, but also reduces the space utilization of the building as more space is required to install the thermometer and pressure gauge.

Public Utility Model Publication No. 20-2000-0016768 (published on September 25, 2000)

The present design was made in consideration of the above problems, and the purpose of the present design is to simplify the related structure and auxiliary materials in installing thermometers and pressure gauges in fluid transport pipes such as hot water pipes/heating pipes/water supply pipes constructed in buildings. The aim is to provide a measuring device for building piping that is equipped with a thermometer and pressure gauge that can reduce the use of .

Another purpose of the present invention is to provide a measuring device for building piping that is integrated with a thermometer and pressure gauge that also functions as a drain valve.

The present invention, which achieves the above-described object and performs the task of eliminating the drawbacks of the prior art, includes a first pipe portion forming a first flow path connected to the flow path of the fluid transport pipe, and a second pipe portion branching from the first flow path. A body consisting of a second pipe branched from the first pipe to form a flow path; A connection part installed at one end of the first pipe and coupled to the fluid transport pipe; A thermometer installed at the other end of the first pipe portion, the sensor rod for temperature detection being inserted into the fluid transport pipe through the first flow path, and detecting and displaying the fluid temperature of the fluid transport pipe; A pressure gauge installed in the second pipe section and detecting and displaying the pressure of fluid flowing into the second pipe section; and a siphon valve installed in the second pipe portion to open and close the flow path of the second pipe portion.

Meanwhile, in the measuring device for building piping in which the thermometer and the pressure gauge are integrated, a third coupling portion to which a drain pipe is connected is further formed in the second pipe portion, and the siphon valve includes a second flow path, a pressure measurement flow path, and a third coupling part. It consists of a three-way valve installed at the point where the three coupling side flow paths intersect, and can be configured to open only the pressure measurement flow path, open only the third coupling side flow path, or block both the pressure measuring flow path and the third coupling side flow path.

Meanwhile, in the measuring device for building piping in which the thermometer and the pressure gauge are integrated, the connection portion extends from one end of the first pipe portion in the circumferential direction of the first pipe portion and is formed to protrude in the radial direction of the first pipe portion, , a stopping end consisting of a groove formed on the outer circumferential surface for installation of a stop ring; And installed on the first pipe part to move in the longitudinal direction of the first pipe part while coupled to the first pipe part from the outside of the first pipe part and to be rotatable about the first pipe part, and to allow fluid flow with the stopping end accommodated therein. It may be composed of a fastening member that is screwed together with a connection provided in the transportation pipe.

According to the present invention having the above features, there is no need to install a thermometer and a pressure gauge to measure the temperature and pressure of the fluid passing through the fluid transport pipe, thereby improving the convenience of work and maintenance.

Additionally, space can be utilized more efficiently by reducing the amount of space required to install thermometers and pressure gauges.

In addition, the structure of the equipment can be further simplified by allowing the siphon valve, which is configured together with the pressure gauge, to also function as a drain valve.

Figure 1 is a perspective view showing a thermometer, pressure gauge, and drain valve installed in a conventional fluid transport pipe;
Figure 2 is a perspective view of a measuring device for building piping according to a preferred embodiment of the present invention;
Figure 3 is a plan view of a measuring device for building piping according to a preferred embodiment of the present invention;
Figure 4 is a perspective view of the body according to the present invention;
Figure 5 is a perspective view showing the state in which the measuring device for building piping according to the present invention is installed in the fluid transport piping;
Figure 6 is an example showing a state in which a siphon valve consisting of a three-way valve is operated to open a pressure measurement passage;
Figure 7 is an example showing a state in which the siphon valve consisting of a three-way valve is operated to open the third coupling side passage;
Figure 8 is an example showing a state in which a siphon valve consisting of a three-way valve is operated to close both the pressure measurement flow path and the third coupling side flow path.

Hereinafter, a preferred embodiment of the present invention will be described in detail in connection with the attached drawings. In explaining the present invention, if it is determined that detailed descriptions of related known functions or configurations may unnecessarily obscure the gist of the present invention, the detailed description will be omitted.

Figure 2 is a perspective view of a measuring device for building piping according to a preferred embodiment of the present invention, Figure 3 is a plan view of a measuring device for building piping according to a preferred embodiment of the present invention, and Figure 4 is a perspective view of the body according to the present invention. , Figure 5 is a perspective view showing a state in which the measuring device for building piping according to the present invention is installed in a fluid transport pipe, Figure 6 is a side view of a measuring device for building piping of another structure according to the present invention, and Figure 7 is the present invention. A perspective view of a measuring device for building piping further equipped with a third coupling portion according to the design, Figure 8 is an exemplary diagram showing a state in which a siphon valve consisting of a three-way valve is operated to open the pressure measurement passage, and Figure 9 is a diagram showing a state in which a siphon valve consisting of a three-way valve is operated to open a pressure measurement passage. Figure 10 is an exemplary diagram showing a state in which the siphon valve made of a two-way valve is operated to open the third coupling side flow path, and Figure 10 shows the siphon valve made of a three-way valve to close both the pressure measurement flow path and the third coupling side flow path. An example diagram showing the manipulated state is shown.

The measuring device for building piping equipped with a thermometer and a pressure gauge according to the present invention consists of a body 110, a connection part 120, a thermometer 130, a pressure gauge 140, and a siphon valve 150.

The body 110 supports the thermometer 130 and the pressure gauge 140 and forms a flow path connecting the fluid transport pipe 10, the thermometer 130, and the pressure gauge 140, and includes the first pipe portion 111 and It consists of the second pipe (112).

The first pipe part 111 is composed of a pipe forming a first flow path connected to the flow path of the fluid transport pipe 10, and the second pipe part 112 is a second pipe part 112 at an intermediate position of the first pipe part 111. It is composed of a pipe formed in an integrated structure with the first pipe portion 111 so as to have an attitude perpendicular to the pipe portion 112 and forming a second passage branched from the first passage.

In this way, the body 110 consisting of the first pipe portion 111 and the second pipe portion 112 is configured to have an overall T-shape.

Meanwhile, a pressure gauge 140 and a siphon valve 150 are installed in the second pipe portion 112, and a first coupling portion 113 and a first coupling portion 113 for installing the pressure gauge 140 and the siphon valve 150, respectively. 2 A coupling portion 114 is formed in the second pipe portion 112, or a pressure gauge 140 is installed at the end of the second pipe portion 112 and a siphon valve 150 is installed at the middle position of the second pipe portion 112. Can be installed.

The connection part 120 is formed at one end of the first pipe part 111 to couple the body 110 to the fluid transport pipe 10, and is composed of a stopping end 121 and a fastening member 122.

The stopping end 121 supports the stopping ring 123 that prevents the fastening member 122 installed in the first pipe portion 111 from being separated from the first pipe portion 111 and the first pipe portion 111. By pressurizing the packing (not shown) disposed between the first pipe portion 111 and the fluid transport pipe 10, the first pipe portion 111 extends from one end of the first pipe portion 111 in the circumferential direction of the first pipe portion 111. ) Surrounding the end of the first pipe portion 111, it is formed to protrude in the radial direction, and a groove 124 for installation of the stop ring 123 is formed on the outer peripheral surface.

The fastening member 122 is fastened to the connection part 11 provided in the fluid transport pipe 10 while receiving the stopping end 121 therein, thereby binding the body 110 to the fluid transport pipe 10. The packing is pressurized by the stopping end 121 to form a watertight structure between the body 110 and the fluid transport pipe 10. It has a structure that extends in the circumferential direction and surrounds the first pipe portion 111, and is formed to have a polygonal shape such as a hexagon to enable fastening of tools such as spanners or pipe wrenches, and is fastened with a male screw formed on the connection portion 11 on the inside. A female thread 125 is formed.

This fastening member 122 can freely move along the longitudinal direction of the first pipe portion 111 while being coupled to the first pipe portion 111, and can also freely rotate around the first pipe portion 111. .

As the fastening member 122 is configured to rotate independently rather than with the body 110, the fastening member 122 can be fastened to the connection portion 11 without rotating the body 110.

Therefore, the body 110 is rotated by rotating only the fastening member 122 while aligning the posture of the body 110 so that the directions of the thermometer 130 and the pressure gauge 140 installed on the body 110 face a direction favorable for measurement. Since (110) can be coupled to the fluid transport pipe (10), convenience and accuracy of work can be improved.

The thermometer 130 detects and indicates the temperature of the fluid passing through the fluid transport pipe 10, and is installed on the other end of the first pipe part 111 so as to be located on the opposite side of the connection part 120, and connects the first flow path. It includes a sensor rod 131 protruding from one end of the first pipe portion 111, wherein the end of the sensor rod 131 is connected to the body 110 and the fluid transportation pipe 10. 10) to detect the temperature of the fluid passing through the fluid transport pipe 10, and the temperature value detected through the sensor rod 131 is configured to be displayed through the dial indicator 132.

The pressure gauge 140 detects and indicates the pressure of the fluid passing through the fluid transport pipe 10, and is installed in the first coupling portion 113 formed in the second pipe portion 112 or at the end of the second pipe portion 112. Can be installed directly.

In this way, the pressure gauge 140 installed in the second pipe part 112 detects the pressure of the fluid flowing into the second pipe part 112, and the detected pressure value is configured to be displayed through the dial indicator 141.

The siphon valve 150 is installed in the second coupling portion 114 formed in the second pipe portion 112, or is installed directly in the second pipe portion 112 to control the flow path on the pressure gauge 140 side.

In the measuring device for building piping configured as described above, a third coupling portion 115 to which a drain pipe is connected may be further formed in the second pipe portion 112, and at this time, the siphon valve 150 measures pressure. It may be configured as a three-way valve that opens only the flow path, opens only the third coupling side flow path, or blocks both the pressure measurement flow path and the third coupling side flow path.

Meanwhile, Figure 8 shows a state in which the siphon valve consisting of a three-way valve is operated to open only the pressure measurement passage, and Figure 8 shows a state in which the siphon valve is operated to open only the third coupling side passage. , FIG. 10 shows a state in which the siphon valve is operated to close both the pressure measurement passage and the third coupling portion side passage.

The measuring device for building piping according to the present invention configured as described above can be installed in fluid transport pipes 10 such as hot water supply pipes, hot water return pipes, heating supply pipes, heating return water pipes, water supply pipes, and water return water pipes.

Meanwhile, a connection part 11 to which the measuring device according to the present invention is coupled is formed in the fluid transport pipe 10, and the connection part 11 is a branch formed with a male thread that is screwed to the fastening member 122 of the connection part 120. It can be constructed by installing piping materials such as tees on the fluid transport pipe 10.

Meanwhile, the measuring device for building piping according to the present invention transports fluid with the thermometer 130 assembled in the first pipe part 111 of the body 110 and the pressure gauge 140 assembled in the second pipe part 112. It is coupled to the pipe (10).

In this way, in order to couple the measuring device assembled with the thermometer 130 and the pressure gauge 140 to the connection part 11 formed in the fluid transport pipe 10, the connection part 120 formed in the first pipe part 111 is first connected to the fluid transport pipe. The posture of the measuring device is aligned to face the connection part 11 of (10), and a packing (not shown) is placed between the connection part 120 and the connection part 11, forming the connection part 120. By fastening the member 122 to the connection portion 11, the measuring device for building piping according to the present invention is installed in the fluid transport pipe 10.

In this way, the measuring device for building piping according to the present invention can significantly improve the convenience of work by allowing the thermometer 130 and the pressure gauge 140 to be installed in the fluid transport pipe 10 through a single fastening operation, and the thermometer ( The area of space required for installation of the pressure gauge 130) and the pressure gauge 140 can also be reduced.

On the other hand, when the measuring device according to the present invention is installed in the fluid transportation pipe 10, the end of the sensor rod 131 of the thermometer 130 is inserted into the fluid transportation pipe 10. The temperature is sensed through direct contact with the fluid passing through.

As described above, the measuring device installed in the fluid transport pipe 10 may also be connected to the drain pipe.

That is, when the third coupling portion 115 is further formed in the second pipe portion 112 and the siphon valve 150 is configured as a three-way valve to additionally control the pipe line of the third coupling portion 115, By connecting the drain pipe to the third coupling portion 115, the drain pipe can be easily constructed without installing a separate drain valve and drain pipe.

As described above, the measuring device for building piping according to the present invention is integrated with the thermometer 130 and the pressure gauge 140, so that the thermometer 130 and the pressure gauge 140 can be more easily installed in the fluid transport pipe 10. In addition, it is a very useful design that can significantly simplify the structure related to the thermometer 130 and pressure gauge 140 and the drain piping installed in the fluid transport pipe 10 by allowing it to be additionally connected to the drain pipe to form a drain pipe. am.

The present invention is not limited to the specific preferred embodiments described above, and various modifications can be made by anyone skilled in the art without departing from the gist of the invention as claimed in the claims. Of course, such changes are within the scope of the claims.

<Explanation of symbols for main parts of the drawing>
10: Fluid transport pipe 11: Connection part
110: body 111: first pipe
112: 2nd tube 115: 3rd joint part
120: connection part 121: stopping end
122: Fastening member 123: Stop ring
124: Home 130: Thermometer
131: sensor rod 140: pressure gauge
150: Siphon valve

Claims (3)

A first pipe part 111 forming a first flow path connected to the flow path of the fluid transport pipe 10, and a second pipe part branched from the first pipe part 111 to form a second flow path branched from the first flow path. Body 110 consisting of (112);
A connection part 120 installed at one end of the first pipe part 111 and coupled to the fluid transport pipe 10;
It is installed at the other end of the first pipe portion 111, and a sensor rod 131 for detecting temperature is inserted into the fluid transportation pipe 10 through the first flow path, and the fluid transportation pipe 10 ) a thermometer (130) that detects and displays the fluid temperature;
A pressure gauge 140 installed in the second pipe portion 112 and detecting and displaying the pressure of the fluid flowing into the second pipe portion 112; and
It consists of a siphon valve 150 installed in the second pipe part 112 to open and close the flow path of the second pipe part 112,
A third coupling portion 115 to which a drain pipe is connected is further formed in the second pipe portion 112,
The siphon valve 150 is composed of a three-way valve installed at the point where the second flow path, the pressure measurement flow path, and the third coupling side flow path intersect, and opens only the pressure measurement flow path, opens only the third coupling side flow path, or opens the pressure measurement flow path. A measuring device for building piping equipped with a thermometer and a pressure gauge, characterized in that it is configured to block both the measurement flow path and the third coupling side flow path.
delete In claim 1,
The connection part 120 is,
It extends from one end of the first pipe portion 111 in the circumferential direction of the first pipe portion 111, is formed to protrude in the radial direction of the first pipe portion 111, and has a groove 124 for installation of the stop ring 123. ) A stopping end (121) formed on the outer peripheral surface; and
The first pipe portion 111 is coupled to the first pipe portion 111 from the outside of the first pipe portion 111 and moves in the longitudinal direction of the first pipe portion 111 and can rotate around the first pipe portion 111. It is installed in the thermometer and the pressure gauge, characterized in that it consists of a fastening member 122 that is screwed to the connection part 11 provided in the fluid transport pipe 10 while accommodating the stopping end 121 therein. Equipped with measuring equipment for building piping.

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