KR890004713B1 - Electric heater combined heating and cooling arrangement - Google Patents

Abstract

An electric boiler using midnight electric power includes a tank made of a layer of insulating material. The cooling and heating tank(A) is divided into three chambers of an electric heating chamber(2) with electric heater(6), a cooling chamber(4) with cooling unit(7a) and a heat buffer reservior(1). The heating chamber is connected with the heat reservoir through a water passing hole which can be opened and shut by the operation of temperature sensing switch value(TEV). The cooling and heating switch valve, limit switches(L1-L9) at the electric heater and the cooling tube(7) and a temperature setter at the cooling and heating chamber operate heating and cooling switches of the boiler.

Description

Combined heating and cooling electric boiler device using midnight power

Figure 1 is an overall configuration example of the present invention.

2 is an enlarged view of a heat storage chamber part of the present invention.

Figure 3 is an illustration of the electric system for heating of the present invention.

4 is an exemplary diagram of an electric system for cooling of the present invention.

* Explanation of symbols for main parts of the drawings

A: thermal insulation cold tank 1: heat storage chamber

1a: discharge pipe 2: electric heating unit

2a: discharge pipe 3: hot water room for hot water supply

3a: bulkhead 4: freezing part

5: partition wall 5a: water hole

5b: opening and closing plate 6: electric heater

7: freezing tube 7a: electric refrigeration unit

8: hot water supply pipe 8a: hot water supply pipe

9: heating supply hose-s 9a: heating return hose-s

10: heating radiator 11: cooling supply hose-

11a: cooling air return protection-s 12: cooling heat dissipation unit

13: expansion tank S, L: heat storage tank circulation pipe

L ₁ -L ₉ : Limit switch THV ₁ -THV ₃ : Manual air-conditioning switching valve

THX ₄ : Electronic air conditioning valve T1, T2: Indoor temperature setter

TEV: Temperature sensor open / close valve EXV: Refrigeration expansion valve

24: time adjustment timer

The present invention establishes an electric heating unit equipped with an electric heater and an electric refrigeration unit connected to a refrigeration unit in the thermal insulation cold tank, and selectively operate them by using a late night electric power source to obtain hot water or cold water, and to resist heating and cooling in the tank. It can be used for.

Conventional heating or cooling devices are operated by their own heating or refrigeration systems, so each device or device must be installed, which requires a lot of cost and separate facilities. There was a lot of inefficient inconvenience.

The present invention will be described in more detail based on the accompanying drawings as a device invented to correct the above conventional inconveniences as follows.

An electric heater in which the inside of the thermal insulation cold tank A coated with the thermal insulation material is formed as a heat storage chamber 1, one side is blocked by a partition wall 5, and an electric heating part 2 is used as a night-time electric power source. 6) and through the water hole 5a above and below the partition wall 5 to communicate with the heat storage chamber, and the top through hole is provided with an opening and closing plate 5b to open and close by operation of the temperature sensing switching valve (TEV). The freezing unit (4) is formed in the central portion, and the freezing tube (7) is mounted therein so as to be connected to the freezing unit (7a) using a late night electricity installed as a power source and configured to be selectively operated. And heating / cooling supply unit (9) (10) (Sa) and manual heating / cooling switching valve (THV 1,2) and electronic heating and cooling Properly install the switching valve (THV 4), heating recovery part and cooling recovery Is equipped with a manual air-conditioning switching valve (THV 3) with a connecting pipe in three directions on the leading to the circulation pump (P), the cooling and heating supply and return unit, the electric heater (6) and the heat storage chamber (1) and the freezing pipe (7) Install limit switches (L1-L9) on each element and install temperature setters (T1, T2) on heating radiators and cooling radiators to selectively operate them by electricity managed by a 24-hour adjustment timer switch. It is a device that can be used.

In the present invention, the heating and heating switching valves (THV 1,2,3,4) during the heating is changed to the heating side, and when the midnight power is supplied by the adjustment timer 24 for 24 hours, electricity is supplied by the electric heater 6. The heated hot water is heated and the heated hot water is activated by the circulating pump (P) by the sensing operation of the limit switch (L1: 55-60 ℃). When the water temperature of the remaining heating part is supplied to 65 ° C., the temperature sensing opening and closing valve (TEV) is operated to open and close the opening and closing plate 5b, and convection occurs between the electric heating part 2 and the heat storage chamber 1, and the heat storage room The temperature of the water gradually rises, and when the heating proceeds and the water temperature detected by the heating radiator 10 and the return temperature sensing limit switch (L5) is higher than the set temperature, the electronic cooling / heating switching valve (THV4) operates. To shut off the valve of the heating supply Since the high heat storage tank circulation pipe (S, L) is opened, the hot water in the heat storage chamber is stored in the heat storage chamber (1) through the circulation pipe instead of being supplied to the heating radiator. When the water temperature of the heat storage chamber rises above the set temperature, By the sensing action of the limit switch (L4) is to stop the power supply of the electric heater (6).

Therefore, the heat storage chamber 1 has sufficient heat quantity during the time that the midnight power is supplied, so that it can be used as needed. After the midnight power supply time, the adjustment timer 24 turns off the electric heater 6 power. Blocking and re-opening the discharge pipe of the electronic heating / heating switching valve (THV4) to the lower side of the heating part, closing the heat storage circulation pipes (S, L) and opening the heating radiating part side. According to the sensing action of (T1) and the limit switch (L5) it is possible to heat a constant temperature as the hot water of the heat storage tank.

In the case of cooling, when the cooling / heating switching valves (THV1, 2, 3, 4) are switched to the cooling side, the freezing tube (7) is supplied to the refrigeration unit (7a) through a 24-hour adjustment timer (24). It operates in the heat storage chamber (1) to cool the water in the heat storage chamber (1) from the freezing section (4), wherein the electronic air-conditioning switching valve (THV 4) is the heat storage chamber circulation pipe (S, L) by opening the heat storage The water in the chamber is cooled down to the set temperature (4 ℃). When the cooling is completed, the refrigeration unit 7a is stopped by the sensing action of the limit switch L7. It can be cooled and stored in the cold water state, and when room temperature is detected by the room temperature setter (T2), the electronic cooling / heating switching valve (THV4) is opened to the cooling supply part and the circulation pump (P) is operated to provide cooling through the cooling heat dissipation part. Lose air conditioning When the temperature is less than the set temperature, the circulation pump operation is stopped by the temperature setter (T2) and the limit switch (L9) to stop the cooling, so that the cooling can be performed at room temperature. When the amount of heat in (4) is insufficient, cold air is sensed by the limit switch L6, and the operation of the circulation pump P is stopped to accumulate cooling heat in the heat storage tank, and then cooling can be performed in a sufficient amount of cold water.

By doing so, it is possible to operate cooling or heating by electric power at night as needed, which can bring about significant cost savings and comparable inexpensive effect compared to heating costs using briquettes. The practical contrast is the effect shown in the table below.

When heating area is 10 pyeong (33.025㎡)

Briquettes used (Heat Loss Index 140㎉ / m ² h)

33.025 × 140 = 1623.5㎉ / h = 110964㎉ / 24h

(Example) two shares of three bullets

= 426.375 ㎉ / h

2 × 4.5 × 3.3 × 4600 × 0.75 ÷ 24

= 102465㎉ / 24h

Briquettes 1 calorie

4600 × 3.3 × 0.7 ÷ 24 = 442.75 ㎉ / h

Annual carbon

4623.5 ÷ 442.75 = 10.44 pcs / day

Fuel cost

10.44 × 180 × 30 = 56376KRW / Month

When using midnight electricity

Heat loss index 98㎉ / m ² h when 30% energy can be saved by panel construction

4 pyeong (13.21m ² ) = 24 hours heating

6 pyeong (19.815m ² ) = When heating for 10 hours

13.21 × 98 × 24 = 31069.92㎉ / 24h

19418.7㎉ / 10h

19.815 × 98 × 10 =

50488.62㎉ / 24h

Heater capacity calculation

50488.6 ÷ 860 ÷ 24 × 3 = 7.338KW

7.338 × 31 × 8 × 30 = 54594.72KRW / month

Heat storage

31069.95 ÷ 24 × 16 = 20713.28㎉

3883.74㎉

19418.7 ÷ 10 × 2 =

24597.02㎉

Heat storage tank capacity t 35 ° C (85-50 ° C)

24597.02 ÷ 35 = 702.772kg ÷ 3.5D / M However, heater efficiency and heat dissipation loss are ignored

Cooling load

When cooling area (4 pyeong (13.21㎡)) (at 0 ℃)

Annual loss index 250㎉ / m ² h

13.21 × 250 = 3302.5㎉ / h = 1R / T

= 3320㎉ / h

Cooling time (AM11-RM5) 6 hours (Auto Time: 4 hours)

3302.5 × 4 = 1321㎉

Heat storage △ t 14 ℃ (14 ℃)

13210 ÷ 14 = 943.571kg = 4.7D / M

Electricity bill

1.2KW / h power consumption per 1R / T

1.2 × 8 × 30 × 30 = 8928 KRW / month

Latent heat 79.68㎉ / kg

The present invention as described above is not only convenient to use, but also has a small installation area, can increase the life of the apparatus to the maximum, and has the advantage of enabling heating or cooling without pollution, and is advantageous in that it is easy to install.

Claims (1)

An electric heater in which the inside of the thermal insulation cold tank A coated with the thermal insulation material is formed as a heat storage chamber 1, one side is blocked by a partition wall 5, and an electric heating part 2 is used as a night-time electric power source. 6) and through the water hole 5a above and below the partition wall 5 to communicate with the heat storage chamber, and the opening and closing plate 5a is installed at the upper air hole to open and close by operation of the temperature sensing switching valve (TEV). In the center part is formed a refrigeration unit (4) is built in the freezing tube (7) therein is configured to be selectively operated by connecting to the refrigeration unit (7a) using a nighttime electricity installed as an external power source (electric heating unit ( 2) In the heat storage chamber (1), the heating and cooling supply section and the heat storage tank circulation supply section (9) (10) (Sa), the manual air-conditioning switching valve (THV 1,2) and the electronic air-conditioning switching valve (THV 4) Appropriately installed and lead to the circulation pump (P) in the heating and cooling It is equipped with a manual air-conditioning switching valve (THV 3), and a limit switch (L1-L9) is installed at each of the elements of the air-conditioning supply section, the return section, and the electric heater (6) and the freezing pipe (7). An electric boiler unit for both heating and cooling using a midnight power source that has a temperature setting unit (T1, T2) installed in the heat dissipation unit so that it can be selectively operated based on the adjustment timer switch 24 for 24 hours.

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