KR100781499B1 - Structure of Guiding Valve Auto Water Filing Valve - Google Patents

Abstract

The present invention relates to a valve guide structure for the water heater, supplying water to the water tank (10) in which water is stored in the boiler and heating pipes in which water is stored to maintain the volume expansion and the pipe at a constant pressure according to the temperature change of water. In order to control the position, while being located in the installation groove 22 configured to the inside of the body housing 21, the valve 30 is provided according to the pressure displacement is provided, the installation groove 22 of the body housing 21 In the outer side of the inclined surface 23 and the valve 30 body upper guide means 40 is formed;

The guide means 40 is provided with a stepped portion 24 at an end portion of the inclined surface 23 formed at both sides of the installation groove 22 of the body housing 21, and is extended vertically under the stepped portion 24. Since the guide surface 25 is provided, and the upper portion of the body of the valve 30 is configured as a plurality of locking projections 31 protruding at a predetermined interval, the boiler receiver valve guide structure of the present invention is provided with a valve 30. Since the guide means 40 is formed on the inclined surface 23 of the body housing 21 of the body housing 21 of the receiver side 20 and the valve 30, the upper part of the body 30, an O-ring during operation of the valve 30 according to the pressure displacement ( 50) and the valve 30 itself can improve the durability and operability.

Therefore, it is a very useful invention that can improve the reliability and sealing effect of the product.

Description

Structure of Guiding Valve Auto Water Filing Valve}

1 is a front view showing the internal configuration of a boiler to which the present invention is applied.

Figure 2 is a cross-sectional view showing the configuration of the receiver side to which the present invention is applied.

3 is a cross-sectional view showing the internal configuration of a conventional receiver side.

Figure 4 is an enlarged cross-sectional view showing the main portion showing the valve open state in the state in which the present invention is applied.

Figure 5 is an enlarged cross-sectional view of the main portion of the valve blocking state in the state the present invention is applied.

6 is a plan view showing the valve configuration of the present invention.

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

10-Water Tank 20-Handy Valve

21-Body Housing 22-Mounting Groove

23-Slope 24-Stepped

25-Vertical Guideway 30-Valve

31-Jam Jaw 32-Aux Jam Jaw

33-mounting groove 34-support surface

40-Guide means 50-O-rings

60-Electronic valve 70-Diaphragm
80-Valve Guide 90-Outlet Body

The present invention relates to a valve structure for receiving the valve, more specifically, in the water tank in which the water is stored in order to maintain the volume expansion and the pipe at a constant pressure in accordance with the temperature change of the water in the boiler and the water in the water pipe when the water shortage In the receiver side to control the supply, it is invented to improve the sealing effect and the durability of the valve and the O-ring by forming a guide means in the valve body inner valve body and the installation groove in which the valve is installed.

In general, gas and oil boilers can use the heating and hot water of the room by heating and circulating the fluid using heat generated by the oxidation of oil and gas.

In addition, in the configuration of a conventional gas boiler, a burner part capable of oxidizing gas and generating heat inside a casing having a predetermined width and size is formed, and one side of the burner part is formed by heat generated from the burner part. It is provided with a heat exchanger and a hot water supply unit for heating and circulating the fluid, a water tank for replenishing the heating circulating water is formed, and largely composed of a control unit for controlling the operation of the burner unit and the function of the hot water supply unit.

In addition, one side of the water tank in which the water is stored in order to maintain the volume expansion and the pipe at a constant pressure according to the temperature change of the water in the heating circulatory water heater variation to control the water supply in the boiler and heating pipes Is installed.

As shown in FIG. 3, in the conventional boiler hydraulic valve configuration configured as described above, the valve body inner valve configuration for maintaining a constant pressure in the temperature expansion and the volume expansion and the pipe according to the change in the state is vertically mounted with the O-ring on the upper body. It is formed in a state, the installation groove is formed to be inclined so that the O-ring is in contact with the inclined surface when the valve operation according to the pressure displacement was easily damaged.

In addition, since the valve is not configured to limit the operation of the valve up and down in a specific range during operation of the valve, because the valve is detached from the installation groove during operation or the valve body itself is damaged in contact with the inclined surface of the installation groove, the durability of the valve There was a deterioration of this.

It is an object of the present invention to control the water supply when water shortage in the gas boiler and heating pipe in the water tank in which the water is stored to maintain the volume expansion and the pipe at a constant pressure in accordance with the temperature change of the water, A guide valve is formed in the valve body inner valve body and the installation groove in which the valve is installed to provide a valve valve guide structure for improving the sealing effect and the durability of the valve and the O-ring.

Another object of the present invention is to provide a hydro solenoid valve guide structure to improve the reliability and productability of the product.

The object of the present invention, so as to control the water supply when the water shortage in the boiler and the heating pipe in the water tank (10) where the water is stored to maintain the volume expansion and the pipe at a constant pressure in accordance with the temperature change of the water. Positioned in the installation groove 22 configured to the inside of the body housing 21, the valve 30 is provided according to the pressure displacement, the inclined surface (outside the installation groove 22 of the body housing 21) 23) and the guide means 40 formed in the upper body of the valve 30;
The guide means 40 is provided with a stepped portion 24 at an end portion of the inclined surface 23 formed at both sides of the installation groove 22 of the body housing 21, and is extended vertically under the stepped portion 24. The guide surface 25 is provided, and the upper part of the body of the valve 30 is achieved by a plurality of locking projections 31 protruding at a predetermined interval.

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Therefore, the present invention receiver valve guide structure has a guide means 40 to the inclined surface 23 and the body of the valve housing 30, the inner mounting groove 22 of the body housing 21 of the receiver 30, the valve 30 is installed. ) Is formed, it is possible to improve the durability and operability of the O-ring 50 and the valve 30 itself when operating the valve 30 in accordance with the pressure displacement.

Therefore, it is possible to improve the reliability and sealing effect of the product.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a front view showing the internal configuration of a boiler to which the present invention is applied.

2 is a cross-sectional view showing the configuration of the power receiver side to which the present invention is applied.

3 is a cross-sectional view showing the internal configuration of a conventional receiver side.

Figure 4 is an enlarged cross-sectional view of the main portion showing the valve open state in the state in which the present invention is applied.

Figure 5 is an enlarged cross-sectional view of the main portion of the valve shut-off state in the state in which the present invention is applied.

Fig. 6 shows the valve configuration of the present invention in plan view.

That is, as shown in Figs. 1 to 6, the invention of the valve receiver guide structure of the present invention guide means 40 to the inclined surface 23 and the valve 30 body upper side of the installation groove 22 of the body housing 21. Since it is formed, it is possible to maintain the durability of the O-ring 50 and the valve 30 and the operability of the valve 30 in an optimal state.
In addition, the guide means 40 is formed at both sides of the installation groove 22 of the body housing 21 and the valve 30 body upper portion in the valve guide structure of the present invention.

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Guide means 40 formed on both sides of the installation groove 22 of the body housing 21 is provided with a stepped portion 24 at the end of the inclined surface 23, as shown in Figure 2, the stepped portion 24 The lower portion of the vertical guide surface 25 is provided.

That is, the guide means 40 formed at both sides of the installation groove 22 forms a stepped portion 24 at the end of the inclined surface 23, and the vertical guide surface 25 is formed below the stepped portion 24. Since it is formed to extend mutually, the operation of the valve 30 and the O-ring 50 by the locking jaw 31, which is a guide means 40 composed of the upper portion of the body of the valve 30 during operation of the valve 30 to be described later It is to secure the durability and maximize the sealing effect.
In addition, unlike the conventional configuration, since the valve guide 80 is directly installed in the outlet body 90 in the present invention, the number of parts can be reduced.

 On the other hand, the guide means 40 formed in the upper portion of the body of the valve 30 is composed of a locking projection 31 protruding a plurality of predetermined intervals to the upper portion of the body.

 This, the locking projection 31 is formed to a plurality of the upper side of the valve 30 body is formed to protrude outward from the lower side of the O-ring 50 installation groove 22 and the vertical guide surface 25 of the installation groove 22 Since it can be vertically guided in the stepped portion 24 in the vertical direction, it is possible to maximize the operability of the valve 30 and the durability and sealing effect of the O-ring 50.

Therefore, unlike the conventional valve 30 configuration, the stepping portion 24 and the vertical guide surface of the engaging projection 31 and the installation groove 22 protruding outward to the lower side of the mounting groove 33 for the O-ring 50 installation ( 25) it is possible to control and control the damage to the operability and sealing of the valve (30).

In addition, since the auxiliary engaging jaw 32 is formed on the inclined surface 23 of the installation groove 22 to limit and control the operation range of the valve 30 at the upper portion, the operation range of the valve 30 is precisely defined. It can be limited and controlled.

In addition, a support surface 34 may be formed inside the locking projection 31 protruding outward from the lower side of the body of the valve 30 to prevent the O-ring 50 from being pushed during operation.

That is, since the O-ring 50, which is responsible for sealing when the valve 30 is operated by the support surface 34, is firmly positioned at the set position without moving backward from the set position, the sealing effect can be maximized. .
After all, in order for the valve 30 to operate without play, as shown in FIG. 6, the interval "A" is important. Since the conventional configuration is a passage through which a fluid flows, the clearance is increased by setting the interval "A" large. The valve 30 may not be installed correctly, which may cause leakage. However, in the present invention, the gap “A” may be reduced as much as possible without affecting the flow rate through the locking jaw 31, thereby minimizing the play between the valves. By preventing the shaking of the (30) it can maximize the sealing effect.

Therefore, the most important feature in the configuration of the present invention is the guide 30 to the valve 30 and the installation groove 22 located in the installation groove 22 inside the body housing 21 of the receiver 20. By forming the, it is possible to improve the operability of the valve 30 and the durability of the O-ring 50.

On the other hand, as the reference numerals, the detailed description of the operation of the valve 30 which is operated in conjunction with the diaphragm 70 and the pressure displacement and the configuration of the electromagnetic valve 60, which is an essential component of the receiver 20, the conventional receiver 20 Since the operation configuration of is the same as, the detailed description is not mentioned.

According to the configuration of the present invention as described above, by forming the guide means on the inclined surface of the valve and the installation groove is formed in the body housing of the receiver side operating in accordance with the pressure displacement to improve the operability of the valve and the sealing effect and durability of the O-ring It can be done.

Therefore, it is a very useful invention that can improve the reliability of the product.

Claims (4)

The body housing 21 of the body housing 21 to control the water supply in the water tank 10 in which water is stored in order to maintain the volume expansion according to the temperature change of the water and the water in the boiler and heating pipes in which water is stored. Located in the installation groove 22 configured inward, the valve 30 is provided to operate according to the pressure displacement, the inclined surface 23 and the valve 30 outside the installation groove 22 of the body housing 21. In the upper body, the guide means 40 is formed; The guide means 40 is provided with a stepped portion 24 at an end portion of the inclined surface 23 formed at both sides of the installation groove 22 of the body housing 21, and is extended vertically under the stepped portion 24. Guide surface 25 is provided, the valve body structure of the water valve side, characterized in that the upper portion of the body of the valve 30 is composed of a locking projection (31) protruding at a predetermined interval. delete       The receiver of claim 1, wherein an auxiliary catching jaw 32 is formed on the inclined surface 23 of the installation groove 22 to restrict and control the operation range of the valve 30 from the top. Valve guide structure. The method of claim 1, wherein the support surface 34 is formed in the locking projection 31 protruding outward from the lower body of the valve 30 to prevent the O-ring 50 from being pushed during operation. Solenoid valve valve guide structure.

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