JPS59185940A - Gas boiler control device - Google Patents

Abstract

PURPOSE:To shorten the boiling time and to reduce an occurring probability of hot water shortage by repeating a process in which hot water feeding is stopped when the set boiling amount is attaind, and hot water feeding into a hot water reservoir is thereafter resumed when the temperature is detected to be lower at the setting unit. CONSTITUTION:A temperature at a hot water temperature sensor 28 and a temperature set with a hot water setting volume 22 are compared by a command generator 26, and if the temperature at the hot water temperature sensor 28 is lower than the set temperature, a command is given to sequence control units 19, 20 to operate fans 30, 31 and pumps 8, 9, and by detecting a water flow, water heaters 3, 4 are ignited. By comparing a temperature at hot water sensors 10, 11 with the set temperature, gas flow rate regulating valves are inidividually controlled so that the temperature of delivered hot water may be maintained at the set temperature. While the water heater is burning, a comparison is made between a temperature at the hot water temperature sensor 28 and the set temperature, and if the former 28 exceeds the latter, a timer circuit in a hot water reservoir control unit 25 starts time-counting, and after a certain time has elapsed, the burning will be stopped.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of Industrial Application The present invention relates to a control device for a gas boiler.

Conventional configuration and its problems For example, in a conventional gas boiler with an integrated heat source,
Once the stored hot water was used up, all that was available was water, and it took a lot of time to boil the hot water to the set temperature in the hot water tank.

Still, it was necessary to boil all the water north of the heat source, that is, almost the entire capacity of the hot water tank, and there was a lot of energy loss when the load was small. It was still necessary to drain all the water from the hot water tank to prevent freezing, and there was a lot of water loss.

Purpose of the Invention The present invention (ah) solves the drawbacks of the conventional system.By using an instantaneous water heater as a heat source, the boiling time is drastically reduced, the probability of running out of hot water is reduced, and the setting of the amount of hot water stored can be changed. The purpose of this is to improve usability and save energy.

Structure of the Invention In order to achieve the above object, the gas boiler control device of the present invention stores hot water at a set temperature in an instantaneous water heater, and stops storing hot water when the set boiling amount is reached. After that, the system repeats the operation of feeding hot water into the hot water tank again when the temperature of the setting part has dropped, and stable hot water is produced by using an instantaneous water heater using a gas flow control valve as the heat source. When hot water is obtained and hot water is tapped, the hot water from the hot water heater inside the hot water tank can be used, making it possible to use hot water in excess of the capacity of the hot water tank. Furthermore, since the amount of boiling water can be set, it is possible to store a large amount of hot water when a large amount of hot water is used, and to store a small amount of hot water when the amount of isothermal water used at night is small.

DESCRIPTION OF EMBODIMENTS Below, one embodiment of the present invention will be described based on one drawing.

In the figure, 1 and 2 are connecting pipes, 3 and 4 are water heaters connected to connecting pipes 1 and 2, 6 is a hot water tank, 6 is a hot water outlet pipe, 7 is a water inlet pipe, and 8 is a water heater connected to water heater 3. 9 is the water heater 4
1° is a sensor that detects the temperature of hot water coming out of the water heater 3, 11 is a sensor that detects the temperature of hot water coming out of the water heater 4, and 12 is a gas pump that includes a gas volume control valve for the water heater 4. block, 14-hour low-temperature thermostat, 15 a heating heater, 16 a control device, 17 a combustion control section of the water heater 3, 18 a water heater 4
19 is a sequence control unit of the water heater 3, 2
0 is the sequence control section of the water heater 4, 21 is the hot water temperature setting section 5
22 is a water temperature setting volume, 23 is a boiling amount setting part, 2
Reference numeral 4 indicates a boiling amount changeover switch 26, a hot water tank control unit, 26 a command generation unit, 27° and 28 a water temperature detection sensor in each storage tank, 29 an anti-corrosion electrode, and 30 a fan 31 of the water heater 3. This is the fan of water heater 4. This example shows an example in which the boiling amount is switched in two stages. The operation of the above configuration will be explained below.

(1) During boiling Since there is no hot water coming out during boiling, there is no outflow from the hot water outlet pipe 6 and no inflow from the water inlet pipe 7. In the case of this figure, the boiling amount setting is in two stages, and in the case of full boiling, the boiling amount changeover switch 24 is used to change the boiling amount setting section 23 to the hot water storage tank control section 2.
A signal indicating that the entire amount has been boiled is sent to water temperature detection sensor 28.
Only it seems to work. In the case of half boiling, only the water temperature detection sensor 27 similarly comes into operation. Here, we will explain how to boil the entire amount.

Temperature of hot spring detection sensor 28 and hot water temperature setting volume 2
The command generation unit 26 compares the temperature set in step 2 with the temperature set in step 2, and if the temperature of the hot water temperature detection sensor 28 is T1+T2°C lower than the setting, a command is sent to the sequence control units 19 and 20, and the fan 30° 31 operates, the pumps 8 and 9 operate, and when the water heater is detected, the water heater 3.
'4 is burned. At this time, the sequence is such that if the fan does not rotate, the pump operates, and if the pump does not operate, combustion does not occur, thereby preventing flare-ups and dry firing.

By comparing the temperature of the hot water detection sensor 10 and 11 with the set temperature and individually controlling the gas flow control valve, the water heater 3,
Keep the hot water temperature in Step 4 at the set temperature.

While the water heater is burning, the temperature of the hot water temperature detection sensor 28 is compared with the set temperature, and if the temperature of the hot water temperature detection sensor 28 is equal to or higher than the set temperature -T1°C, the temperature in the hot water storage tank control unit 26 is A timer circuit starts counting time and stops combustion after A seconds have elapsed.

At this time, if the temperature of the hot water temperature detection sensor 28 falls below the set value of -71°C before A seconds have elapsed, the timer circuit is reset and combustion continues. At the same time as combustion stops, the temperature of the hot water temperature detection sensor 28 is compared with the set temperature, and the temperature of the hot water temperature detection sensor 28 is the set temperature - (T1 + T2)'
When the temperature drops below C, combustion resumes. By repeating this operation, the hot water storage temperature can be changed from [set temperature 1 to [set temperature - (T1
+T2)'Cl. Boiling amount selector switch 24
If the amount is half, the hot water temperature sensor 27 stores the hot water in the same manner as in the case of boiling the entire amount.

(2) When dispensing hot water, it is basically the same as when boiling, and the hot water temperature detection sensor detects the hot water temperature in the hot water storage tank, and the water heaters 3 and 4 are ignited and stopped to keep the water temperature constant.

(3) The low-temperature thermostat 14 is attached to the part of the antifreeze device, that is, the hot water flow path including the hot water tank and water heater, and its surroundings that are most likely to be cooled. A command is sent from the command generating unit 26 to operate only the pumps 8 and 9, and water flows to prevent freezing. Also, when the above low temperature conditions are activated.

It is also possible to operate the heater 15 to prevent freezing.

(4) Other functions By applying a voltage to the anti-corrosion electrode 29, a current is applied to the hot water storage tank to prevent corrosion of the hot water storage tank, and to detect the presence of water in the hot water storage tank by detecting that the current is flowing. Determine if there is no water and do not operate the water heater.

As described above, according to this embodiment, it is possible to set the amount of hot water stored, and when hot water is used, it is possible to use hot water with a set temperature higher than the actual amount of hot water stored. It has the effect of being able to prevent freezing without having to drain water or the like.

Effects of the Invention As described above, according to the present invention, the following effects can be obtained.

(1) Boiling] Second, since the amount of hot water can be set, it is possible to store only the required amount of hot water, and hot water can be effectively used depending on the amount used during the day and night, or depending on the season.

(2) When using hot water, not only the hot water inside the hot water tank but also the hot water from the water heater can be used.

You can use more hot water at once than the actual amount of hot water stored, reducing the probability of running out of hot water.

(3) If the amount of hot water used is less than the amount of hot water coming out of the water heater, continuous use for a long time is possible.

(4) Even if the hot water runs out, it will not become completely cold and depending on the amount of hot water that comes out, it can be used at the set temperature, and even if the amount of hot water that comes out increases, the hot water will only be used at a certain temperature lower than the set temperature. can.

[Brief explanation of the drawing]

The figure is an overall configuration diagram of a hot water storage water heater including a gas boiler control device, which is an embodiment of the present invention. 3.4...Water boiler, 5...Hot water storage tank, 1
0.11...Hot water detection sensor 12, 1
'3...Gas block, 16...Control device, 21...Hot water temperature setting section. 23... Boiling amount setting section.

Claims (7)

[Claims] (1) A hot water storage tank in which a plurality of hot water temperature detection sensors for detecting the temperature in the hot water storage tank are arranged above and below, at least one water heater having a gas control valve and a hot water output detection sensor, the hot water storage tank and the hot water storage tank; comprising a connecting pipe that connects a water heater, a water temperature setting section that sets the temperature of water in the hot water storage tank, and a boiling amount setting section that switches the plurality of water temperature detection sensors as necessary,
The difference between the temperature of the hot water detected by the hot water detection sensor and the set temperature is used as a water heater control signal, and based on this water heater control signal, hot water at the set temperature is stored in the hot water storage tank in order from the top, and the boiling water is A gas boiler control device that detects the temperature rise in the hot water storage tank using a hot water temperature detection sensor according to the water volume setting. (2) Hot water at the set temperature is supplied to the hot water tank for 1 second from the time when the TloC lower temperature than the boiler set temperature is reached, and the supply of hot water is stopped when 10 seconds have elapsed. The set temperature is controlled to be lowered by 12°C, and when the temperature of the hot water near the hot water temperature detection sensor drops T1 + 12°C from the set temperature due to the passage of time or hot water supply, the set temperature is restored and the set temperature is lowered again. The control device for a gas boiler according to claim 1, having a configuration for supplying hot water to a hot water storage tank. (3) A patent in which a pump is installed in the connecting pipe that supplies water from the water storage tank to the water heater, and the water heater starts combustion when the pump detects that water is flowing. A control device for a gas boiler according to claim 1 or 2. (4) A low-temperature thermostat is installed in the hot water flow path including the hot water storage tank and the water heater, and in the surrounding areas that are easy to cool.
Claim 3: When the temperature of the low-temperature thermostat drops to near 13°C, the low-temperature thermostat is activated and the pump is operated, and when the temperature of the low-temperature thermostat increases by 13°C, the pump is stopped. Gas boiler control device as described in Section 1. (5) A low-temperature thermostat and a heating heater are provided in the hot water flow path including the hot water storage tank and the water heater, and in the vicinity of the area that is easy to cool. Claims 1, 2, and 4 have a configuration in which a thermostat operates to operate the heating Hilter, and when the temperature rises by 74°C, the heater is stopped.
A control device for a gas boiler according to any one of paragraphs. (6) The control device for a gas boiler according to claim 3, wherein the exhaust section is provided with a fan, and rotation of the fan is detected to operate the pump. (7) The hot water storage tank is equipped with an electrode having a water level detection and anti-corrosion function to prevent corrosion of the hot water storage tank and to operate the pump when there is water in the hot water storage tank. The gas boiler control device according to any one of Item 2, Item 4, and Item 6.