KR20080092074A - Apparatus for automatically refilling a heating medium - Google Patents

Abstract

An apparatus for automatically refilling a heating medium is provided to supplement a heating medium such as water reduced due to evaporation or leakage. An apparatus for automatically refilling a heating medium comprises a housing(11), a blocking unit(20), and a pressure reduction unit(30). The housing includes an inlet through which the heating medium flows in, an outlet through which the heating medium is discharged, and a space in which the heating medium is placed. The blocking unit, provided at the upper part of the space of the housing, includes first and second contact units. The pressure reduction unit discharges the heating medium to the outlet after opening the inlet of the housing according to the operation of the blocking unit.

Description

Heat medium automatic refilling device {APPARATUS FOR AUTOMATICALLY REFILLING A HEATING MEDIUM}

1 is a cross-sectional view showing an automatic heating medium refill device according to an embodiment of the present invention.

2 is a view showing an operating state of the automatic heating medium refill device of the present invention.

3 is a cross-sectional view taken along the line A-A of FIG.

4 is a cross-sectional view taken along the line B-B in FIG.

Brief description of symbols for the main parts of the drawings

10: heat medium automatic refill device 11: housing

20: blocking unit 30: decompression unit

The present invention can automatically replenish the heat medium when the heat medium is insufficient due to its natural evaporation or leakage in the device using a heat medium such as water, such as a gas boiler, oil boiler, solar boiler, water heater, pressure pump, etc. It relates to a heating medium automatic refilling device.

As is widely known, gas boilers, oil boilers, solar boilers, water heaters, pressure pumps, and the like are devices that implement heating or hot water using a heat medium such as water, steam, oil, and the like. As the heating medium is heated in the heat exchanger provided therein, the heating medium thus heated becomes insufficient due to natural evaporation or leakage of the pipe, and thus, it is necessary to supplement the heating medium circulating in the boiler from time to time. .

Accordingly, various devices, such as a boiler using a heat medium such as water, include a pressure reducing valve that can replenish the heat medium by piping or a tank, a water level sensor that detects a lack of heat medium, and a water level sensor and a safety shut-off device that stop the operation of the boiler. It is provided separately, and the pressure reducing valve is supplied to the apparatus after reducing the heat medium supplied to the predetermined primary pressure from the outside to the secondary pressure.

As described above, the conventional technology for refilling the heating medium has a high manufacturing cost since the pressure reducing valve, the water level sensor, the safety shut-off device, etc. must be separately provided, and the refilling of the heating medium is performed manually, resulting in inconvenience in use. There was this.

The present invention has been devised in view of the above, the heat medium automatic supplement that can automatically replenish the heat medium when a situation in which the heat medium such as water is insufficient due to its natural evaporation or leakage in various devices such as a boiler The object is to provide a device.

In addition, the present invention provides a heating medium automatic refilling device that can simultaneously function as a water level sensor and a safety shut-off device by automatically blocking the operation of the heating medium device such as a boiler after automatically detecting a state in which the heating medium is insufficient. There is a purpose.

Heat medium automatic refilling device of the present invention for achieving the above object,

A housing having an inlet through which the heat medium flows in and an outlet through which the heat medium flows out, and having a receiving space in which the heat medium is received;

A blocking unit which is provided on an upper side of the receiving space of the housing and has first and second contact bodies installed to be in contact with and separated from each other; And

And a decompression unit for opening the inlet of the housing in conjunction with the blocking unit, and decompressing the heat medium to flow out to the outlet side.

The blocking unit may include a case having a communication space communicating with a receiving space of the housing, a diaphragm film installed to close a portion of the communication space of the case, a movable body to which the diaphragm film is connected, and a first contacting and detachable device. With the second contact body,

The diaphragm membrane has its edge portion sealed in the case, and the diaphragm membrane has its central portion moved up and down in the communication space according to the capacity of the heat medium, and the second contact body is integrally coupled to the movable body. It is.

The decompression unit includes a decompression member installed at the inlet side of the housing, and a connection portion extending from the decompression member,

First and second elastic members are installed on the upstream and downstream sides of the decompression member,

First and second packings are provided adjacent to the upstream and downstream sides of the decompression member,

The connection portion of the decompression member is installed to be inclined in conjunction with the moving body of the blocking unit.

Grooves are formed in the lower end of the movable body, and the connection part is fitted in the grooves.

In addition, the housing further comprises a water discharge unit for discharging the heat medium, the water discharge unit includes a case fastened to the lower portion of the housing, the valve body for intermittent the internal flow path of the case.

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

1 and 2 show a heating medium automatic refilling device 10 according to an embodiment of the present invention.

As shown, the heat medium automatic replenishment device 10 of the present invention is a housing 11, the heat medium is accommodated, the blocking unit for detecting the lack of the heat medium and blocking the operation of the device using the heat medium such as a boiler ( 20) and a decompression unit 30 for decompressing the heat medium flowing in conjunction with the blocking unit 20 to the outlet.

The housing 11 has an inlet 12 through which a heat medium flows from an external source and an outlet 13 through which the heat medium flows out. An inlet 12 connects an external heat medium source to communicate with each other. It is connected in communication with a tank or piping of a device using a heat medium such as a boiler or a pressure pump.

The housing 11 has a receiving space 14 in which a heat medium is accommodated.

The blocking unit 20 includes a case 21 having a communication space 21c communicating with the accommodation space 14 of the housing 11 and a diaphragm film 22 installed across the communication space 21c of the case 21. And the first and second contact bodies 24 and 25 connected to the control panel 45 side of the apparatus using the heating medium, such as a moving body 23 to which the diaphragm film 22 is connected, a boiler or a pressure pump.

The case 21 may have a structure in which the upper and lower cases 21a and 21b are detachably assembled, and have a communication space 21c communicating therewith with the accommodation space 14 of the housing 11 therein. The diaphragm membrane 22 provided so that a part of this communication space 21c may be closed may be provided.

The diaphragm film 22 has its edge portion 22a hermetically fixed in the upper and lower cases 21a and 21b, whereby its central portion is in the communication space 21c in the vertical direction depending on the capacity of the heat medium. Move.

The center portion of the diaphragm film 22 is coupled to one side of the movable body 23 via the support 23a so that the movable body 23 and the diaphragm film 22 are movable together.

The first and second contact bodies 24 and 25 made of a conductive material are provided on the upper side of the diaphragm film 22, and the first and second contact bodies 24 and 25 are each of the first and second contacts and spaced apart from each other. It has 2nd contact 24a and 25a, and the 2nd contact body 25 is integrally couple | bonded with the moving body 23. As shown in FIG. The first and second contact bodies 24 and 25 are connected to the control panel 45 side via electric wires 24b and 25b, respectively.

As a result, when the movable body 23 descends, the second contact body 25 is bent downward, and the first and second contacts 24a and 25a are spaced apart, whereby the operation of the control panel 45 is stopped. The whole operation of the apparatus using a heating medium such as a boiler is cut off.

And, the upper end of the movable body 23 is elastically supported by a support member 23b, such as a spring, etc., the adjustment screw 24 for adjusting the elastic modulus of the spring may be installed on the upper end of the support member 23b. have.

The pressure reduction unit 30 includes a pressure reduction member 31 provided at the inlet 12 side of the housing 11, and a connection portion 32 extending from the pressure reduction member 31.

First and second elastic members 33 and 34 are provided on the upstream and downstream sides of the pressure reducing member 31 to elastically support the pressure reducing member 31 and adjacent to the upstream and downstream sides of the pressure reducing member 31. Thus, the first and second packings 35 and 36 are installed to interrupt the flow toward the inlet or the outlet 12 and 13 by the pressure reducing member 31 and the first and second packings 35 and 36.

The connecting portion 32 is integrally extended at the end of the decompression member 31, and the connecting portion 32 is inclined in association with the movable body 23 of the blocking unit 20, as shown in FIG. 3. . That is, the groove 23c is formed at the lower end of the movable body 23, and the connecting portion 32 is fitted in the groove 23c so that the connecting portion 32 and the pressure reducing member (in conjunction with the vertical movement of the movable body 23) 31) is inclined at a predetermined angle.

And, when the outer diameter surface of the pressure reducing member 31 is spaced apart from the inner diameter surface of the inlet 12 by a predetermined gap, whereby the pressure reducing member 31 is inclined together with the connecting portion 32, as shown in FIG. The heat medium decompresses and flows in between the inclined gaps.

On the other hand, the elastic modulus of the second elastic member 36 is set to correspond to the pressure on the outlet 13 side, that is, the secondary pressure (for example, 0.3 ~ 3kg / ㎠), thereby entering the inlet 12 side If the primary pressure (eg, 1 to 20 kg / cm 2) of the heat medium is greater than the elastic modulus of the second elastic member 36, the second elastic member 36 is compressed by the primary pressure, thereby reducing the pressure reducing member ( 31) is in close contact with the second packing 36 side to block the inflow of the heat medium having a primary pressure greater than the secondary pressure.

In addition, when the pressure of the heat medium in the receiving space 14 of the housing 11 is greater than the primary pressure, the pressure reducing member 31 is in close contact with the first packing 35 side as the first elastic member 35 is compressed. The reverse flow is prevented, from which it can be seen that the decompression unit 30 implements the function of a check valve.

In addition, the housing 11 may further clean the accommodation space 14 of the housing 11 by further including a water repellent unit 50 for discharging the heat medium in the housing 11 at the bottom thereof.

The water discharge unit 50 includes a case 51 fastened to the lower portion of the housing 11 and a valve body 52 provided to be movable up and down in the internal flow path of the case 51.

One end of the case 51 is provided with a communication passage 51a for communicating with the accommodation space 14 of the housing 11 and a discharge hole 51b for communicating with the communication passage 51a.

The valve body 52 is provided with the opening-closing opening 52a which opens and closes the communication flow path 51a in the upper end, and the handle part 52b which turns the valve body 52 in the lower end.

The operating relationship of the present invention configured as described above will be described in detail as follows.

When the heat medium circulating inside the apparatus using a heat medium such as a boiler or a pressure pump is in a state where its amount is insufficient due to natural evaporation or leakage, the water level of the heat medium accommodated in the accommodation space 14 of the housing 11 of the present invention is low. As a result, the central portion of the diaphragm film 22 is bent downward, and the movable body 23 also moves downward in conjunction with this.

In conjunction with the lowering of the movable body 23, the second contact body 25 also descends, and accordingly, the first and second contact points 24a and 25a are spaced apart from each other, so that the control panel 45 of the apparatus using the heat medium is Stop operation. As a result, the present invention can automatically detect a state in which the heat medium is insufficient to automatically shut off the entire operation of the device, thereby simultaneously implementing the functions of the water level sensor and the safety shutoff device.

On the other hand, when the connecting portion 32 and the decompression member 31 coupled thereto are inclined at a predetermined angle from the inner diameter surface of the inlet 12 in conjunction with the lowering of the moving body 23, the heat medium is introduced while decompressing between the inclined gaps. Later, it flows out through the outlet 13, and accordingly, the heat medium is replenished into an apparatus such as a boiler equipped with the heat medium automatic supplement device 10 of the present invention.

If the primary pressure of the heat medium flowing into the inlet 12 after the heat medium is refilled is greater than the elastic modulus of the second elastic member 36, the second elastic member 36 is compressed by the primary pressure of the heat medium. As the decompression member 31 is in close contact with the second packing 36 side, the inflow of the heat medium having a primary pressure greater than the secondary pressure is blocked.

In addition, when the pressure of the heat medium in the receiving space 14 of the housing 11 is greater than the primary pressure, as the first elastic member 35 is compressed, the pressure-sensitive member 31 comes into close contact with the first packing 35 side. The reverse flow is prevented, from which it can be seen that the decompression unit 30 implements the function of the check valve.

As described above, the present invention has an effect of automatically replenishing the heat medium when a heat medium such as water is insufficient due to its natural evaporation or leakage in various devices such as a boiler.

In addition, the present invention has the advantage that can automatically double the function of the water level sensor and the safety shut-off device by automatically blocking the operation of the heating medium device, such as a boiler after automatically detecting the lack of the heating medium.

Claims (5)

A housing having an inlet through which the heat medium flows in and an outlet through which the heat medium flows out, and having a receiving space in which the heat medium is received; A blocking unit which is provided on an upper side of the receiving space of the housing and has first and second contact bodies installed to be in contact with and separated from each other; And And a decompression unit for decompressing the incoming heat medium and flowing out to the outlet side after opening the inlet of the housing in association with the blocking unit. The method of claim 1, The blocking unit may include a case having a communication space communicating with a receiving space of the housing, a diaphragm film installed to close a portion of the communication space of the case, a movable body to which the diaphragm film is connected, and a first contacting and detachable device. With the second contact body, The diaphragm membrane has its edge portion sealed in the case, and the diaphragm membrane has its central portion moved up and down in the communication space according to the capacity of the heat medium, and the second contact body is integrally coupled to the movable body. Heating medium automatic refilling device characterized in that it becomes. The method of claim 2, The decompression unit includes a decompression member installed at the inlet side of the housing, and a connection portion extending from the decompression member, First and second elastic members are installed on the upstream and downstream sides of the decompression member, First and second packings are provided adjacent to the upstream and downstream sides of the decompression member, The heat medium automatic refilling device, characterized in that the connection portion of the decompression member is installed inclined in conjunction with the moving body of the blocking unit. The method of claim 3, The heating medium automatic refilling device, characterized in that the groove is formed in the lower end of the movable body, the connecting portion is fitted in the groove. The method of claim 4, wherein The housing further comprises a water discharge unit for discharging the heat medium, the water discharge unit comprises a case fastened to the lower portion of the housing, the heat medium automatic refilling device characterized in that it includes a valve body for regulating the inner flow path of the case.

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