KR20090055322A - 3way valve for boiler - Google Patents

Abstract

A three way valve for a boiler is provided to minimize abrasion of a packing and to block leakage by realizing smooth stream passage conversion at three way valve. A three way valve for a boiler comprises a valve body(100) which includes a first and a second passages(120) which are branched from a heat exchanger, an eccentric cam assembly(200) which is installed at the motor shaft and includes a second cam unit adherently installed at the outer surface of a first cam unit, a shaft assembly(300) whereof one end is installed at the lower part of a second cam unit of the cam assembly and the other end is extended inside the valve body and an end has a packing, and which converts the torque of the second cam unit to the linear movement, and a switch(400) which controls the power applied in the drive motor according to the rotation state of the cam assembly.

Description

Three Way Valve for Boiler {3Way Valve for Boiler}

The present invention relates to a three-way valve for a boiler to solve the leak caused by poor sealing of the three-way valve installed in the boiler and to stably control the supply of hot water supplied for hot water and heating.

In general, a boiler is divided into a heating conduit for heating water by burning fuel and heating while the heated water circulates through a heating zone, and a hot water conduit for tapping hot water.

In the heating pipe line, the heating water is circulated by the operation of the circulation pump, and the heating water is heated in the heat exchanger through a burner in the circulation process and is supplied to the three-way valve side. The heating water passing through the three-way valve passes through the heating coil and performs a substantial heating function and returns through the return pipe. In addition, the hot water pipe is configured such that the direct water flowing through the direct water pipe passes through the inside of the hot water heat exchanger.

In the conventional three-way valve used as described above, a ball-shaped ball packing connected to the motor shaft of the driving motor provided therein opens and closes a flow path formed in the three-way valve, and is supplied to a heating line or a hot water line. In addition, uneven wear caused by the continuous operation of the ball packing is caused, causing a problem that the sealing is lowered when opening and closing the flow path.

The reduction in sealing may cause a problem in which the heating water leaks to the outside of the three-way valve, causing anxiety to the user and lowering the reliability of the product.

An object of the present invention is to switch the rotational motion of the drive motor to a linear motion to smooth the flow path in the three-way valve and to minimize the wear of the packing to block the occurrence of leakage, and to reduce the manufacturing process of the three-way valve by reducing the manufacturing cost It is to provide a three-way valve for the boiler to reduce the economic burden of the consumer through.

In order to achieve the above object, the three-way valve for a boiler according to the present invention has a main flow path receiving hot water heat exchanged from a main heat exchanger, and a main flow pipe communicating with the main flow path, and the hot water heat exchanged from the main heat exchanger is heated. Or a valve body including first and second flow paths each branched to be supplied to a heating line; And a first cam coupled to the motor shaft of the driving motor located above the valve body to receive rotational force, and a second cam portion eccentrically installed on the motor shaft and closely attached to an outer surface of the first cam portion. A cam assembly; A shaft part of which one end is installed below the second cam part of the cam assembly and the other end is formed to extend into the valve body, and the packing part is provided at the end to receive the rotational motion of the second cam part and convert the linear motion into a linear motion; And a switch unit which is contact-operated according to the rotation state of the cam assembly to control the power applied to the driving motor.

The first and second flow path pipes of the valve body are provided with bosses each end of which extends to the inside of the valve body, and includes an end portion of the boss including a round part protruding outwardly to the outside.

The first cam portion of the cam assembly according to the present invention is configured such that a first key hole into which a motor shaft is inserted is formed at an intersection point generated when a vertical horizontal line and a vertical line are drawn based on the center of the cam body formed in a disc shape.

The second cam portion of the cam assembly according to the present invention is the second key hole formed at the intersection generated when a vertical horizontal line and a vertical line are drawn with respect to the center of the cam body formed in a disc shape, and the cam body is referred to based on the intersection point. And a first protrusion protruding outwardly on the outer circumferential surface, and a second protrusion protruding outwardly under the outer circumferential surface of the cam body to face each other with the first protrusion.

The first projection of the second cam portion is formed to protrude at the same linear position as the upper surface of the second cam portion, and the second projection is configured to protrude to the same linear position as the lower surface of the second cam portion.

The shaft portion according to the present invention and the transfer plate provided below the second cam portion of the cam assembly,

A shaft installed below the transfer plate and extending into the valve body;

A spring inserted into the shaft to support one end of the lower side of the transfer plate and the other end of which is supported by the outside of the valve body and supported by the operation of the cam assembly;

It is installed to the shaft is configured to include an O-ring to prevent the outflow of hot water to the outside of the shaft which is operated up and down the inside of the valve body.

The packing of the shaft portion is formed in the form of a plate. The reason for this is to maintain the line contact state on the round portion formed at the end of the boss to improve the sealing property.

The switch unit according to the present invention is pushed by the first cam unit of the cam assembly to switch off the power applied to the drive motor;

And a second switch that is pushed by the second cam portion when the cam assembly is rotationally operated by the drive motor in a state where the first switch is turned off.

According to another exemplary embodiment of the present invention, a main flow path tube receiving hot water heat exchanged from a main heat exchanger and a main flow path communicating with the main flow path tube may be supplied to a hot water supply line or a heating line. A valve body including first and second flow paths each branched is provided.

A first cam portion coupled to the motor shaft of the drive motor located on the upper side of the valve body receives a rotational force, and a second cam portion provided on the motor shaft and tightly installed on the outer surface of the first cam portion.

A cam assembly including a second cam portion having protrusions protruded only in a half section in the entire outer edge portion of the second cam portion is provided.

According to the present invention, one end of the shaft is installed below the first cam part of the cam assembly, and the other end is formed to extend into the valve body, and the packing is provided at the end to receive the rotational motion of the first cam part and convert the linear motion. It is configured to work.

It is configured to include a switch unit for contacting the operation according to the rotation state of the cam assembly to control the power applied to the drive motor.

The protrusion of the second cam portion according to the present invention is configured such that the inclined portion of which the tip and the rear end of the protrusion are inclined upward for stable contact contact with the switch portion.

The first cam portion of the cam assembly is configured such that the motor shaft is inserted and installed above the intersection point generated when a virtual horizontal line and a vertical line are drawn at the center of the first cam portion.

The protruding portion of the second cam portion is configured to be installed at either the right side or the left side of the intersection generated when a virtual horizontal line and a vertical line are drawn at the center of the second cam portion.

The switch unit may be a single switch in contact with the protrusions of the second cam unit.

Hereinafter, an embodiment of a three-way valve for a boiler according to the present invention will be described with reference to the accompanying drawings.

1 is a view showing a state in which a three-way valve for a boiler according to the present invention is installed in a boiler, and FIG. 2 is a view showing a three-way valve for a boiler according to the present invention, and FIGS. 3a to 3b illustrate the present invention. The first cam portion provided in the three-way valve for the boiler according to Figure 4a to 4b is a view showing the second cam portion provided in the three-way valve for the boiler according to the present invention, Figures 5a to 5b Figure 3 is a view showing a cam assembly provided in the three-way valve for the boiler according to the invention, Figure 6 is a view showing a switch provided in the three-way valve for the boiler according to the present invention, Figures 7 to 9 are boilers according to the present invention Figure 3 is an operating state of the three-way valve for, Figure 10 is a view showing a cam assembly according to another embodiment of the three-way valve for the boiler according to the present invention, Figure 11 is provided in another embodiment of the three-way valve for the boiler according to the present invention Figure is a view showing the operating state according to the contact operation of the switch.

1 to 6, the main flow path tube 110 receiving hot water heat exchanged in the main heat exchanger 2 and the main flow path tube 110 are formed in communication with the main heat exchanger 2. The valve body 100 includes first and second flow path tubes 120 and 130 branched to allow the heat-exchanged hot water to be supplied to the hot water supply line or the heating line.

Cam assembly 200 according to the present invention is coupled to the motor shaft of the drive motor 10 located on the upper side of the valve body 100, the first cam portion 210 to receive the rotational force and the motor shaft eccentrically It is installed and is configured to include a second cam portion 220 in close contact with the outer surface of the first cam portion (210).

One end of the shaft portion 200 according to the present invention is installed below the second cam portion 220 of the cam assembly 200, and the other end extends into the valve body 100, and a packing 310 is provided at the end thereof. Is configured to receive the rotational motion of the second cam unit 220 is converted to a linear motion operation,

The switch unit 400 according to the present invention is configured to intermittently operate power applied to the driving motor 10 by contact operation according to the rotation state of the cam assembly 200.

The first and second flow path pipes 120 and 130 of the valve body 100 are provided with bosses 122 and 132, each end of which extends inwardly of the valve body 100, wherein the bosses 122, The end of the 132 is configured to include round portions 124, 134 protruding outwardly round.

The first cam portion 210 of the cam assembly 200 is formed with a first key hole 212 into which a motor shaft is inserted at an intersection point generated when a vertical horizontal line and a vertical line are drawn based on the center of the cam body formed in a disc shape. Configured to

The second cam portion 220 of the cam assembly 200 has a second key hole 222 formed at an intersection generated when a vertical horizontal line and a vertical line are drawn with respect to the center of the cam body formed in a disc shape, and the intersection point described above. The first protrusion 224 protruding outwardly on the outer circumferential surface of the cam body as a reference, and the second protrusion 226 protruding outwardly on the lower circumferential surface of the cam body facing each other to face the first protrusion 224. It is configured to include.

The first protrusion 224 of the second cam portion 220 protrudes in the same linear position as the top surface of the second cam portion 220, and the second protrusion 226 is colinear with the bottom surface of the second cam portion 220. It is configured to protrude in position. The reason why the first and second protrusions 224 and 226 are formed will be described later.

The second cam portion 220 of the cam assembly 200 is installed on the upper side of the first cam portion 210, the second key hole 222 formed in the second cam portion 220 and the first cam portion 210 It is preferable that the first key holes 212 formed are inserted into the motor shaft of the drive motor 10 in a state where they are located on the same line.

The shaft part 300 according to the present invention includes a transfer plate 320 installed below the second cam part 220 of the cam assembly 200,

Is installed on the lower side of the transfer plate 320 and the shaft 330 extending inwardly of the valve body 100,

A spring 340 inserted into the shaft 330 and supported at one end of the lower side of the transfer plate 320 and supported at the other end of the valve body 100 to be supported by the operation of the cam assembly 200;

It is inserted into the shaft 330 is configured to include an O-ring 350 to prevent the outflow of hot water to the outside of the shaft 330 which is operated up and down in the valve body 100.

The transfer plate 320 is formed in a disc shape and is formed larger than the diameter of the spring 340 to prevent the outer departure of the spring 340, even when the spring 340 is compressively deformed transfer plate ( 320) to ensure a stable support.

The packing 310 of the shaft part 300 is formed in a plate shape. The reason for this is to maintain the state of being in line contact on the round portions 124 and 134 formed at the ends of the bosses 122 and 132 to improve the sealing property.

Switch unit 400 according to the present invention is push-operated by the first cam unit 210 of the cam assembly 200 and the first switch 410 to cut off the power applied to the drive motor 10,

It is configured to include a second switch 420 that is pushed by the second cam portion 220 when the cam assembly 200 is rotated by the drive motor 10 in a state that the first switch 410 is off. .

The configuration according to another embodiment of the present invention is formed in communication with the main flow path tube 110 'receiving the hot water heat exchanged in the main heat exchanger 2, the main flow path tube 110' and the main heat exchanger (2) The valve body 100 ′ including the first and second flow path pipes 120 ′ and 130 ′ respectively branched to supply hot water heat exchanged from the hot water supply line to the hot water supply line or the heating line is provided.

A first cam portion 210 'coupled to the motor shaft of the drive motor 10 located above the valve body 100' and receiving a rotational force, and installed on the motor shaft, and of the first cam portion 210 '. The second cam portion 220 'is provided to be in close contact with the outside,

The cam assembly 200 ′ including the second cam part 220 ′ having the protrusion 222 ′ protruding only in a half section in the entire outer edge of the second cam part 220 ′ is provided.

One end of the shaft 300 according to the present invention is installed below the first cam portion 210 'of the cam assembly 200' and the other end is formed to extend into the valve body 100 'and is packed 310 at the end. ) Is provided to receive the rotational motion of the first cam portion (210 ') is configured to convert to linear motion.

It is configured to include a switch unit 400 'for contacting operation according to the rotation state of the cam assembly 200' to control the power applied to the driving motor 10.

The protrusion 222 ′ of the second cam portion 220 ′ is an inclined portion 224 in which the tip and rear ends of the protrusion 222 ′ are inclined upward for stable contact contact with the switch 400 ′. ') Is formed.

The first cam portion 210 'of the cam assembly 200' is configured such that a motor shaft is inserted and installed at an intersection point generated when a vertical horizontal line and a vertical line are drawn at the center of the first cam portion 210 '. Because the transmission plate 320 of the shaft portion 300 is located below the first cam portion 210 ', the transfer plate 320 according to the rotation state of the first cam portion 210'. In order to raise and lower the shaft 330 in surface contact with.

The protrusion 222 ′ of the second cam portion 220 ′ is configured to be installed at either the right side or the left side of the intersection generated when a virtual horizontal line and a vertical line are drawn at the center of the second cam portion 220 ′. In the embodiment of the present invention, the protrusion 222 ′ has been described as being located on the right side, but is not particularly limited to the right side.

The switch unit 400 'uses a single switch in contact with the protrusion 222' of the second cam unit 220 'on and off contacts.

The operating state of the three-way valve for a boiler according to the present invention configured as described above will be described with reference to the drawings.

1 to 7, the hot water heated in the main heat exchanger 2 installed in the boiler is pressurized through the hot water circulation pump 4 and introduced into the three-way valve 1, and the heating coil 7 is Power is applied to the drive motor 10 by a control unit installed in the controller to supply hot water in the installed D direction .

The drive motor 10 is a rotation speed of the motor shaft is reduced by a reducer (not shown) installed in the drive motor 10 itself is made to rotate gradually in one direction.

The first cam unit 210 presses the transfer plate 320 downward in parallel with the rotation of the cam assembly 200 to move the shaft 330 integrally formed with the transfer plate 320 downward. As the shaft 330 is downward, the spring 340 is compressed and deformed, and the packing 310 is in surface contact with the boss 132 of the second flow path 130.

The round part 134 formed at the end of the boss 132 maintains the line contact state with the lower side of the packing 310, and the hot water supplied to the main flow path tube 310 passes through the first flow path tube 120. Via the auxiliary heat exchanger (6).

The hot water supplied to the auxiliary heat exchanger 6 is supplied to a sink, a sink, or supplied to a bathroom to be used by a user.

The second cam part 220 which is simultaneously rotated with the first cam part 210 pushes the first switch 410 of the switch part 400 by the first protrusion 224. The first switch 410 is pushed by the first protrusion 224 to transmit a signal to the control unit,

The control unit receives the signal according to the push operation of the first switch 410 and cuts off the power applied to the driving motor 10 to control the driving motor 10 to no longer rotate.

As shown in Figure 7 to 8, the three-way valve 1 according to the present invention is operated as described above in the direction of the first flow pipe 120 in the direction of the first flow pipe 120 in the direction A, B in the direction of the main flow pipe 110. The flow of hot water is switched and the supply is made.

The state in which the three-way valve used as described above is converted to a heating state will be described with reference to the drawings.

Referring to FIG. 7 or 9, when no hot water is needed after the hot water is used by the user, the hot water button installed in the controller is turned off and is converted to a heating state.

The hot water heated in the main heat exchanger (2) installed in the boiler is pressurized through the hot water circulation pump (4) to flow into the three-way valve (1).

The control unit controls to rotate the motor shaft by applying power to the drive motor 10 to supply hot water in the D direction in which the heating coil 7 is installed.

The motor shaft is rotated while the control unit applies power to the drive motor 10, and the pressed state of the first protrusion 224, which is pushing the first switch 410 by the rotation operation of the cam assembly 200, is released. do.

At the same time, the first cam unit 210 is rotated and the compressed state of the spring 340 that has been elastically compressed by the transfer plate 320 is released to lift the transfer plate 320 upwards. The compression state of the spring 340 is gradually released according to the rotation state of the first cam part 210 which is in surface contact operation with the 320, and the transfer plate 320 is lifted upward.

At the same time, the packing 310 holding the second flow path tube 130 in a closed state is lifted upward along with the shaft 330 to form a round part 124 formed at the end of the boss 122 of the first flow path pipe 120. ) And the hot water flow to the first flow path pipe 120 is blocked.

While the first cam part 210 of the three-way valve 1 according to the present invention is completely rotated, the second protrusion 226 located on the opposite side of the first protrusion 224 pushes the second switch 420 to a corresponding signal to the controller. Send it. The controller receives the signal transmitted from the second switch 420 and cuts off the power applied to the driving motor 10 so that the three-way valve 1 is no longer rotated to operate the motor shaft of the driving motor 10. To control.

The packing 310 remains in close contact with the round part 124 of the first flow path pipe 120 by the operation of the driving motor 10, and the hot water supplied through the main flow path pipe 110 is heated in the heating coil 7. ) Is heated by heating.

The O-ring 350 according to the present invention prevents leakage to the outside of the malb body 100 when the shaft 330 installed on the shaft part 300 moves up and down so that the heating water according to the operation of the shaft 330 is prevented. Shut off the leak and make it safe to use.

Another embodiment according to the configuration of the three-way valve for the boiler according to the present invention will be described with reference to the drawings.

Referring to FIG. 10, the three-way valve 1 ′ according to another embodiment of the present invention has a protrusion 222 ′ as shown in the drawing on the second cam portion 220 ′ of the cam assembly 200 ′. It can be formed and used.

As power is applied to the drive motor 10 from the controller, the motor shaft is rotated, and the first cam portion 210 ′ connected to the motor shaft is rotated counterclockwise. (The rotation direction can be changed as necessary. In this embodiment, it is described that the counterclockwise operation is operated in a hot state, the clockwise operation is a heating state)

As the hot water is selected by the user, the contact 410 'of the switch 400' is pushed while being in surface contact with the inclined portion 224 'according to the rotation of the first cam portion 210'.

The contact 410 ′ is stably pressed by the inclined structure of the inclined portion 214 ′ to maintain the surface contact with the protrusion 222 ′, and the lower side of the first cam portion 210 ′. The transmission plate 320 located in the shaft 330 is elevated by the elastic force of the spring 340 ', and the packing 310 provided at the end of the shaft 330 to seal the first flow path pipe 120 Became

The operation state according to the contact operation of the switch unit according to the present invention will be described with reference to the drawings.

Referring to FIG. 11, before the hot water is selected by the user, the contact point 410 ′ of the switch unit 400 ′ is spaced apart from the contact point B as shown by a dotted line.

If the user selects the use of hot water, the main controller applies power to power 1 and moves the contact from contact B to contact A. The drive motor 10 rotates the cam assembly 200 ′ in the direction of the arrow shown in FIG. 10 by the COM (common terminal) connected to the drive motor 10 and the power input through the power source 1.

The contact 410 ′ which is pushed in surface contact with the protrusion 222 ′ of the cam assembly 200 ′ is positioned at a position where the protrusion 222 ′ is not formed via all the regions of the protrusion 222 ′. The contact point 410 'is returned to its original position. While the contact point 410 'is in the original position, a signal is transmitted to the main controller, and the main controller cuts off the AC power applied to the power source 1 so that the power is not applied to the driving motor 10 any more.

As described above, the three-way valve for the boiler according to the present invention converts the rotational motion of the drive motor into a linear motion to enable stable operation, and the heating water is not leaked to the outside of the three-way valve, so that it is easy to supply a stable flow path. There is a controllable effect.

In addition, by minimizing the wear of the packing provided inside the three-way valve, the replacement and repair cost due to failure is reduced, economical cost reduction, and the three-way valve manufacturing is simplified to minimize the material and processing costs, only one switch It can be operated by using, and the connection connector is unnecessary, so that cost reduction and failure probability can be reduced.

1 is a view showing a state in which a three-way valve for a boiler according to the present invention is installed in a boiler.

2 is a view showing a three-way valve for a boiler according to the present invention.

3a to 3b is a view showing a first cam portion provided in the three-way valve for the boiler according to the present invention.

4a to 4b is a view showing a second cam portion provided in the three-way valve for the boiler according to the present invention.

5a to 5b is a view showing a cam assembly provided in the three-way valve for the boiler according to the present invention.

Figure 6 is a view showing a switch unit provided in the three-way valve for the boiler according to the present invention.

7 to 9 is an operational state diagram of the three-way valve for the boiler according to the present invention.

10 is a view showing a cam assembly according to another embodiment of the three-way valve for the boiler according to the present invention.

11 is a view showing an operating state according to the contact operation of the switch unit provided in another embodiment of the three-way valve for the boiler according to the present invention.

* Description of the symbols for the main parts of the drawings *

100: valve body 110: main flow pipe

120: first flow pipe 130: second flow pipe

200 cam assembly 210 first cam portion

300: shaft portion 310: packing

400: switch unit

Claims (13)

It includes a main flow path tube receiving the hot water heat exchanged in the main heat exchanger, the first flow path tube formed in communication with the main flow path tube and branched so that the hot water heat exchanged in the main heat exchanger can be supplied to the hot water supply line or the heating line. A valve body; A cam including a first cam coupled to the motor shaft of the drive motor located on the upper side of the valve body to receive a rotational force, eccentrically installed on the motor shaft, the second cam is in close contact with the outer surface of the first cam portion Assembly; A shaft part of which one end is installed below the second cam part of the cam assembly and the other end is formed to extend into the valve body, and the packing part is provided at the end to receive the rotational motion of the second cam part and convert the linear motion into a linear motion; And The three-way valve for a boiler, characterized in that it comprises a switch unit for contacting the operation according to the rotation state of the cam assembly to control the power applied to the drive motor. According to claim 1, The first and second flow paths of the valve body is provided with a boss extending each end inwardly of the valve body, characterized in that the end of the boss comprises a rounded portion protruding outwardly rounded out Three way valve for boiler. According to claim 1, The first cam portion of the cam assembly is a three-way boiler characterized in that the first key hole is inserted into the motor shaft is inserted into the upper portion of the intersection generated when the vertical horizontal line and the vertical line with respect to the center of the cam body formed in a disk shape valve. According to claim 1, The second cam portion of the cam assembly is a second key hole formed at the intersection generated when a vertical horizontal line and a vertical line are drawn with respect to the center of the cam body formed in a disk shape, the outer side of the upper outer peripheral surface of the cam body based on the intersection point Three-way valve for a boiler, characterized in that it comprises a first protrusion formed to protrude to the second projection protruding outwardly facing the first projection and the lower surface of the cam body facing each other. The method of claim 4, wherein And the first protrusion of the second cam portion protrudes at the same linear position as the upper surface of the second cam portion, and the second protrusion protrudes at the same linear position as the lower surface of the second cam portion. According to claim 1, The shaft portion is a transfer plate installed under the second cam portion of the cam assembly, A shaft installed under the transfer plate and extending into the valve body; A spring inserted into the shaft to support one end of the lower side of the transfer plate and the other end of which is supported outside of the valve body and supported by the operation of the cam assembly; The three-way valve for the boiler, characterized in that it comprises an O-ring inserted into the shaft to prevent the outflow of hot water to the outside of the shaft which is operated up and down inside the valve body. According to claim 1, The three-way valve for the boiler, characterized in that the packing of the shaft portion made of a plate shape. According to claim 1, The switch unit is pushed by the first cam unit of the cam assembly to switch off the power applied to the drive motor; And a second switch push-operated by the second cam part when the cam assembly is rotationally operated by the drive motor while the first switch is turned off. The first flow path tube is formed in communication with the main flow path receiving the hot water heat exchanged in the main heat exchanger, the first flow path tube is formed so that the hot water heat exchanged in the main heat exchanger can be supplied to the hot water supply line or the heating line. A valve body comprising; A first cam portion coupled to the motor shaft of the drive motor located on the upper side of the valve body receives a rotational force, and a second cam portion installed on the motor shaft and closely attached to an outer surface of the first cam portion is provided. A cam assembly including a second cam portion in which protrusions protrude only in a half section in an entire outer edge portion of the second cam portion; A shaft part of which one end is installed below the first cam part of the cam assembly, the other end is formed to extend into the valve body, and the packing part is provided at the end to receive the rotational motion of the first cam part and convert the linear motion into linear motion; And The three-way valve for a boiler, characterized in that it comprises a switch unit for contacting the operation according to the rotation state of the cam assembly to control the power applied to the drive motor. The method of claim 9, The protrusion of the second cam portion is a three-way valve for the boiler, characterized in that the inclined portion is formed in the front end and the rear end of the protrusion is inclined upward for stable contact contact with the switch portion. The method of claim 9, The first cam portion of the cam assembly is a three-way valve for the boiler, characterized in that the motor shaft is inserted into the upper portion of the intersection generated when a vertical horizontal line and a vertical line in the center of the first cam portion. The method of claim 9, The projection of the second cam portion is a three-way valve for a boiler, characterized in that it is installed at any one of the right side or the left side of the intersection generated when a vertical horizontal line and a vertical line in the center of the second cam portion. The method of claim 9, The switch unit is a three-way valve for a boiler, characterized in that the single switch in contact with the on-off contact with the projection of the second cam portion.

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