KR100502190B1 - The Automatic Temperature-Adjusting Control Valve Using a Temperature Sensitive Disk Spring - Google Patents

Abstract

The present invention relates to an active constant temperature control valve equipped with a temperature sensitive plate spring; It is an object of the present invention to provide an active constant temperature regulating valve equipped with a temperature sensitive dish spring which allows the mixed water of the faucet bracket to maintain a constant temperature by using a temperature sensitive dish spring.

The present invention for achieving the above object is provided with a hot water inlet 11 on one side and a cold water inlet 12 on the other side and the cap 13 is inserted into one side and the mixed water discharge port 14 in the center The case 1 is provided, the one side and one end of the cap 13 is connected to the flow rate control unit 2 inserted into the case 1, and the one end of the flow control unit 2 and The temperature control part 3 is inserted into the case 1 so that one side is connected, and is inserted into the flow control part 2 so that one end is connected to one side surface of the flow control part 2 and the other side. The end is an active constant temperature regulating valve equipped with a temperature sensitive plate spring, characterized in that consisting of a temperature sensitive part 4 which is operated by a temperature sensitive plate spring inserted into the central portion of one side of the temperature control unit 3. Let that thing be about the technical gist.

Description

The Automatic Temperature-Adjusting Control Valve Using a Temperature Sensitive Disk Spring}

The present invention relates to an active constant temperature regulating valve equipped with a temperature sensitive plate spring, and more particularly, to a temperature sensitive plate that allows the mixed water of the faucet bracket to maintain a constant temperature by using a temperature sensitive plate spring. It relates to an active constant temperature control valve equipped with a type spring plate.

In general, in the case of a faucet installed in a bathroom, a kitchen, a washbasin, the mixed water of a set temperature is not continuously discharged to a constant temperature. In other words, the supply of cold and hot water changes regardless of the set temperature according to the environmental change, and the mixed water disregarding the set temperature is discharged, and in severe cases, it is harmful to a part of the body and causes burns. When taking a shower in a public bath, turn on the tap of the shower to sense the temperature of the mixed water by hand and adjust the temperature of the mixed water by hand to discharge the excess water unnecessarily to obtain the proper temperature mixed water. There is a problem in that waste of water resources, and when using the shower to adjust the temperature of the mixed water as described above, if another person adjusts the temperature of the mixed water using another shower, discharged to the shower used There was a problem that the temperature of the mixed water is changed.

In addition, the conventional constant constant temperature control valve using a wax element has been used in general, the active constant temperature control valve using the wax element is to use the physical properties of the material having a large coefficient of thermal expansion at a low temperature (10 ~ 60 ℃) Extremely small displacement occurs and the force generated by the displacement is also very small. The return compression spring, which helps push and pull the flow control valve that controls the amount of cold / hot water, also has to design a low spring constant. The frictional force acts more than the thermal expansion force of the wax element or the expansion force of the return compression coil spring, which causes a problem of delayed operation of the flow regulating valve. Expect the desired operating performance When the supply of cold water or hot water suddenly changes, there is a problem that a difficult case occurs and there is a problem that the temperature of the mixed water rises or falls overshooting during a delay of 2 to 3 seconds. .

The present invention is devised to solve the above-mentioned conventional problems, the size of the product is miniaturized by applying a temperature-sensitive plate spring exerting a large load at a small displacement before the hot water supply in the bathroom, kitchen, washbasin, etc. In addition to being able to supply a constant temperature of mixed water according to the set temperature, it is equipped with a temperature sensitive plate spring to reduce waste of water due to temperature control, to be used more safely by the user, and to reduce production cost. It is an object to provide an active constant temperature control valve.

Referring to the configuration of the present invention in conjunction with the accompanying drawings as follows.

Figure 1 shows an overall cross-sectional view according to the present invention, Figure 2 shows an exploded perspective view of the main parts according to the invention, Figure 3 shows a perspective cross-sectional view according to the invention, Figure 4 shows the invention As showing a perspective view of the mixed water chamber according to the configuration, the configuration is provided with a hot water inlet 11 on one side of the upper surface and the cold water inlet 12 on the other side and the cap 13 is inserted into one side and the center portion A case 1 having a mixed water discharge port 14 is provided.

The flow rate adjusting unit 2 is inserted into the case 1 so that one end and one end of the cap 13 inserted into one side of the inner surface of the case 1 are connected.

As described above, the flow rate adjusting unit 2 inserted into the case 1 and connected to one side of the cap 13 includes a return compression coil spring 21 connected to one side and one end of the cap 13. And a flow rate control valve 22 connected to one end and one side of the return compression coil spring 21, and having a mixed water chamber 23 connected to one side and one end of the flow control valve 22. It is composed.

In addition, the mixed water chamber 23 obtains a plurality of mixed water outlets 231 on the outer circumferential surface and has a spiral 232 on the inner surface thereof.

It is provided with a temperature control unit 3 inserted into the case 1 so that one end and one side of the flow control unit 2 is connected.

The temperature control part 3 inserted into the case 1 and connected to one end of the flow control part 2 includes a sheet plate guide 31 connected to one end of the mixed water chamber 23. And, one side of the sheet plate guide 31 is provided with a temperature control unit guide 32 is connected to one end, and inserted into the temperature control unit guide 32, one end is the temperature control unit guide 32 It has a control rod 33 connected to protrude out of the temperature control unit guide 32 through one side central portion of the), and has a buffer spring (34) fitted to one end of the control rod 33, One end is inserted into the shock absorbing spring 34 is composed of an adjustment push rod guide 35 is connected to one end and one end of the control push rod 33.

Inserted into the mixed water chamber 23 of the flow control unit 2, one end is inserted and connected to the central portion of one side of the flow control valve 22 and the other end is inserted into the center of the seat plate guide 31 And a temperature sensitive part 4 connected to the adjustment pusher guide 35.

The temperature sensitive part 4 is provided with a pusher 41 inserted into the mixed water chamber 23 and having one end inserted into and connected to a central portion of one side of the flow control valve 22. 41 is provided with a temperature sensitive plate spring 42 made of a shape memory alloy fitted to one end of the one end, one end and one side of the temperature sensitive plate spring 42 is connected and the other side is the sheet plate guide ( It is composed of a sheet plate 43 connected to one end of the adjustment push guide 35 through the central portion of one side of the 31.

Referring to the configuration as described above the operation of the present invention.

When the adjusting rod 33 of the temperature control unit 3 is rotated to one side, the adjusting rod 33 is inserted into the temperature control unit guide 32.

As described above, when the adjustment pusher 33 is rotated to one side and inserted into the temperature control unit guide 32, the control pusher guide 35 connected to the control pusher 33 moves toward the hot water inlet 11. At the same time, the temperature sensitive portion 3 composed of the seat plate 43 and the temperature sensitive plate spring 42 and the push rod 41 connected to one end of the adjusting rod guide 35 also moves in the direction of the hot water inlet 11. .

As described above, as the temperature sensitive part 3 moves toward the hot water inlet 11, the flow control valve 22 also moves toward the hot water inlet 11 to compress the return compression coil spring 21.

That is, when the adjustment push rod 33 is rotated to one side as described above and inserted into the temperature control unit guide 32, the flow control valve 22 moves toward the hot water inlet 11, thereby closing the hot water inlet 11. As the cold water inlet 12 is opened, the amount of hot water introduced into the mixed water chamber 23 is reduced and the amount of cold water is increased, thereby lowering the temperature of the mixed water.

In addition, when the control rod 33 is rotated to the other side to protrude the control rod 33 to the outside of the temperature control guide 33, the flow control valve by the elastic force of the return compression coil spring 21 ( As the 22 is pushed toward the cold water inlet 12, the hot water inlet 11 is opened and the cold water inlet 12 is closed, thereby increasing the amount of hot water and decreasing the amount of cold water, thereby increasing the temperature of the mixed water.

By rotating the control rod 33 of the temperature control unit 3 to the left and right as described above, the position of the flow control valve 22 is moved to the left and right to adjust the size of the hot water inlet 11 and the cold water inlet 12. Adjust the temperature of the mixed water.

After adjusting the position of the flow regulating valve 22 according to the temperature set as described above, the cold and hot water introduced through the cold water inlet 12 and the hot water inlet 11 are set by the flow regulating valve 22. After the flow rate of cold and hot water is adjusted according to the temperature, the mixed water chamber 23 is introduced.

Cold and hot water introduced into the mixed water chamber 23 as described above is induced by the spiral 232 provided inside the mixed water chamber 23 to cause the flow of the mixed water to generate a vortex phenomenon, the second complete mixing After the mixed water flows into the case 1 through the mixed water discharge port 231, the mixed water is supplied at a temperature set through the mixed water discharge port 14 provided in the case 1.

However, when the faucet bracket is used elsewhere around the faucet bracket when the faucet bracket is being used after adjusting the temperature of the mixed water as described above, the flow rate of the cold and hot water is changed and the faucet bracket is used. The temperature of the set mixed water is changed.

When the temperature of the set mixed water of the faucet is lowered by using the faucet bracket at a different place around the faucet bracket used as described above, the temperature sensitive portion 4 becomes lower. The temperature sensitive plate spring 42 made of a shape memory alloy connected to one side of the push rod 41 is contracted so that the push rod 41 and the flow control valve 22 connected to the temperature sensitive plate spring 42 are flow-through. The hot water inlet 11 is opened by moving in the direction of the cold water inlet 12 by the elastic force of the return compression coil spring 21 mounted between one side of the control valve 22 and the cap 13 so that the inflow amount of hot water is opened. By increasing, the temperature of the mixed water can be maintained at the set temperature.

In addition, when the temperature of the mixed water of the faucet is increased due to the change in the flow rate of the cold and hot water using the faucet bracket elsewhere around the faucet bracket, one side of the pusher 41 of the temperature sensitive section 42 is located. The temperature-sensitive dish spring 42 made of a connected shape memory alloy expands, and the rod 41 moves toward the hot water inlet 11, and the flow regulating valve 22 is connected to one end of the rod 41. In addition, by moving toward the hot water inlet 11, the size of the hot water inlet 11 is reduced and the size of the cold water inlet 12 is increased, thereby increasing the amount of cold water to maintain the temperature of the mixed water at the set temperature.

As described above, the active constant temperature control valve equipped with the temperature sensitive plate spring 42 can accumulate and exert great force (energy) in a small space, which is an advantage of the plate spring, by applying the temperature sensitive plate spring 42. Not only can be miniaturized than the conventional wax element type, the manufacturing cost is reduced, and the set temperature reaction time can be effectively controlled.

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

The present invention is not only to reduce the size of the product by applying a temperature-sensitive plate spring exerting a large load at a small displacement in the faucet for supplying cold and hot water, but also to supply a mixed temperature of a constant temperature according to the set temperature This reduces the waste of water due to the temperature control and allows the user to use it more safely and saves production costs. It also finds the set temperature very quickly when the supply of cold water or hot water changes suddenly. It is a very useful invention to prevent the rising or falling overshooting phenomenon.

1 shows an overall sectional view according to the invention,

Figure 2 shows an exploded perspective view of the main parts according to the present invention,

Figure 3 shows a perspective cross-sectional view according to the present invention,

4 is a perspective view of the mixed water chamber according to the present invention;

<Description of the symbols for the main parts of the drawings>

(1): case (2): flow control part

(3): temperature control unit (4): temperature sensitive unit

(11): hot water inlet (12): cold water inlet

(13): cap 14: mixed water drain

21: return compression coil spring 22: flow control valve

23: mixed water chamber 31: sheet plate guide

(32): temperature control guide 33: adjustment rod

(34): shock absorbing spring 35: adjustable push rod guide

(41): push rod (42): temperature sensitive plate spring

43: sheet plate 231: mixed water outlet

(232): spiral

Claims (5)

delete delete delete delete A case (1) having a hot water inlet (11) on one side of the upper surface, a cold water inlet (12) on the other side, a cap (13) inserted and mounted on one side, and a mixed water outlet (14) in the center; , The inner surface of the cap 13 inserted into one end of the case 1 and one end of the return compression coil spring 21 are connected, and one end and one side of the return compression coil spring 21 are connected and an outer circumferential surface thereof. It is provided with a plurality of mixed water outlet 231 in the flow rate control unit 22 is inserted into the case (1) is a flow rate control valve 22 is provided with a mixed water chamber 23 having a spiral 232 therein ( 2) with, A temperature controller 3 inserted into the case 1 so that one end and one side of the flow controller 2 are connected; The one end is inserted into the flow control unit 2 and one end is connected to one side of the inside of the flow control unit 2, and the other end is inserted into the temperature sensitive dish spring connected to the center of one side of the temperature control unit 3. An active constant temperature control valve equipped with a temperature sensitive plate spring, characterized in that it comprises a temperature sensitive portion (4) operated by.