KR880000398Y1 - Storage type feed water unit - Google Patents

Abstract

No content.

Description

Water type hot water supply device

1 is an explanatory diagram showing an example of the present invention.

2 is a time chart for explaining the operation of FIG.

3 is an explanatory diagram showing a change in the charge amount of the integral capacitor of the present invention.

* Explanation of symbols for main parts of the drawings

1: regulator 2: integral capacitor

3: integrating circuit 4: burner

5: combustion control circuit 6: discharge circuit

The present invention relates to a low-temperature type hot water apparatus. In the conventional hot water type hot water supply device, an integrated circuit which integrates the output of a regulator with an output according to the tapping temperature, the set temperature and the deviation, and an integrated capacitor, and the amount of combustion of the burner in accordance with the filling amount of the condenser. It is already known to control the tapping temperature to an arbitrary set temperature by including a combustion controller for controlling proportionally.

However, the above-described type of low temperature instantaneous water heater has a structure in which a water storage tank is installed in a hot water path connected to the outlet of the thermal bridge ventilation, and the hot water is stored in the water storage tank once in the thermal bridge ventilation so that the hot water is tapped into the hot water stopper. In this case, the tapping temperature is detected by a temperature sensing element such as a thermostat formed in the tap or the hot water path downstream thereof. Until the burner combustion amount is changed by tapping temperature, the tapping temperature is detected by the temperature sensing element. It will take more than a second.

Therefore, if the amount of tapping is extremely low at the initial stage of burner ignition and the set temperature is set to the maximum temperature, the water in the heat exchanger boils until information on the burner's combustion amount is transmitted to the thermosensitive element. There was an irrational point.

The present invention has a purpose to provide a device for solving the unreasonable point in the conventional device, as shown in Figure 1 of the accompanying drawings, the regulator for generating an output in accordance with the deviation between the tapping temperature and the set temperature (1) And an integrated capacitor (2) and a combustion control circuit for controlling the combustion amount of the burner (4) proportionally to the filling amount of the integrating circuit (3) and the condenser (2) integrating the output of the regulator (1). 5) A low temperature hot water supply device, which is configured to control the tapping temperature to a predetermined set temperature, the discharge circuit being closed for a predetermined time in the initial stage of ignition of the burner 4 in parallel with the condenser 2; (6), characterized in that it is possible to regulate that the charge amount of the capacitor 2 rises above a predetermined value by discharge through the discharge circuit 6.

The controller 1 has a function of the tapping temperature and the set temperature detected by a bridge circuit 9 integrating a thermodome 7 for detecting tapping temperature and a variable resistor 8 for selecting tapping temperature. And an operational amplifier 10 for amplifying the voltage corresponding to the temperature difference proportionally.

The integrating circuit 3 is composed of an integrating capacitor 2 and a resistor 11 and the like, and the combustion control circuit 5 includes an operational amplifier 12 and an operational amplifier for generating an output corresponding to the charging amount of the integrating capacitor 2. And a proportional control valve connected to the fuel supply path 14 of the burner 4 in series with the transistor 13. The excitation coil 15a of 15 is connected, and the combustion amount is proportional to the filling amount according to the opening degree of the proportional control valve 15.

In the figure, 16 denotes a heat exchanger, and 17 and 18 indicate a water channel and a hot water passage communicating with the inlet and the outlet of the heat exchanger 16, and a water storage tank 19 is formed in the hot water passage 18. The summer star 7 is arrange | positioned downstream, and 20 in the figure shows a tapping stopper.

The discharge circuit 6 includes two voltage divider resistors 22 and 23 for restricting the charge amount of the diode 21 and the integrating capacitor 2 and a transistor 24 having a collector connected to the voltage divider resistor 23 and the transistor ( And a NAND circuit 25 connected to the base of 24.

In addition, the NAND circuit 25 has a burner 4 by the output of the timer circuit 26 which operates for a predetermined time by the input of the power switch of the low temperature type hot water supply device and the operation of the ignition circuit (not shown) by the input of the switch. When ignited, the output of the pulse generating circuit 27, which operates as an output from a flame detection element (not shown) and generates pulses at a predetermined interval, is input.

Therefore, when the operation is described according to FIGS. 1 to 3 of the accompanying drawings, when the power switch is turned on in order to use the hot water type hot water supply device, the timer circuit 26 performs a predetermined time, for example, as shown in FIG. 2 (a). generating the output sayi t ₁ time, and then the burner (4) ignition after pulse generation circuit 27, the 2 (b) is also a pulse width of the interval t a ₃ hour pulse in the t ₃ time as generated in the steps the NAND circuit 25 is the output of the time is generated by t ₂ t ₃ time interval is closed, i.e. conducting discharge circuit 6 of the transistor 24 of the t ₂ hours.

Therefore, when the set temperature is set close to the maximum temperature, even when a large output is generated from the regulator 1, the charge amount Q of the capacitor 2 when the discharge circuit 6 is closed decreases as shown in FIG. Since it will rise in the same way, but the filling amount will be raised above a certain value, the combustion amount of the burner 4 will also be regulated relatively low, and boiling in the heat exchanger 16 will not generate | occur | produce, even if it reduces a tapping amount.

Subsequently, after t ₃ hours, the discharging circuit 6 is not closed, but at this point (the hot water heated in the heat exchanger 16 reaches the arrangement of the summer star 7 to detect the hot tapping temperature. Therefore, accordingly, the output from this regulator 1 also falls, and a tapping temperature is maintained at a set temperature by normal control operation.

As such, the present invention regulates the initial use of the hot water type hot water supply device and the filling amount of the integrating condenser to rise above a certain value. It works.

Claims (1)

The burner corresponding to the charging amount of the regulator 1 and the integrating capacitor 2 and the integrating circuit 3 and the condenser 2 integrating the outputs of the regulator 1 generating an output corresponding to the deviation of the tapping temperature and the set temperature. In the ordinary low-temperature hot water supply apparatus, which is provided with a combustion control circuit 5 or the like which proportionally controls the amount of combustion in (4) so as to control the tapping temperature to an arbitrary set temperature, parallel to the condenser 2. The discharge circuit 6 is formed to be closed for a predetermined time during the initial ignition of the furnace burner 4 to regulate the amount of charge of the capacitor 2 to rise above a predetermined value by discharge through the discharge circuit 6. Water type hot water supply device