KR20030047296A - hearing recycle display device - Google Patents

Abstract

PURPOSE: A device for displaying waste heat recovery is provided to maintain the optimal efficiency of a boiler by exactly informing managers and dwellers of waste heat and recovery heat. CONSTITUTION: A waste heat recovery device(5) is installed between exhaust pipes(3) in a boiler(1), and contains heat exchanging water and recovers waste heat from exhaust gas in the exhaust pipe. An inlet pipe temperature sensor(11) is installed at an inlet pipe(7) in the waste heat recovery device, and detects the temperature of the heat exchanging water. An outlet pipe temperature sensor(13) is installed at an outlet pipe(9), and detects the temperature of the heat exchanging water. A flow meter(15) is installed at the inlet pipe or outlet pipe, and detects the flow of the heat exchanging water. A gas flow meter(27) supplies gas to the boiler, and detects the flow of the gas. A heat capacity calculating processor(17) calculates a heat capacity integrated value, a saving integrated value, and efficiency. A display unit(21) displays the integrated values.

Description

Waste heat recovery display device of waste heat recovery machine {hearing recycle display device}

The present invention relates to a waste heat recovery display device for a waste heat recovery device, and more particularly, to a waste heat recovery display device for a waste heat recovery device that displays the amount and efficiency of heat recovered from exhaust heat exhausted from a boiler installed in a central heating apartment.

In general, a central heating apartment is installed a plurality of large-capacity boiler to supply hot water and heating for each household throughout the apartment complex.

The boiler has a heater and a heat exchanger and an exhaust pipe for heating, and is composed of a system for supplying hot water and heating water by burning gas or oil using them.

By the way, such a boiler actually takes out the waste heat which is not completely heat-conducted in the heat exchanger through the exhaust pipe, which increases the consumption of gas or oil, and the cost is economic burden, There is a problem that you do not know exactly whether the boiler actually knows the performance and efficiency of the exit.

In addition, even if the energy saving device that utilizes waste heat can be known, it is not possible to accurately diagnose the performance of the saving device because it is impossible to know exactly how it is saved. It is calculated in the old-fashioned manner, and accordingly, there is a problem that aggravates the complaints of the residents.

The present invention has been made to solve the above problems, and the gas and oil costs indicating the efficiency of the boiler and the energy saving device, as well as the amount of heat to be discarded and the amount of heat to be recovered to the manager and the tenant to be accurately maintained to facilitate maintenance. To provide a calorie display for a boiler, the object of which is to.

1 is a block diagram showing a waste heat recovery display device of the waste heat recovery machine according to the present invention,

2 is a system diagram showing the operation of the waste heat recovery display device of the waste heat recovery machine according to the present invention.

Explanation of symbols on the main parts of the drawing

One ; Boiler 3; vent pipe

5; Waste heat recovery machine 7; Inlet pipe

9; Outflow pipe 11; Inlet tube temperature sensing part

13; Outflow pipe temperature detection unit 15; Flow meter

17; Calorific calculation processor 19; Pulse generator

21; Display section 23; 1st exhaust temperature sensor

25; Second exhaust temperature sensing unit 27; Gas flow meter

According to the present invention, in the waste heat recovery display device installed in a boiler for heating a building, the object is provided between the exhaust pipes of the boiler, the waste heat from the exhaust gas of the exhaust pipe by receiving a predetermined amount of heat exchange water And a waste heat recovery unit for recovering a predetermined ratio to the waste heat recovery unit, an inlet pipe temperature sensing unit installed at an inlet pipe of the waste heat recovery unit, and sensing an temperature of the heat exchange water to output an electrical detection signal, and installed at an outlet pipe of the waste heat recovery unit. And an outlet pipe temperature detector for sensing the temperature of the heat exchange water and outputting an electrical detection signal, a flow meter installed in one of the inlet pipe and the outlet pipe to detect the flow rate of the heat exchange water, and a gas to the boiler. And a gas flow meter for sensing an amount of supplied gas and outputting an electrical detection signal, and the inlet pipe temperature detection unit and the Based on the temperature difference of each detection signal of the outlet pipe temperature sensing unit, the flow rate of the flow meter and the gas quantity of the gas flow meter, the instantaneous heat quantity, the instant quantity quantity, the calorific value accumulation value and the saving amount accumulated value are calculated, A waste heat recovery display device of a waste heat recovery device includes a calorific value calculating processor that calculates an integrated value, a saving amount integrated value, and an efficiency, and a display unit that visually displays the integrated values of the calorific value calculating processor in recognizable characters.

Here, the calorific calculation processor has a built-in pulse generator for generating a pulse indicating a predetermined time interval, the pulse is counted as a time value in order to continuously accumulate the instantaneous calorific value, the calorie calculation processor It is preferable that it is the basis for calculating the unit flow rate value according to the pulse and the instantaneous flow rate.

In addition, the display unit is preferably composed of a liquid crystal display capable of individually displaying the instantaneous calorific value, quantity and a plurality of integrated values, and any one of the segment display unit.

Hereinafter, the waste heat recovery display device of the waste heat recovery machine according to the present invention will be described in detail with reference to the accompanying drawings. 1 is a block diagram showing a waste heat recovery display device of the waste heat recovery device according to the present invention, Figure 2 is a schematic diagram showing the operation of the waste heat recovery display device of the waste heat recovery device according to the present invention.

The waste heat recovery display device of the waste heat recovery device has a centralized heating boiler (1) capable of supplying heating to a building, an apartment complex, and an apartment complex, as shown in FIG. (Not shown) is provided, and the exhaust pipe 3 which discharges the hot exhaust gas combusted by the said burner chamber is formed. On the exhaust pipe (3), a waste heat recoverer (5) is provided for recovering waste heat from a high temperature exhaust gas at a constant rate, and the waste heat recoverer (5) contains a predetermined amount of heat exchange water and inflows the exchange water. The inflow pipe 7 and the outflow pipe 9 which make and outflow are formed. At this time, the waste heat recovery device 5 is located between the inlet pipe 7 and the outlet pipe 9 is provided with a plurality of spiral (spiral) (not shown) formed in a spiral twisted shape to improve the heat exchange efficiency. .

The inlet pipe 7 and the outlet pipe 9 are provided with a supply means (not shown) for supplying heating to each home in the apartment complex, in particular, the inlet pipe 7 is introduced at a relatively low temperature from the supply means The inlet pipe temperature detection unit 11 is installed to detect the temperature of the heat exchange water to be converted into an electrical detection signal and output the same, and the outlet pipe 9 has a temperature of the heat exchange water heat exchanged in the spiral pipe. The outflow pipe temperature sensor 13 for sensing and converting the signal into an electrical detection signal and outputting the same is installed.

In addition, a flow meter 15 for detecting an instantaneous flow rate of the heat exchange water is provided adjacent to any one of the inflow pipe temperature detection unit 11 and the outflow pipe temperature detection unit 13.

Compute a temperature difference value with respect to a temperature value from each of the inlet pipe temperature detector 11 and the outlet pipe temperature detector 13, and calculate the integrated flow rate based on the instantaneous flow rate and time of the flow meter 15. And a calorie calculation processor 17 which calculates a calorie integration value based on the temperature difference value and the integration flow rate, and calculates the saving amount integration value based on the calorie integration value and the amount conversion value 9500. 11 and 13 and flow meter 15. The calorific calculation processor 17 exposes a display unit 19 for displaying these calculated values in recognizable visual characters. Here, the calorific calculation processor 17 has a pulse generator 21 for generating a pulse indicating a predetermined time interval, and the pulse is counted as a time value to continuously accumulate the instantaneous calorific value, and the calorific value The calculation processor 17 serves as a basis for calculating the unit flow rate value according to one pulse and the instantaneous flow rate.

The display unit 19 includes a liquid crystal display capable of individually displaying instantaneous calories, quantities, and a plurality of integrated values, and a segment display unit.

In addition, a first exhaust temperature detecting unit 23 for detecting an exhaust temperature between the waste heat recoverer 5 and an adjacent exhaust pipe 3 and a second exhaust gas sensing a temperature of the exhaust gas heat exchanged by the waste heat recoverer 5 are included. The temperature sensing unit 25 is provided. The boiler 1 detects a predetermined amount of gas to be supplied and detects a change in the amount of gas, thereby providing a gas flow meter for providing information of the amount of gas so as to calculate a predetermined efficiency with respect to the amount of heat from the calorific calculation processor 17 ( 27) is connected.

The operation of the waste heat recovery display device of the waste heat recovery device according to the present invention as described above is as shown in FIG.

First, the first exhaust temperature detecting unit 23 and the second exhaust temperature detecting unit 25 detect that the boiler 1 is operated, and the exhaust heat before and after heat exchange in the waste heat recovery unit 5 is displayed on the display unit 19. Display. Then, the inlet pipe temperature detection unit 11 detects the temperature of the heat exchange water flowing into the exhaust gas from the waste heat recovery unit 5 for heat exchange, and the outlet pipe temperature detection unit 13 in the waste heat recovery unit 5. Detects the temperature of the heat exchange water flowing out through heat exchange. Then, the flow meter 15 measures the instantaneous flow rate of the heat exchange water flowing through the inlet pipe (7).

The calorie calculation processor 17 recognizes the temperature values of each of the inlet pipe temperature detector 11 and the outlet pipe temperature detector 13, displays them on the display unit 19 to the user, and displays the flow meter 15. Is displayed on the display unit 19. Then, the instantaneous heat quantity is calculated by multiplying the difference value between the instantaneous flow rate and the temperature value and displayed on the display unit 19 to the user.

In addition, the calorific value calculating processor 17 may convert the amount of heat exchange water into the inlet pipe 7 by the number of pulses of the pulse generator 21, that is, multiplying the pulse number by the instantaneous flow rate of the total heat exchange water The quantity can be calculated, and the calorie integration value is calculated by multiplying the total amount of heat exchange water by the instantaneous heat quantity. The calorie integration value represents the calorie value recovered from the waste heat recovery device 5, and is a value for improving energy efficiency, which is calculated as the saving amount integration value by applying the amount conversion value (fuel unit amount 9500). Then, the gas amount of the gas flow meter 27 is converted into an amount of money, and this is converted into the saving amount accumulated value and a percentage again to calculate the efficiency.

On the other hand, the calorific calculation processor 17 can display the calorie integration value, the saving amount integration value and the efficiency by period, that is, on a daily basis, on a monthly basis, on a yearly basis by using a built-in timer, The recovered calorie integration value (infinite calorie integration value) and the saving amount integration value (or infinite saving amount integration value) from the beginning to the present are displayed. And, using this, the total efficiency up to now can be displayed on the display unit 19.

The present invention provides relatively transparent apartment management because it can be easily maintained by informing the manager and the tenant about the gas and oil costs, as well as the amount of heat and the amount of heat recovered, indicating the efficiency of the central boiler and energy saving device. It works.

In addition, since the efficiency of the centralized boiler can be managed, it is always managed to maintain the optimum efficiency, thereby improving the life of the boiler.

Claims (3)

A waste heat recovery display device installed in a boiler for heating a building; A waste heat recovery unit installed between the exhaust pipes of the boiler and accommodating a predetermined amount of heat exchange water to recover waste heat from the exhaust gas of the exhaust pipe by a predetermined ratio; An inlet pipe temperature detector installed at an inlet pipe of the waste heat recovery unit to detect a temperature of the heat exchange water and output an electrical detection signal; An outlet pipe temperature sensing unit installed at an outlet pipe of the waste heat recovery unit and configured to output an electrical detection signal by sensing a temperature of the heat exchange water; A flow meter installed in one of the inlet pipe and the outlet pipe to detect a flow rate of the heat exchange water; A gas flow meter supplying gas to the boiler and sensing an amount of the supplied gas and outputting an electrical detection signal; The instantaneous heat quantity, the instantaneous quantity quantity, the calorific value accumulation value and the savings value accumulation value are based on the temperature difference between the detection signals of the inlet pipe temperature detector and the outlet pipe temperature detector, and the flow rate of the flow meter and the gas quantity of the gas flow meter. A calorific value calculating processor for calculating calorie integration value, saving amount integration value, and efficiency for each predetermined period; And a display unit for visually displaying the integrated values of the calorie calculation processor as recognizable characters. The method of claim 1; The calorific calculation processor has a built-in pulse generator for generating a pulse indicating a predetermined time interval; The pulse is counted as a time value to continuously accumulate the instantaneous calorific value, and the waste heat recovery display of the waste heat recoverer is characterized in that the calorific calculation processor calculates a unit flow value according to one pulse and the instantaneous flow rate. Device. The method of claim 1; And the display unit comprises a liquid crystal display capable of individually displaying instantaneous heat quantity, quantity, and a plurality of integrated values, and one side of a segment display unit, and the waste heat recovery display device of the waste heat recovery unit.