KR101233391B1 - Module of changing water path for water distributor combined with control valve - Google Patents

Abstract

According to the present invention, when the automatic valve 22 is integrally formed with the return distributor 21 among the heating boilers for distributing the heated hot water used for the single boiler or district heating, the inlet 24 is supplied with a supply distributor. Since it is formed opposite to the flow passage 14 of (11) and is not suitable for the operation of the automatic valve 22 using the globe valve or the diaphragm as an operating element, the flow path of the heating hot water is automatically supplied to each of the distribution ports of the return distributor 21. By inserting a flow path switching module 23 that can be switched to suit the operation of the valve 22, the distributor and the automatic valve 22 can be integrally formed in the water distributor.

Description

Flow switching module for automatic valve integrated return distributor {Module of changing water path for water distributor combined with control valve}

The present invention relates to a flow path switching module for an automatic valve-integrated return distributor, and more particularly, is inserted into a return distributor installed for return of a heated hot water distributor, thereby switching the flow path of the fluid flowing from the bottom of the return distributor, The present invention relates to a flow path switching module for an automatic valve-integrated return distributor, which does not apply direct pressure to an automatic valve installed at the top of the distributor so that the automatic valve can be effectively operated.

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The heating hot water system for heating with hot water separates and supplies the hot water introduced to the supply side to each room through the supply distributor, and the heat-exchanged heating water passing through each room is collected in the return distributor and returned to the heat source.
Heating and hot water distributors, such as supply distributors and return distributors, are often provided with branch pipes having two or more distribution ports. In this case, diaphragm or globe type automatic valves are provided at the top of each distribution port. In constructing a heating hot water distributor for each room control that can be controlled separately, the direction of the incoming fluid has a decisive influence on the operation of the automatic valve.
In other words, when the automatic valve for each room control is manufactured integrally with the heating hot water dispenser manufactured by forging plastic injection or metal material, the globe type valve or diaphragm valve except the ball valve is used for the flow of fluid. It is sensitive to direction.
Specifically, the supply distributor installed for the water supply of the heating hot water distributor is a hot water flows to the top to the pressure of the fluid, whereas the return of the diaphragm or globe type automatic valve by the fluid flows from the bottom of the distributor Since the pressure of the fluid is applied from below to above, the automatic valve function cannot be effectively exerted.
As shown in FIG. 1, when the supply distributor 11 and the automatic valve 22 are integrally formed in the heating hot water distributor for each room control, the heating hot water introduced to the water supply side 15 of the supply distributor 11 is a diaphragm. The flow path is formed along the conduit 13 from the upper end of the distribution port formed with the automatic valve 22 to be opened or closed in accordance with the operation of the globe or the globe.
Therefore, it is easy to configure the automatic valve in the supply distributor 11, but in the case of the return water distributor shown in Figure 2 there is a technical difficulty in forming the automatic valve 22 integrally because the direction of the fluid is different. In addition, when the automatic valve installed for the control of the room is installed in the supply distributor 11, due to the high temperature, pressure and water hammer occurs, the case of installing the automatic valve 22 in the return distributor 21 is increasing. Considering this, there is a need for a solution to these technical difficulties.
As described above, in order to configure the automatic valve 22 in the return distributor, the same flow path shape as that of the supply distributor 11 should not be used. Therefore, the heating hot water flowing into the lower end of the distribution port is used to facilitate the operation of the automatic valve 22. There is a need to switch to ensure the performance of the automatic valve.
That is, in the case of the return distributor in which the heating hot water supplied from the supply distributor is returned through each room, the fluid flows in from the bottom of the return distributor, so that the bottom of the automatic valve, for example, the diaphragm is lifted by the pressure of the upward fluid. Since there is a problem that prevents the normal function of the automatic valve to be lowered, if it is possible to effectively change the direction of the fluid flowing into the bottom of the return distributor, it may be useful to install and use the automatic valve efficiently in the return distributor.

(Prior art document) Patent registration number 1005914260000

The present invention is inserted into the return distributor installed for the return of the heating hot water dispenser by switching the flow path of the fluid flowing from the bottom of the return distributor, the automatic valve so as not to apply a direct pressure to the automatic valve installed on the top of the return distributor It is to provide a flow path switching module for an automatic valve integrated return distributor so that can be effectively operated.

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According to the above object in the present invention is installed on the return side of the heating hot water distributor, the return valve is provided with an automatic valve for each control, integrally, the return of the return distributor so as not to affect the operation of the automatic valve A flow path switching module for inserting the flow path of the fluid flowing into the distributor is inserted, the flow path switching module, the cylindrical outer cylinder (28a); A discharge passage 27 disposed across the inside of the outer cylinder; And a cylindrical inner cylinder 29a communicating with the discharge passage 27 and disposed inside the outer cylinder 28a, and both ends of the discharge passage 27 are connected to the outer cylinder 28a to provide the fluid. As the discharge ports 27a and 27b are discharged, the fluid flows into the return distributor, and then rises to the outer passage 28 formed between the inner cylinder 29a and the outer cylinder 28a. It provides a flow path switching module for an automatic valve integrated return distributor, characterized in that is carried out by moving the inner passage 29 that is inside of 29a is discharged to the discharge port (27a, 27b) through the discharge passage (27). .
Here, the automatic valve 22 is preferably a diaphragm valve or a globe valve.

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As can be seen through the embodiments described above, in the present invention, when the heating hot water distributor and the automatic valve are integrally formed, the automatic valve 22, which was previously installed only in the supply distributor, can be installed in the return distributor. By controlling the heating separately for each room, it is possible to maintain comfortable heating and reduce the cost of fuel by using the automatic valve and the dispenser integrated into the dispenser for each room control. You can expect the effect.

1 is a view showing a configuration and a flow path of a fluid when an automatic valve is installed in a supply distributor;
2 is a view showing the configuration and the flow path of the fluid when the automatic valve is installed in the water return distributor according to the present invention;
Figure 3 is a view showing a three-dimensional model of the flow path conversion module provided in the water return dispenser in accordance with the present invention.

In the present invention, in the case where the heating control automatic valve 22 is separately provided for each room, the automatic valve is conventionally installed only in the supply distributor 11 for the distributor configured to integrally configure the heating hot water distributor and the automatic valve 22. Although it was possible, the flow path switching module 23 capable of switching the inflow channel of the return distributor can be manufactured so that it can be effectively inserted and coupled to the return distributor 21, so that it can be installed in a diaphragm valve or a globe type valve depending on the application range. It is a useful technique to enable application.
The present invention manufactures and installs a flow path switching module 23 that can switch the flow path of the heated hot water inside the return distributor 21 separately assigned to each room, as shown in detail "A" of FIG. 2. (21) Discharge ports 27a and 27b at both ends of the discharge passage 27 which are formed to communicate with the internal passage 29 through the internal passage 29 by switching the flow path of the heating hot water introduced from the lower side upward again. Effectively configured to exit to the return side (25) through) to prevent the problem of the operation of the automatic valve (22).
Looking at the structure of the flow path switching module 23 with reference to Fig. 2 showing a partial cross-sectional view of the flow path switching module 23 and Fig. 3 showing the flow path switching module 23 three-dimensional, the flow path switching module 23 is cylindrical And an inner cylinder 29a which is in communication with the discharge cylinder 27 and the discharge passage 27 disposed across the upper cylinder 28a and the inside thereof and disposed inside the outer cylinder 28a. Both ends of the discharge passage 27 are connected to the outer cylinder 28a to form discharge ports 27a and 27b.
Therefore, the flow path of the heating hot water introduced upwards from the bottom of the water return distributor 21 is converted downward by the flow path switching module 23 to pass through the inner passage 29 formed by the inner cylinder 29a and then discharged. It is comprised so that it may exit to the return side 25 through both discharge ports 27a and 27b of the passage 27. Accordingly, the fluid introduced into the return distributor 21 may be switched to return the flow path so as not to disturb the operation of the automatic valve 22 coupled to the upper portion.
More specifically, the heating hot water supplied from the supply distributor 11 is introduced into the lower inlet 24 of the return distributor 21 through each room along the branched heating pipe. At this time, the heating hot water introduced into the inflow passage 30 formed in the lower portion of the outer cylinder 29a of the flow path switching module 23 installed in the water return distributor 21 through the inflow port 24 is formed in the flow path switching module 23. It flowed to the upper part and moved to the upper end of the flow path switching module 23 along the outer passage 28 formed in the gap between the outer cylinder 28a and the inner cylinder 29a of the flow path switching module 23, and then installed in the supply distributor. As in the case, enters the raised gap of the diaphragm 26 and exits into the inner passage 29 formed in the inner cylinder 29a, and is connected to the outer cylinder 28a of the flow path switching module 23 at both ends thereof. The discharge ports 27a and 27b are formed and are discharged into the body of the return distributor 21 through the discharge passage 27 communicating with the inner passage 29 to be returned to the return side 25.
At this time, in the case of a heating hot water distributor manufactured using a plastic material or a metallic material such as stainless steel or brass, the automatic valve 22 and the flow path switching module 23 may be installed at the top and the inside of each distribution port of the return distributor 21. The flow path switching module 23 and the distributor are preferably configured to be combined so as to prevent leakage between the flow path switching module 23 and the inside of the distributor by a suitable bonding method such as welding or plastic bond depending on the material.

21: return divider 23: euro conversion module
22: automatic valve 24: inlet
25: return side 26: diaphragm
27: discharge passage 28: outer passage
28a: outer cylinder 29: inner passage
29a: inner barrel 30: inflow passage

Claims (2)

In the water return distributor is installed on the return side of the heating hot water distributor, the automatic valve for each room control is provided integrally,
The flow path switching module 23 is inserted into the return distributor to switch the flow path of the fluid flowing into the return distributor so as not to affect the operation of the automatic valve.
The flow path switching module,
A cylindrical outer cylinder 28a;
A discharge passage 27 disposed across the inside of the outer cylinder; And
A cylindrical inner cylinder 29a communicating with the discharge passage 27 and disposed inside the outer cylinder 28a;
Both ends of the discharge passage 27 are connected to the outer cylinder 28a to form discharge ports 27a and 27b through which the fluid is discharged.
After the fluid flows into the return distributor, the fluid rises to the outer passage 28 formed between the inner cylinder 29a and the outer cylinder 28a and moves on the inner passage 29 that is inside the inner cylinder 29a. The flow path switching module for an automatic valve integrated return distributor, characterized in that the discharge through the discharge passage 27 is discharged to the discharge port (27a, 27b).
2. The flow path switching module for an automatic valve integrated return distributor according to claim 1, wherein the automatic valve (22) is a diaphragm valve or a globe valve.

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