KR101713124B1 - Flow and temperature-sensitive constant flow control valve - Google Patents

Abstract

The present invention is characterized in that a constant flow valve is installed in the hot water distributor, wherein the constant flow valve is provided with means for sensing the flow rate and temperature, and further provided with a mechanical valve driver, The present invention relates to a flow control valve for controlling flow rate and temperature of a building, which is applicable not only to central heating, district heating,
The heating control valve is connected to a water return pipe of the hot water distributor or a supply pipe side of the hot water distributor. The heating control valve includes a constant flow rate valve for determining the maximum flow rate and a constant flow rate heating control valve having a flow rate sensing unit for detecting the flow rate A diaphragm chamber having a diaphragm of the constant flow valve is provided at a lower portion of a valve body having an inlet and an outlet; A first passage opened and closed by a control valve and a second passage opened and closed by a main valve of the diaphragm are provided between the inlet and the diaphragm chamber; A valve actuator is provided at an upper portion of the valve body to move the control valve; An impeller chamber provided with an impeller of the flow rate sensing unit is provided between the second passage and the outlet; And a temperature sensing unit for sensing a temperature between the second passage and the flow rate sensing unit.

Description

Flow and temperature sensitive constant flow control valve (flow and temperature-sensitive constant flow control valve)

The present invention relates to a flow rate and temperature-sensitive constant flow rate heating control valve, and more particularly, to a flow rate control valve having a constant flow rate valve in a hot water distributor, wherein the constant flow rate valve is provided with means for sensing flow rate and temperature, By providing additional actuators, the quantity of water can be adjusted according to the flow rate and the temperature in the state where the maximum flow rate is set, so that it is applicable not only to the central heating or the district heating but also to the villas or individual houses using the individual heating. To a flow control valve capable of controlling the maximum flow rate.

Generally, a heating system installed in a house or an apartment can control the temperature by opening and closing the heating water flowing into each room by controlling the individual electric valve attached to the hot water distributor by the temperature controller installed in each room. However, when the individual valves of a specific room are closed, the pump is circulated to increase the head height of the pump, so that the pressure of the supply pipe of the hot water distributor rises and the flow rate of the pump increases. Falling phenomenon occurs. In particular, in the case of central heating or district heating that calculates the heating cost by the total flow rate by household, there is a case that the heating cost saving effect by controlling the quantity of heating can not be quantified.

The conventional hot water distributor is set so that it can not be changed once the total flow rate of the constant flow valve is set at the time of construction so that the constant flow rate constantly flows to the constant flow valve so that even if the room which does not need heating is closed, There is a problem that the hot water flows at a higher flow rate than the amount set through the return pipe.

In view of this, the inventor of the present invention has proposed in Japanese Patent No. 1101772 that a flow sensor and a main valve are installed at the water returning side of the hot water distributor to return the flow rate to a required amount in the hot water distributor, whereby the differential pressure In addition, the maximum flow rate to be supplied to the hot water distributor is set so that only the required flow rate (the open number of the motor-operated valves) flows through the main valve The flow rate control system of the present invention has been proposed.

However, since the flow rate control system of the present inventor does not require a constant flow rate valve, there is a problem that the flow rate control system of the present inventor can not be used in apartments and apartment houses in which a constant flow rate valve is to be installed. In addition, since the main valve and the flow sensor are separated, a process of assembling is added.

In view of this, the present inventor has proposed a main valve and a flow sensor integrated flow rate control system in Japanese Patent No. 1220997.

SUMMARY OF THE INVENTION The present invention has been made in view of the conventional problems, and it is an object of the present invention to provide a constant flow rate valve in a hot water distributor, wherein the constant flow rate valve is provided with means for sensing flow rate and temperature, , It is possible to control the quantity of water according to the flow rate and the temperature in the state where the maximum flow rate is set so that the flow rate and the temperature sensibility applicable to the villa or single house using the central heating or the district heating as well as the individual heating can be controlled. .

The heating control valve is connected to a water supply pipe or a supply pipe side of the hot water distributor. The heating control valve includes a constant flow rate valve for determining a maximum flow rate and a constant flow rate heating control valve having a flow rate sensing unit for detecting a flow rate A diaphragm chamber having a diaphragm of the constant flow valve is provided at a lower portion of a valve body having an inlet and an outlet; A first passage opened and closed by a control valve and a second passage opened and closed by a main valve of the diaphragm are provided between the inlet and the diaphragm chamber; A valve actuator is provided at an upper portion of the valve body to move the control valve; An impeller chamber provided with an impeller of the flow rate sensing unit is provided between the second passage and the outlet; And a temperature sensing unit for sensing a temperature between the second passage and the flow rate sensing unit.

According to the present invention, the use of a constant flow valve is essential where heat sources are commonly used, such as central heating or district heating. The constant flow rate valve sets the maximum flow rate. In the present invention, the means for sensing the temperature and the means for sensing the flow rate are integrated into the heating control valve.

The heating control valve is further provided with a mechanical valve actuator separately from the constant flow valve. Accordingly, the maximum flow rate is controlled by the constant flow rate valve, and when the flow rate is changed according to the opening degree of each room, the flow rate sensing means detects the flow rate to operate the mechanical valve driver. In addition, means for sensing the hot water temperature separately from the flow rate is provided. If the temperature is rapidly increased even if the flow rate is low, the mechanical valve driver is operated by detecting this. In the event of failure of the flow sensor, the mechanical valve actuator is operated to control the maximum flow rate.

Therefore, when the maximum flow rate is determined for each generation, when the flow rate changes according to the opening and closing amount of each room, the mechanical valve driver is activated and the mechanical valve driver is operated by sensing the change of the hot water temperature. , It can be applied to central heating or district heating as well as individual heating. In addition, since the means for sensing the temperature and the means for sensing the flow rate are integrally provided in the manufacturing process, the heating control valve is advantageous in that workability is improved by omitting a separate assembly process at the installation site.

In addition, since the mechanical flow rate control valve is initially controlled by the constant flow rate valve at the time of occurrence of a magnetic body abnormality or failure, the mechanical valve drive can not be operated. In this case, since the rapid flow rate change is not generated, .

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a conceptual diagram showing a state of installation of a heating control valve in an embodiment of the present invention
2 is a cross-sectional view of a heating control valve of an embodiment of the present invention
3 is a cross-sectional view of the temperature sensing unit of the heating control valve of the embodiment of the present invention
4 is a plan view of the flow sensing portion of the heating control valve of the embodiment of the present invention
5 is a sectional view of a heating control valve of another embodiment of the present invention

1 to 4, a pair of valves 62 and a plurality of actuators 63 are mounted in a line between a supply pipe distributor 60 and a return pipe distributor 61 in correspondence with the number of chambers, These drivers 63 are opened and closed by a control box 64 connected to the temperature regulator 65 of each room. And a heating control valve for limiting the maximum amount of heating water supplied to each room is provided on the return water distribution pipe (61) side.

The heating control valve includes an inlet 11 and an outlet 12 at both sides of the valve body 10 and a constant flow valve 20 at a lower center thereof. And a valve driver 30, a temperature sensing unit 50, and a flow rate sensing unit 40 are provided at an upper portion thereof.

The valve body 10 is provided with a first passage 13 and a second passage 14 continuously between the inlet 11 and the outlet 12, A chamber chamber 15 in which the diaphragm 21 of the flow valve 20 is placed is provided. And an impeller chamber 16 in which the impeller 41 of the flow rate sensing unit 40 is disposed is provided between the second passage 14 and the outlet 12. A temperature sensor 51 of the temperature sensing unit 50 is mounted above the second outlet 12.

The valve driver 30 is provided with a control valve 38 for opening and closing the first passage 13 and a valve shaft 36 operated by a spring 37 is provided on the control valve 38 . The valve shaft 36 is moved up and down by the cam 35 to open and close the first passage 13. The cam 35 is rotated by the horizontal shaft 34 and the horizontal shaft 34 is connected to the motor 31 via the driven gear 33 and the drive gear 32 so that the control valve 38 is rotated .

The constant flow rate valve 20 is provided with a supply hole 15a for connecting the inlet 11 and the chamber chamber 15. A spring 23 and a main valve 22 are installed on the upper portion of the diaphragm 21 And opens and closes the second passage 14.

The flow sensing unit 40 is provided with an impeller 41 that rotates in proportion to the flow of the heating water to the impeller chamber 16. The impeller 41 is mixed with the injection material A magnetic body 42 to be molded is provided to detect an electric signal proportional to the rotation. The flow rate signal detected in real time is sent to the flow rate detection section of the control box 64 and an adjustment signal according to the flow rate required in the control box 64 is sent to the valve driver 30, Respectively.

The temperature sensor 51 of the temperature sensing unit 50 is separated from the valve body 10 through the heat insulating tube 52. Therefore, since the surface temperature of the valve body 10 is not sensed but only the hot water temperature is sensed, the temperature detection is accurate.

Since the valve controller 30, the diaphragm 21, the temperature sensing unit 50, and the flow rate sensing unit 40 are integrally provided in the valve body 10 in the manufacturing process, the heating control valve of the embodiment of the present invention, The worker does not need to individually assemble these means, and workability is improved. It can be used for various applications such as central heating and district heating, where it is needed where a constant flow valve is needed and where a constant flow valve is not needed, such as individual heating.

The operation of the embodiment of the present invention is as follows. First, the inlet (11) and the outlet (12) of the valve body (10) are connected to the water distribution pipe (61) side of the hot water distributor. At this time, the results are the same even when connected to the supply distribution pipe 60 side.

A valve actuator 30 is installed at an upper portion of the valve body 10 and a constant flow valve 20 is installed at a lower portion of the valve body 10. The maximum flow rate is calculated for each generation at an initial setting, Set the opening. The hot water flowing into each chamber flows into the inlet 11 of the valve body 10 and then flows along the second passage 14 whose opening and closing amount is determined by the diaphragm 21. [ The hot water temperature is detected by the temperature sensor 51 provided above the second passage 14 and the flow rate is detected by the impeller 41 provided between the second passage 14 and the outlet 12 .

If the flow rate to each room is rapidly increased, the flow rate is increased while the hot water temperature is constant, and the impeller 41 senses it and sends a control signal to the control box 64. At this time, the motor 31 of the valve driver 30 is operated in accordance with the control signal to actuate the cam 35 so that the control valve 38 is lowered. Therefore, when the valve shaft 36 is lowered by the operation of the cam 35, the opening of the first passage 13 becomes narrower due to the descent of the control valve 38, and the flow rate is regulated.

Also, when the temperature of the hot water is rapidly increased, the temperature sensor 51 senses the flow rate of the hot water and sends a control signal to the control box 64. At this time, the motor 31 of the valve driver 30 is operated in accordance with the control signal to actuate the cam 35 so that the control valve 38 is lowered. Therefore, when the valve shaft 36 is lowered by the operation of the cam 35, the opening of the first passage 13 becomes narrower due to the descent of the control valve 38, and the flow rate is regulated.

5 is a cross-sectional view of a heating control valve according to another embodiment of the present invention, in which a temperature sensor 51 is embedded in the flow sensing unit 40. [ A temperature sensor 51 is installed in the center shaft 43 for rotating and supporting the impeller 41 inside the flow sensing unit 40. The impeller 41 has an opening 44 for exposing the center shaft 43 so that the temperature sensor 51 is brought into contact with hot water. A plurality of impellers 51 are radially provided between the upper plate 41a and the lower plate 41b and the upper plate 41a and the lower plate 41b are rotatably supported by the center shaft 43, The openings 44 are formed.

According to another embodiment of the present invention configured as described above, there is no need to separately provide temperature sensing means on the outside of the valve body 10, thereby reducing the number of assemblies and improving assembling performance. Further, the temperature sensing means is not exposed to the outside, do.

In this embodiment of the present invention, the central axis 43 for rotationally supporting the impeller 41 is essentially provided in the flow rate sensing unit 40. The central axis 43 serves not only to support the impeller 51, There is no other function. Therefore, the other embodiment of the present invention imparts the function to the center shaft 43, and the usability of the parts is improved.

A temperature sensor 51 is built in the center shaft 43. For this purpose, the center shaft 43 is formed in a hollow shape or the inside of the round bar is cut to form a hole, . The center shaft 43 in which the temperature sensor 51 is incorporated has an opening 44 formed in the impeller 41 so that the contact with the hot water can be smoothly performed.

10: valve body 11: inlet
12: outlet 13: first passage
14: second passage 15: chamber chamber
16: impeller chamber 20: constant flow valve
21: diaphragm 22: main valve
23: spring 30: valve actuator
31: motor 32: drive gear
33: driven gear 34:
35: cam 36: valve shaft
37: spring 38: regulating valve
40: Flow sensing unit 41: Impeller
41a: upper plate 41b: lower plate
42: magnetic body 43: center axis
44: opening part 50: temperature sensing part
51: Temperature sensor 52: Heat insulating tube

Claims (1)

A valve body connected to a water supply pipe or a supply pipe side of the hot water distributor is provided with an inlet and an outlet at both sides thereof and a diaphragm chamber provided with a diaphragm of a constant flow valve at a lower portion thereof; A first passage opened and closed by a control valve and a second passage opened and closed by a main valve of the diaphragm are provided between the inlet and the diaphragm chamber; A valve actuator is provided at an upper portion of the valve body to move the control valve; An impeller chamber provided with an impeller of a flow rate sensing unit is provided between the second passage and the outlet; Wherein the flow rate sensing unit includes a temperature sensor for sensing a temperature, the flow rate sensing unit including:
The valve actuator is provided at a lower portion of the valve body so as not to interfere with the upper end of the flow rate sensing unit.
The flow rate sensing unit includes a central shaft for rotatably supporting the impeller, wherein a temperature sensor is built in the center shaft;
A plurality of impellers are radially provided between an upper plate and a lower plate sandwiched between the upper and lower plates. The impeller is formed as an opening between the upper plate and the lower plate so that the central axis, in which the temperature sensor is built, Flow rate and temperature sensing knowledge. Fixed flow rate heating control valve.

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