KR20120006683A - A water control valve for a room heating apparatus - Google Patents

Abstract

PURPOSE: A flow regulating valve of an indoor hot water boiler is provided to precisely control a flow of hot water by using a pair of magnets and an effect switch. CONSTITUTION: A flow regulating valve of an indoor hot water boiler comprises a valve unit(410), a valve body(420), a valve stem(430), a supporting block(440), a casing(450), a driven rotary body(460), a stepping motor(470), and a driving gear(480). A valve unit comprises a return water pipe connecter(411) in one side, a return water distributor connector(412) in the other side, and a valve body connector(413) in the center. The valve body is installed in the inner lower part of the valve body connecter and freely elevated. A male screw part(431) in the lower part of a valve stem is screwed into a female screw part(423) the inner upper part of the valve body. The valve stem elevates the valve body while rotating in a forward or reverse direction at the same spot. The supporting block supports a rotation of the valve stem and prevents an ascending of the valve body. The driven rotary body installed inside the casing is connected to the valve stem by a connecting pin(461). The driving gear inserted into a motor shaft(471) of the stepping motor is connected to the driven gear(462) of the driven rotary body.

Description

{A water control valve for a room heating apparatus}

The present invention relates to a flow control valve of an indoor hot water heating device, and more particularly, to precisely control the flow rate of the heating water returned from the heating coil of each room to control the heating temperature of each room. will be.

1 is a schematic diagram of an indoor hot water heating apparatus according to the present invention.

In particular, the present invention provides a boiler (10) for supplying heating water as shown in FIG. A circulation pump 20 installed in a pipe for supplying heating water from the boiler to the heating coil of each room; A return distributor 30 provided with a plurality of return branch pipes 31 to which heating water pipes returned from each room to the boiler 10 are connected; A flow control valve 40 installed at each of the return branch pipes 31 of the return distributor 30; A temperature sensor 50 installed at the flow control valve 40 for sensing a temperature of the return heating water; It relates to an indoor hot water heating device having a heating thermostat 60 for controlling the operation of the flow control valve 40 after receiving and analyzing the return temperature from the temperature sensor 50.

In the indoor hot water heating device, the heating water of the heating coil of each room is returned to the boiler 10 via the flow control valve 40, the return branch pipe 31, and the return distributor 30.

In addition, the temperature sensor 50 installed in the flow control valve 40 senses the heating water return temperature of the room and sends it to the heating thermostat 60, the heating thermostat 60 of the flow control valve 40 By controlling the operation, the heating temperature of the room is automatically adjusted.

That is, by adjusting the opening amount of the flow control valve 40 (return amount of heating water in the room) to adjust the heating temperature of the room to the set temperature, when the heating temperature of the room reaches the set temperature heating return valve (50) To close the return of heating water to maintain the set temperature.

In the related art, the flow rate control valve of the indoor hot water heating device has been used in the form of adjusting the opening amount of the valve by operating the driving motor through the control circuit of the circuit board (PCB) and controlling the operating time of the driving motor.

However, the flow control valve of the conventional indoor hot water heating device has a problem that it is difficult to implement the proportional control by adjusting the micro flow rate as well as the complicated structure and the smooth operation.

The present invention has been made in view of the above-mentioned conventional situation, and its purpose is to grasp the opening / closing amount and opening position and closing position of the valve in real time to enable fine flow rate control of the heating water from the heating coil of each room. It is to provide a flow control valve of the indoor hot water heating device to more precisely control the flow rate of the heating water returned from the side, and to more stably control the heating temperature of each room.

The flow rate control valve of the indoor hot water heating apparatus of the present invention for achieving the above object is provided with a return pipe connection portion on one side, a return water distributor connection portion is provided on the other side, the valve body is provided with a valve body connection portion in the center; A valve body for freely elevating a lower portion of the valve body connecting portion of the valve body to open and close the return flow path; A valve stem for screwing a lower male thread portion into a female screw portion of an upper portion of the valve body and lifting and lowering the valve body while rotating in a forward or reverse direction; A support block fixedly installed at an inner upper end of the valve body connecting portion of the valve body to support rotation of the valve stem and to limit the rise of the valve body; A casing provided on an upper portion of a valve body connecting portion of the valve body; A driven rotating body installed inside the casing, connected to the valve stem through a connecting pin, and provided with a driven gear on an outer circumference thereof; A stepping motor installed at one inner side of the casing; And a drive gear inserted into and coupled to the motor shaft of the stepping motor and connected to the driven gear of the driven rotating body.

In the flow control valve of the indoor hot water heating apparatus of the present invention, the driven rotating body is installed to be elevated on the upper portion of the valve stem, is elastically supported by a spring, and a manual handle is installed at the handle connecting portion provided at the upper end.

And a pair of magnets are installed at both sides of the rotation center of the upper end of the drive gear at intervals of 180 °, and a Hall Effect Switch corresponding to the magnets is installed at the lower end of the circuit board installed at the upper end of the casing. do.

The flow control valve of the indoor hot water heating device of the present invention may be configured in such a way that guide pins protrude from both sides of the upper end of the valve body, and guide holes into which the guide pins are inserted and coupled to both sides of the support block.

According to the flow control valve of the indoor hot water heating apparatus of the present invention, the return of heating water is provided through a pair of magnets installed at both sides of the rotation center of the upper end of the drive gear and an effect switch installed at the bottom of the circuit board. The flow rate can be precisely controlled, and the open and closed positions of the valve can be grasped in real time, so that proportional controlled heating can be provided, thereby saving energy and greatly improving the merchandise of the indoor hot water heater. You can get effects such as the.

1 is a schematic diagram of an indoor hot water heating apparatus according to the present invention
2 is a perspective view of an installation state of one embodiment of the present invention;
3 is an exploded perspective view of the embodiment;
4A is a longitudinal sectional view of the valve closed state of the embodiment;
4B is a longitudinal sectional view of the valve open state of the embodiment;

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings.

Figure 2 is a perspective view of an installation of one embodiment of the present invention, Figure 3 is an exploded perspective view of the embodiment, Figure 4a and Figure 4b is a longitudinal cross-sectional view of the valve closed state of the embodiment and the valve open state A longitudinal cross section of is shown.

2 to 4b, the flow control valve 40 of the indoor hot water heating apparatus of the present invention is

A valve body 410 having a return pipe connecting portion 411 at one side, a return ring connecting portion 412 at the other side, and a valve body connecting portion 413 at the center thereof;

A valve body 420 for lifting and lowering freely installed at an inner lower portion of the valve body connecting portion 413 of the valve body 410;

A valve stem 430 for lowering the male thread portion 431 is screwed to the female thread portion 423 inside the upper portion of the valve body 420 and lifts the valve body 420 while rotating in the forward or reverse direction. and;

A support block 440 fixedly installed at an inner upper end of the valve body connecting portion 413 of the valve body 410 to support rotation of the valve stem 430 and to limit the rising of the valve body 420;

A casing (450) provided on an upper portion of the valve body connecting portion (413) of the valve body (410);

A driven rotating body 460 installed inside the casing 450 and connected to the valve stem 430 through a connecting pin 461 and provided with a driven gear 462 on an outer circumference thereof;

A stepping motor 470 installed at one inner side of the casing 450;

And a driving gear 480 inserted into and coupled to the motor shaft 471 of the stepping motor 470 and connected to the driven gear 462 of the driven rotating body 460.

In the illustrated embodiment, the driven rotating body 460 is installed on the upper portion of the valve stem 430 so as to be elevated, elastically supported by the spring 463, and the manual handle 490 to the handle connecting portion 464 provided at the upper end thereof. It consists of installed forms.

In the illustrated embodiment, a pair of magnets 481 are installed at both sides of the rotation center of the upper end of the drive gear 480 at intervals of 180 °, and the lower end of the circuit board 510 is installed at the upper end of the casing 450. The Hall effect switch 511 corresponding to the magnet 481 is installed to detect the opening / closing amount of the valve and the maximum rising position and the maximum falling position of the valve body 420.

In addition, guide pins 422 protrude from both sides of the upper end of the valve body 420, and guide holes 442 may be formed at both sides of the support block 440 to insert the guide pins 422.

In the flow control valve 40 of the indoor hot water heating apparatus of the present invention configured as described above, the heating water return temperature detected by the temperature sensor 50 installed on one side of the valve body 410 is the heating thermostat 60. The stepping motor 470 is operated according to the operation signal of the heating thermostat 60, and the valve body 420 is raised and lowered to adjust the opening area of the flow path.

For example, when the heating water return temperature is lower than the set temperature, the heating thermostat 60 rotates the stepping motor 470 in one direction to raise the valve body 420 to increase the opening area of the flow path, thereby increasing the heating water return. When the temperature is equal to the set temperature, the flow path is sealed by rotating the stepping motor 470 in another direction to lower the valve body 420.

In the flow control valve 40 of the indoor hot water heating apparatus of the present invention, the motor shaft 471 of the stepping motor 470 and the driving gear 480 coupled thereto are one-way according to the operation signal of the heating thermostat 60. (For example, clockwise rotation), a valve connected to the driven rotating body 460 through the driven rotary body 460 and the connecting pin 461 connected to the driving gear 480 through the driven gear 462. The stem 430 is rotated in the other direction (for example, counterclockwise), and thus the valve body 420 screwed to the lower end of the valve stem 430 is released while descending, so that the opening area of the flow path is small. You lose.

When the motor shaft 471 of the stepping motor 470 and the driving gear 480 coupled thereto rotate in the other direction (for example, counterclockwise), the motor shaft 471 is connected to the driving gear 480 through the driven gear 462. The valve stem 430 connected to the driven rotor 460 through the driven follower 460 and the connecting pin 461 rotates in another direction (for example, clockwise), and thus the valve stem 430 As the valve body 420 screwed to the lower end of the) is tightened, the valve body 420 is tightened and the opening area of the flow path is increased.

In the valve body 420, as shown in FIG. 4A, the sealing ring 421 installed at the lower portion of the outer circumference of the valve body 410 touches the support step 414 provided at the inner lower portion of the valve body connecting portion 413 of the valve body 410, so that the flow path is completely. It may be lowered until it is closed, and as shown in FIG. 4B, the upper surface thereof may reach the lower surface of the support block 440 to be raised until the flow path is completely opened.

The maximum ascending position of the valve body 420 (completely opening the flow path) and the maximum descending position of the valve body 420 (completely closing the flow path) are provided at 180 ° intervals on both sides of the rotation center of the upper end of the drive gear 480. Is detected through a magnet 481 and an effect switch 511 of the circuit board 510, and stepping in the control circuit of the circuit board 510 at the maximum rising position and the maximum falling position of the valve body 420. The operation of the motor 470 is stopped.

On the other hand, in the flow control valve 40 of the indoor hot water heating apparatus of the present invention, it is possible to adjust the valve opening and closing amount through the manual handle 490.

That is, when the manual handle 490 is pressed in the flow control valve 40 of the indoor hot water heating device of the present invention, the lower end of the manual handle 490 is driven by the spring 463 to support the driven rotary body 460. As the driven rotary body 460 is pushed downward, the driven gear 462 of the driven rotary body 460 is separated from the driving gear 480. Thus, by pressing the manual handle 490, the driven gear 462 and When the driven rotating body 460 and the valve stem 430 are rotated through the manual handle 490 in the state in which the drive gear 480 is separated, the valve body 420 is lifted to open and close the valve.

As described above, the flow regulating valve of the indoor hot water heating device of the present invention is provided with a pair of magnets 481 and a lower portion of the circuit board 510 installed at 180 ° intervals on both sides of the rotation center of the upper end of the drive gear 480. Through the switch 511 (Hall Effect Switch) to detect the opening and closing amount of the valve to precisely control the heating water return flow rate, and to determine the open position and the closed position of the valve in real time to achieve a proportional controlled heating supply do.

The present invention described above is not limited to the above description, and various substitutions, modifications, and changes are possible within the scope without departing from the technical spirit of the present invention. It will be obvious to you.

10: boiler
20: circulation pump
30: return divider
40: flow control valve
50: temperature sensor
60: heating thermostat
410: valve body
411: return pipe connection
412: connection of the return distributor
413: valve body connecting portion
420: valve body
421: sealing ring
422 guide pin
423 female thread
430: Valve Stem
431 male thread
440: support block
442: guide hole
450: casing
460: driven rotating body
461: connecting pin
462: Driven Gear
463: spring
464: handle connection
470: stepping motor
471: motor shaft
480: Drive Gear
481: Magnet
490: Manual Handle
510: circuit board
511: Hall effect switch

Claims (4)

A valve body having a return pipe connecting portion provided at one side, a return pump connecting portion provided at the other side, and a valve body connecting portion provided at the center thereof;
A valve body for freely elevating a lower portion of the valve body connecting portion of the valve body to open and close the return flow path;
A valve stem for screwing a lower male thread portion into a female screw portion of an upper portion of the valve body and lifting and lowering the valve body while rotating in a forward or reverse direction;
A support block fixedly installed at an inner upper end of the valve body connecting portion of the valve body to support rotation of the valve stem and to limit the rise of the valve body;
A casing provided on an upper portion of a valve body connecting portion of the valve body;
A driven rotating body installed inside the casing, connected to the valve stem through a connecting pin, and provided with a driven gear on an outer circumference thereof;
A stepping motor installed at one inner side of the casing;
And a drive gear inserted into and coupled to the motor shaft of the stepping motor and connected to the driven gear of the driven rotating body.
According to claim 1, wherein the driven rotating body is installed on the upper portion of the valve stem to be elevated, elastically supported by a spring, the flow control of the indoor hot water heating apparatus, characterized in that the manual handle is installed on the handle connection provided on the top valve.
The hole of claim 1 or 2, wherein a pair of magnets are provided at both sides of the rotation center of the upper end of the drive gear at intervals of 180 °, and corresponding to the magnets at the lower end of the circuit board installed at the upper end of the casing. Flow control valve of the indoor hot water heater, characterized in that the effect switch (Hall Effect Switch) is installed.
The indoor hot water according to any one of claims 1 to 3, wherein guide pins protrude from both sides of the upper end of the valve body, and guide holes into which the guide pins are inserted and coupled to both sides of the support block. Flow control valve of heating system.

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