CN215001512U - Rapid heating photoelectric boiler - Google Patents

Abstract

The utility model provides a rapid heating up photoelectricity electric boiler, including electric boiler body, the water knockout drum, the converter, the heat storage water tank, a circulating pump, solar collector, No. two circulating pumps, the play water end of water knockout drum is connected through the end of intaking of electric boiler inlet tube through converter and electric boiler body, the play water end of electric boiler body is connected with the end of intaking of water knockout drum through electric boiler outlet pipe, solar collector's the end of intaking is connected with the heat storage water tank through solar collector inlet tube, install a circulating pump on the solar collector inlet tube, install No. two circulating pumps on the electric boiler inlet tube, solar collector's play water end is connected with the heat storage water tank through solar collector outlet pipe. The utility model discloses can be more absorption solar energy, it is fast to heat up, has compromise heating system's stability simultaneously, can not produce big temperature fluctuation. In addition, the heat loss can be prevented, and more energy is saved.

Description

Rapid heating photoelectric boiler

Technical Field

The utility model relates to an electric heating installation especially relates to a rapid heating up photoelectricity boiler.

Background

The electric boiler is also called an electric heating boiler and an electric heating boiler, and as the name suggests, the electric boiler is a boiler device which takes electric power as energy and converts the electric power into heat energy, thereby outputting steam, high-temperature water or organic heat carrier with certain heat energy outwards through the conversion of the boiler. The electric boiler has three heating modes, namely an electromagnetic induction heating mode and a resistance (electric heating tube) PTC ceramic semiconductor heating mode, the resistance heating mode is divided into a stainless steel heating tube electric boiler and a ceramic heating tube electric boiler, the resistance heating mode adopts a resistance tubular electric heating element for heating, the semiconductor type oxide semiconductor ceramic chip is used, and water and electricity are completely separated.

The existing electric boiler is found that when in use, the electric boiler is heated by singly adopting electric energy, so that not only is the energy consumption large, but also the electric boiler is difficult to quickly heat up to reach the balance of supply and demand when the water temperature is high or the water quantity is large due to certain heating power; the solar auxiliary electric boiler heating system is found in practical application, the solar heat collector can cause heat loss in the circulating process, the stability is poor, and large temperature difference fluctuation is easy to generate, so that a rapid heating photoelectric electric boiler needs to be designed to solve the problems.

Disclosure of Invention

According to the technical problems, the utility model provides a rapid heating photoelectric electric boiler, which comprises an electric boiler body, a water separator, a converter, a heat storage water tank, a first circulating pump, a solar thermal collector and a second circulating pump, wherein the water outlet end of the water separator is connected with the water inlet end of the electric boiler body through the converter via an electric boiler water inlet pipe, the water outlet end of the electric boiler body is connected with the water inlet end of the water separator via an electric boiler water outlet pipe, the water inlet end of the solar thermal collector is connected with the heat storage water tank via a solar thermal collector water inlet pipe, the first circulating pump is installed on the solar thermal collector water inlet pipe, the second circulating pump is installed on the electric boiler water inlet pipe, the water outlet end of the solar thermal collector is connected with the heat storage water tank via a solar thermal collector water outlet pipe, the first temperature sensor is arranged in the heat storage water tank, the second temperature sensor is installed on the solar thermal collector, install No. three temperature sensor on the electric boiler inlet tube, a temperature sensor, No. two temperature sensor, No. three temperature sensor, a circulating pump, No. two circulating pumps, converter, electric boiler body are connected with the control system electricity respectively.

Furthermore, the water inlet pipe of the solar heat collector is connected with the bottom of the heat storage water tank, and the water outlet pipe of the solar heat collector is connected with the top of the heat storage water tank.

The utility model has the advantages that: the utility model relates to a rapid heating up photoelectricity boiler, when solar collector surface temperature was higher than heat accumulation bucket internal temperature, a circulating pump work, until the temperature equals or surface temperature is less than heat accumulation bucket internal temperature. Thereby absorb solar energy as far as, compare in traditional solar energy supplementary electric boiler formula heating system, the utility model discloses the absorption solar energy that can be more, it is fast to heat up, has compromise heating system's stability simultaneously, can not produce big temperature fluctuation. In addition, the heat loss can be prevented, and more energy is saved.

Drawings

FIG. 1 is a view of the main structure of the present invention;

fig. 2 is a system block diagram of the present invention.

As shown in the figure, the electric boiler comprises an electric boiler body-1, a water separator-2, a converter-3, a heat storage water tank-4, a first circulating pump-5, a solar thermal collector-6, an electric boiler water inlet pipe-7, an electric boiler water outlet pipe-8, a solar thermal collector water inlet pipe-9, a solar thermal collector water outlet pipe-10, a first temperature sensor-11, a second temperature sensor-12, a third temperature sensor-13 and a second circulating pump-14.

Detailed Description

The present invention will be further explained with reference to the accompanying drawings: the utility model relates to a rapid heating photoelectric electric boiler, which comprises an electric boiler body 1, a water separator 2, a converter 3, a heat storage water tank 4, a first circulating pump 5, a solar thermal collector 6 and a second circulating pump 14, wherein the water outlet end of the water separator 2 is connected with the water inlet end of the electric boiler body 1 through the converter 3 via an electric boiler water inlet pipe 7, the water outlet end of the electric boiler body 1 is connected with the water inlet end of the water separator 2 via an electric boiler water outlet pipe 8, the water inlet end of the solar thermal collector 6 is connected with the heat storage water tank 4 via a solar thermal collector water inlet pipe 9, the first circulating pump 5 is installed on the solar thermal collector water inlet pipe 9, the second circulating pump 14 is installed on the electric boiler water inlet pipe 7, the water outlet end of the solar thermal collector 6 is connected with the heat storage water tank 4 via a solar thermal collector water outlet pipe 10, a first temperature sensor 11 is arranged inside the heat storage water tank 4, install No. two temperature sensor 12 on the solar collector 6, install No. three temperature sensor 13 on the electric boiler inlet tube 7, a temperature sensor 11, No. two temperature sensor 12, No. three temperature sensor 13, circulating pump 5, No. two circulating pumps 14, converter 3, electric boiler body 1 are connected with the control system electricity respectively.

Further, the solar heat collector water inlet pipe 9 is connected with the bottom of the heat storage water tank 4, and the solar heat collector water outlet pipe 10 is connected with the top of the heat storage water tank 4.

The working principle is as follows: when needing to heat, if heat accumulation bucket temperature is higher than the electric boiler body 1 temperature of intaking, No. three temperature sensor 13 feed back control system with the signal, and control system control converter 3 acts, opens the macrocycle: heat-retaining bucket, converter 3, electric boiler body 1, water knockout drum 2 introduce heating system with hot water, replace original cold water, later control system control converter 3 closes, gets into the microcirculation: water knockout drum 2, electric boiler body 1, converter 3, because the water yield is few, under the electric boiler heating of same power, it is fast to heat up, after reaching the settlement temperature, control system control interval certain time opens converter 3, the water in the a small amount of heat storage bucket of introduction that is interrupted promptly, also heats the water in the heat storage bucket to the settlement temperature gradually, increase heating system's thermal stability, after reaching the predetermined temperature, electric boiler body 1 can be interrupted under control system's control and open, it can to maintain the temperature. It is worth noting that: the electric boiler body 1 and the matched second circulating pump 14 must be started at the same time, and after the temperature maintaining stage is reached, the converter 3 is switched to the large circulation without change.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications can be made without departing from the principle of the present invention, and these modifications should also be regarded as the protection scope of the present invention.

Claims (2)

1. A rapid heating photoelectric electric boiler is characterized by comprising an electric boiler body, a water separator, a converter, a heat storage water tank, a first circulating pump, a solar thermal collector and a second circulating pump, wherein the water outlet end of the water separator is connected with the water inlet end of the electric boiler body through an electric boiler water inlet pipe and the converter, the water outlet end of the electric boiler body is connected with the water inlet end of the water separator through an electric boiler water outlet pipe, the water inlet end of the solar thermal collector is connected with the heat storage water tank through a solar thermal collector water inlet pipe, the first circulating pump is installed on the solar thermal collector water inlet pipe, the second circulating pump is installed on the electric boiler water inlet pipe, the water outlet end of the solar thermal collector is connected with the heat storage water tank through the solar thermal collector water outlet pipe, a first temperature sensor is arranged inside the heat storage water tank, and a second temperature sensor is installed on the solar thermal collector, install No. three temperature sensor on the electric boiler inlet tube, a temperature sensor, No. two temperature sensor, No. three temperature sensor, a circulating pump, No. two circulating pumps, converter, electric boiler body are connected with the control system electricity respectively.

2. A rapid heating up photovoltaic electric boiler according to claim 1, characterized in that the solar collector inlet pipe is connected with the bottom of the thermal storage water tank and the solar collector outlet pipe is connected with the top of the thermal storage water tank.

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