CN111076415A - Electric boiler heat supply water supply system - Google Patents

Abstract

The invention relates to a heating and water supplying system of an electric boiler, which comprises a drinking water electric boiler, a heating electric boiler, a bathing electric boiler and a daily-use electric boiler, wherein the drinking water electric boiler is communicated with the heating electric boiler and the bathing electric boiler, the heating electric boiler and the bathing electric boiler are communicated with the daily-use electric boiler, the heating electric boiler is in heat transfer connection with an external heating pipe system through a heat exchanger, the external heating pipe system is communicated with the daily-use electric boiler, medium-temperature residual water accumulated in the drinking water electric boiler is discharged into the heating electric boiler and the bathing electric boiler for reutilization, and low-temperature residual water accumulated in the heating electric boiler, the bathing electric boiler and the external heating pipe system is discharged into the daily-use electric boiler for reutilization. The invention adopts the integrated system of the electric boiler which can meet various applications to improve the utilization efficiency of heat energy, and has the characteristics of high utilization rate of heat energy, electric energy saving and cost saving.

Description

Electric boiler heat supply water supply system

Technical Field

The invention relates to a heat and water supply system, in particular to a heat and water supply system of an electric heating boiler, belonging to the field of energy equipment.

Background

An electric boiler is a thermal energy device that converts electric energy into thermal energy. The electric boiler adopts electric energy to heat water into pressurized hot water or steam for life and production, does not need a hearth, a flue and a chimney, and does not need a field for storing fuel, thereby obviously reducing the pollution caused by the conventional coal-fired boiler. Therefore, the electric boiler is a green and environment-friendly device which has no pollution and noise, small occupied area, convenient installation and use, high automation degree, safety, reliability and high thermal efficiency. In the industrial production aspect, the electric boiler is widely applied to industrial production, auxiliary heat sources of enterprises and public institutions, chemical engineering and oil refineries to meet the requirement of steam required by production, and in the living aspect of residents, the electric boiler is widely applied to heating, air conditioning, hot water supply and living hot water supply schemes of buildings such as high-grade hotels, restaurants, office buildings, schools, scientific research buildings, hospital outpatient wards and the like. At present, the electric boiler is single in application mode, a comprehensive application scheme is not provided, and the problem of waste of residual heat energy exists.

Disclosure of Invention

The invention discloses a new scheme for an electric heating boiler heat and water supply system, which adopts an integrated system of electric heating boilers capable of meeting various applications to improve the utilization efficiency of heat energy and solves the problems of single application mode and waste of residual heat energy of the existing scheme.

The invention relates to a heating and water supplying system of an electric boiler, which comprises a drinking water electric boiler, a heating electric boiler, a bathing electric boiler and a daily-use water electric boiler, wherein the drinking water electric boiler is communicated with the heating electric boiler and the bathing electric boiler, the heating electric boiler and the bathing electric boiler are communicated with the daily-use water electric boiler, the heating electric boiler is in heat transfer connection with an external heating pipe system through a heat exchanger, the external heating pipe system is communicated with the daily-use water electric boiler, medium-temperature residual water accumulated in the drinking water electric boiler is discharged into the heating electric boiler and the bathing electric boiler for reuse, and low-temperature residual water accumulated in the heating electric boiler, the bathing electric boiler and the external heating pipe system is discharged into the daily-use water electric boiler for reuse.

Furthermore, the electric heating boiler for drinking water comprises a heat-insulating shell, an electromagnetic induction water heating device is arranged in the heat-insulating shell, the electromagnetic induction water heating device comprises an electromagnetic induction water heater A and an electromagnetic induction water heater B, water inlets of the electromagnetic induction water heater A and the electromagnetic induction water heater B are communicated with a water inlet of the heat-insulating shell through water inlet pipelines, each water inlet pipeline comprises a water inlet header pipe, each water inlet header pipe is communicated with a water inlet branch pipe A, a water inlet branch pipe B and a water inlet branch pipe C, each water inlet branch pipe A is communicated with the water inlet of the electromagnetic induction water heater A, each water inlet branch pipe B is communicated with the water inlet of the electromagnetic induction water heater B, each water inlet branch pipe C is communicated with the interior of the heat-insulating shell, each water inlet header pipe, each water inlet branch pipe A and each water inlet branch pipe B are provided, the water outlet pipeline comprises a water outlet main pipe, the water outlet main pipe is communicated with a water outlet branch pipe A and a water outlet branch pipe B, the water outlet branch pipe A is communicated with a water outlet of the electromagnetic induction water heater A, the water outlet branch pipe B is communicated with a water outlet of the electromagnetic induction water heater B, electromagnetic valves are arranged on the water outlet main pipe, the water outlet branch pipe A and the water outlet branch pipe B, and uninterrupted drinking water supply is guaranteed by controlling the opening and closing states of the electromagnetic valves to realize the alternate work of the electromagnetic induction water heater A and the electromagnetic induction water heater B.

Furthermore, the electromagnetic induction water heater A of this scheme, the electromagnetic induction water heater B is the electromagnetic induction water heater that the structure is the same, the electromagnetic induction water heater includes the tube-shape shell, it winds the chamber to be equipped with the coil on the lateral wall of tube-shape shell, the coil is equipped with along the induction coil of circumference around establishing around the intracavity, the inside of tube-shape shell is equipped with a plurality of response electric heat posts along the axial, response electric heat post links to each other with the tube-shape shell through the fixed plate at both ends, the inside water of response electric heat post heating electromagnetic induction water heater, the waste heat of response electric heat post passes to the tube-shape shell outside through the fixed plate and heats.

Further, the heating electric boiler of this scheme includes tube-shape lagging casing A, and the bottom in the tube-shape lagging casing A is equipped with the electrical bar base, is equipped with a plurality of heating rods along tube-shape lagging casing A axial extension on the electrical bar base, and it is equipped with foamed aluminum insulation material to fill between heating rod and lagging casing A, and foamed aluminum insulation material avoids the heat to exceed standard and runs off.

Furthermore, the heating electric boiler of this scheme still includes the chemical heat accumulation jar, the chemical heat accumulation jar includes tube-shape lagging casing B, tube-shape lagging casing B and tube-shape lagging casing A intercommunication, be equipped with polylith chemical heat accumulation board along the axial in the tube-shape lagging casing B, adjacent chemical heat accumulation board staggers from beginning to end and arranges the runner that forms along the axial tortuous extension, be equipped with the cavity in the chemical heat accumulation board, the heat conduction hole intercommunication of densely covered on cavity and the chemical heat accumulation board, be equipped with the chemical heat accumulation material in the cavity, rivers in the lagging casing A flow back to lagging casing A after runner in the tube-shape lagging casing B and the heat exchange of chemical heat accumulation material.

Furthermore, the bathing electric heating boiler of the scheme comprises a heat-insulating shell A, an electric heating rod is arranged in the heat-insulating shell A, the heat-insulating shell A is communicated with an external solar heat accumulator, the solar heat accumulator comprises a heat-insulating shell B, a hot oil heat accumulation cavity is arranged in the heat-insulating shell B, the space between the hot oil heat accumulation cavity and the heat-insulating shell B is a hot water cavity, warm water is arranged in the hot water cavity, hot heat accumulation oil is arranged in the hot oil heat accumulation cavity and exchanges heat with the hot heat accumulation oil, the warm water is in contact heat conduction connection with one ends of a plurality of heat conduction pipes A, the other ends of the heat conduction pipes A extend out of the heat-insulating shell B to absorb solar radiation energy, a transparent heat conduction cover is arranged on the outer sealing cover extending out of the heat-insulating shell A and the other ends of the heat conduction pipes, the transparent heat conduction cover avoids the heat absorbed by the heat conduction pipes A and B from exceeding the standard and losing, and hot water which obtains solar radiation energy through the heat conduction pipes A and B enters the heat preservation shell A and then is heated by the electric heating rod to reach a set temperature value.

Furthermore, the daily-use water electric boiler comprises a heat-insulating shell, wherein an electric heating rod is arranged in the heat-insulating shell, and the electric heating rod heats the low-temperature residual water discharged from the heating electric boiler, the bathing electric boiler and the external heating pipe system to a set temperature value.

The heat and water supply system of the electric heating boiler adopts an integrated system which can meet the requirements of various electric heating boilers to improve the utilization efficiency of heat energy, and has the characteristics of high utilization rate of heat energy, electric energy conservation and cost conservation.

Drawings

FIG. 1 is a schematic view of an electric boiler heating water supply system.

Fig. 2 is an internal schematic view of the electric boiler for drinking water.

FIG. 3 is an internal schematic view of an electromagnetic induction water heater.

FIG. 4 is a schematic view of a heating electric boiler.

FIG. 5 is a schematic view of the interior of a cylindrical heat-retaining casing A of the heating electric boiler.

Fig. 6 is a schematic view of the inside of the cylindrical heat-retaining casing B of the chemical heat storage tank.

Wherein 100 is a drinking water electric boiler, 110 is an electromagnetic induction water heater, 111 is an induction coil, 112 is an induction electric column, 113 is a fixing plate, 200 is a heating electric boiler, 211 is an electric rod base, 212 is a heating rod, 213 is a foamed aluminum heat-insulating material, 220 is a chemical heat storage tank, 221 is a heat storage plate, 300 is a bathing electric boiler, 400 is a daily-use water electric boiler, 510 is a heat exchanger, and 520 is a heating pipe system.

Detailed Description

As shown in figure 1, the heating and water supply system of the electric boiler comprises a drinking water electric boiler, a heating electric boiler, a bathing electric boiler and a daily-use electric boiler, wherein the drinking water electric boiler is communicated with the heating electric boiler and the bathing electric boiler, the heating electric boiler and the bathing electric boiler are communicated with the daily-use electric boiler, the heating electric boiler is in heat transfer connection with an external heating pipe system through a heat exchanger, the external heating pipe system is communicated with the daily-use electric boiler, medium-temperature residual water accumulated in the drinking water electric boiler is discharged into the heating electric boiler and the bathing electric boiler for reuse, and low-temperature residual water accumulated in the heating electric boiler, the bathing electric boiler and the external heating pipe system is discharged into the daily-use electric boiler for reuse. According to the scheme, the integrated system of the electric heating boiler capable of meeting multiple applications is adopted to improve the utilization efficiency of heat energy, wherein water in the drinking water electric heating boiler is used for people to drink and should be boiled, water in the heating electric heating boiler is used for heat exchange and heating with external heat circulation and generally does not need to be boiled, a steam form can also be adopted in a cold area, water in the bathing electric heating boiler is used for people to bathe and generally does not need to be boiled, water in the daily water electric heating boiler is used for kitchen, toilet and washing, so that water with higher temperature is not suitable for being adopted, and therefore, according to the temperature of residual hot water in the electric heating boiler with different purposes, residual water with higher temperature is discharged into other environments with lower temperature setting for heat exchange, so that electric energy and cost are saved, and the utilization efficiency of heat energy is improved.

As shown in fig. 2, in order to realize the function of the electric boiler for drinking water, improve the water supply efficiency, and avoid the adverse effect on the human health caused by repeatedly heating and boiling water (thousand boiling water) and mixing boiled water and raw water (yin and yang water), further, the electric boiler for drinking water of the present scheme comprises a heat-insulating shell, an electromagnetic induction water heating device is arranged in the heat-insulating shell, the electromagnetic induction water heating device comprises an electromagnetic induction water heater a and an electromagnetic induction water heater B, the water inlets of the electromagnetic induction water heater a and the electromagnetic induction water heater B are communicated with the water inlet of the heat-insulating shell through water inlet pipelines, each water inlet pipeline comprises a water inlet main pipe, the water inlet main pipe is communicated with a water inlet branch pipe a, a water inlet branch pipe B and a water inlet branch pipe C, the water inlet branch pipe a is communicated with the water inlet of the electromagnetic induction water heater a, the water inlet, the electromagnetic induction water heater comprises a water inlet main pipe, a water inlet branch pipe A and a water inlet branch pipe B, wherein an electromagnetic valve is arranged on the water inlet branch pipe B, the electromagnetic induction water heater A and a water outlet of the electromagnetic induction water heater B are communicated with a water outlet of a heat insulation shell through a water outlet pipeline, the water outlet pipeline comprises a water outlet main pipe, the water outlet main pipe is communicated with the water outlet branch pipe A and the water outlet branch pipe B, the water outlet branch pipe A is communicated with a water outlet of the electromagnetic induction water heater A, the water outlet branch pipe B is communicated with a water outlet of the electromagnetic induction water heater B, the water outlet main pipe, the water outlet branch pipe A and the water outlet branch pipe B are provided with electromagnetic valves, the electromagnetic induction water. The electromagnetic induction water heating device of the scheme can further comprise more electromagnetic induction water heaters according to requirements, the water heater enters a heat preservation state after boiling water and is not heated again until being emptied, and therefore, the water is prevented from being cut off when the electromagnetic induction water heaters are used alternately, and the problem that the water is repeatedly boiled and the cold and hot water are mixed is also avoided.

Based on the proposal, the proposal also discloses a specific proposal of the electromagnetic induction water heater, when the water heater is adopted to obtain boiled water, warm water can be obtained in the outer chamber and can be discharged into other electric boilers for use, thereby greatly saving electric energy and improving the utilization rate of heat energy, as shown in figures 2 and 3, the electromagnetic induction water heater A of this scheme promptly, electromagnetic induction water heater B is the electromagnetic induction water heater that the structure is the same, electromagnetic induction water heater includes the tube-shape shell, be equipped with the coil on the lateral wall of tube-shape shell and wind the chamber, the coil is equipped with along the induction coil of circumference around establishing around the intracavity, the inside of tube-shape shell is equipped with a plurality of response electric heat posts along the axial, response electric heat post links to each other with the tube-shape shell through the fixed plate at both ends, the inside water of response electric heat post heating electromagnetic induction water heater, the waste heat of response electric heat post passes to the tube-shape shell outside through the fixed plate and heats the water between.

As shown in figure 5, in order to realize the function of the heating electric boiler and improve the heat preservation effect of hot water, the heating electric boiler of the scheme comprises a cylindrical heat preservation shell A, an electric heating rod base is arranged at the bottom in the cylindrical heat preservation shell A, a plurality of heating rods axially extending along the cylindrical heat preservation shell A are arranged on the electric heating rod base, a foamed aluminum heat preservation material is filled between the heating rods and the heat preservation shell A, and the foamed aluminum heat preservation material avoids the heat exceeding the standard and losing. Based on above scheme, in order to increase the retaining volume, increase the deposit of heat energy simultaneously, this scheme has adopted a chemistry heat accumulation jar, as shown in figure 4, 6, the heating electric boiler of this scheme still includes chemistry heat accumulation jar, chemistry heat accumulation jar includes tube-shape lagging casing B, tube-shape lagging casing B and tube-shape lagging casing A intercommunication, be equipped with polylith chemical heat accumulation board along the axial in the tube-shape lagging casing B, adjacent chemical heat accumulation board head and the tail stagger arranges the runner that forms along the tortuous extension of axial, be equipped with the cavity in the chemical heat accumulation board, the heat conduction hole intercommunication of densely covered on cavity and the chemical heat accumulation board, be equipped with chemical heat storage material in the cavity, rivers in the lagging casing A flow back to lagging casing A after runner and the chemical heat storage material heat transfer in the tube-shape lagging casing.

In order to realize the functions of the bathing electric heating boiler, the electric energy is saved by adopting photovoltaic energy, the scheme also discloses an electric energy and photovoltaic combined heating scheme, namely the bathing electric heating boiler comprises a heat-insulating shell A, an electric heating rod is arranged in the heat-insulating shell A, the heat-insulating shell A is communicated with an external solar heat accumulator, the solar heat accumulator comprises a heat-insulating shell B, a hot oil heat-storing cavity is arranged in the heat-insulating shell B, the space between the hot oil heat-storing cavity and the heat-insulating shell B is a hot water cavity, warm water is arranged in the hot water cavity, heat-storing hot oil is arranged in the hot oil heat-storing cavity, the warm water exchanges heat with the heat-storing hot oil, the warm water is in contact heat conduction connection with one ends of a plurality of heat conduction pipes A, the other ends of the heat conduction pipes A extend out of the heat-insulating shell B to absorb, the other ends of the heat conduction pipes A and B extending out of the heat insulation shell B are externally covered with transparent heat conduction covers, the transparent heat conduction covers prevent the heat absorbed by the heat conduction pipes A and B from exceeding the standard and losing, and hot water which obtains solar radiation energy through the heat conduction pipes A and B enters the heat insulation shell A and is heated by an electric heating rod to reach a set temperature value.

In order to realize the function of the daily water-using electric heating boiler, the daily water-using electric heating boiler comprises a heat-insulating shell, wherein an electric heating rod is arranged in the heat-insulating shell, and the electric heating rod heats low-temperature residual water discharged from a heating electric heating boiler, a bathing electric heating boiler and an external heating pipe system to a set temperature value.

The electric boiler heating and water supply system of the present solution is not limited to the disclosure of the specific embodiments, the technical solutions presented in the examples can be extended based on the understanding of those skilled in the art, and the simple alternatives made by those skilled in the art according to the present solution in combination with the common general knowledge also belong to the scope of the present solution.

Claims (7)

1. The heating and water supplying system of the electric boiler is characterized by comprising a drinking water electric boiler, a heating electric boiler, a bathing electric boiler and a daily-use water electric boiler, wherein the drinking water electric boiler is communicated with the heating electric boiler and the bathing electric boiler, the heating electric boiler and the bathing electric boiler are communicated with the daily-use water electric boiler, the heating electric boiler is in heat transfer connection with an external heating pipe system through a heat exchanger, the external heating pipe system is communicated with the daily-use water electric boiler, medium-temperature residual water accumulated in the drinking water electric boiler is discharged into the heating electric boiler and the bathing electric boiler for reuse, and low-temperature residual water accumulated in the heating electric boiler, the bathing electric boiler and the external heating pipe system is discharged into the daily-use water electric boiler for reuse.

2. The electric heating boiler heat supply and water supply system according to claim 1, wherein the electric heating boiler for drinking water comprises an insulation shell, an electromagnetic induction water heating device is arranged in the insulation shell, the electromagnetic induction water heating device comprises an electromagnetic induction water heater A and an electromagnetic induction water heater B, water inlets of the electromagnetic induction water heater A and the electromagnetic induction water heater B are communicated with a water inlet of the insulation shell through water inlet pipelines, the water inlet pipelines comprise a water inlet main pipe, the water inlet main pipe is communicated with a water inlet branch pipe A, a water inlet branch pipe B and a water inlet branch pipe C, the water inlet branch pipe A is communicated with a water inlet of the electromagnetic induction water heater A, the water inlet branch pipe B is communicated with a water inlet of the electromagnetic induction water heater B, the water inlet branch pipe C is communicated with the inside of the insulation shell, the water inlet main pipe, the water inlet branch pipe A, Be equipped with the solenoid valve on the branch pipe B of intaking, the delivery port of electromagnetic induction water heater A, electromagnetic induction water heater B pass through outlet conduit with the delivery port intercommunication of lagging casing, outlet conduit includes outlet manifold, outlet manifold and outlet branch pipe A, outlet branch pipe B intercommunication, outlet branch pipe A with electromagnetic induction water heater A's delivery port intercommunication, outlet branch pipe B with electromagnetic induction water heater B's delivery port intercommunication, be equipped with the solenoid valve on outlet manifold, outlet branch pipe A, the outlet branch pipe B, through control the on-off state of solenoid valve realizes electromagnetic induction water heater A, electromagnetic induction water heater B work in turn guarantees incessant supply of drinking water.

3. An electric boiler heating water supply system according to claim 2, wherein the electromagnetic induction water heater A and the electromagnetic induction water heater B are electromagnetic induction water heaters with the same structure, the electromagnetic induction water heater comprises a cylindrical shell, a coil winding cavity is arranged on the side wall of the cylindrical shell, an induction coil wound along the circumferential direction is arranged in the coil winding cavity, a plurality of induction electric heating columns are axially arranged in the cylindrical shell and connected with the cylindrical shell through fixing plates at two ends, the induction electric heating columns heat water in the electromagnetic induction water heater, and waste heat of the induction electric heating columns is transferred to the outer side of the cylindrical shell through the fixing plates to heat water between the electromagnetic induction water heater and the heat preservation shell.

4. The system of claim 1, wherein the heating electric boiler comprises a cylindrical thermal insulation shell A, an electric rod base is arranged at the bottom inside the cylindrical thermal insulation shell A, a plurality of heating rods extending along the axial direction of the cylindrical thermal insulation shell A are arranged on the electric rod base, and a foamed aluminum thermal insulation material is filled between the heating rods and the thermal insulation shell A and prevents the heat from exceeding the standard.

5. The electric heating boiler heating water supply system according to claim 4, wherein the heating electric heating boiler further comprises a chemical heat storage tank, the chemical heat storage tank comprises a cylindrical heat preservation shell B, the cylindrical heat preservation shell B is communicated with the cylindrical heat preservation shell A, a plurality of chemical heat storage plates are axially arranged in the cylindrical heat preservation shell B, the adjacent chemical heat storage plates are arranged end to end in a staggered mode to form a flow channel which extends in a zigzag mode, a cavity is formed in each chemical heat storage plate and is communicated with heat conduction holes densely distributed in each chemical heat storage plate, chemical heat storage materials are arranged in the cavity, and water in the heat preservation shell A flows back to the heat preservation shell A after exchanging heat with the chemical heat storage materials through the flow channel in the cylindrical heat preservation shell B.

6. The electric heating boiler heat supply and water supply system according to claim 1, wherein the electric bathing heating boiler comprises a heat preservation shell A, an electric heating rod is arranged in the heat preservation shell A, the heat preservation shell A is communicated with an external solar heat accumulator, the solar heat accumulator comprises a heat preservation shell B, a hot oil heat accumulation cavity is arranged in the heat preservation shell B, a space between the hot oil heat accumulation cavity and the heat preservation shell B is a hot water cavity, warm water is arranged in the hot water cavity, heat accumulation hot oil is arranged in the hot oil heat accumulation cavity, the warm water exchanges heat with the heat accumulation hot oil, the warm water is in contact heat conduction connection with one end of a plurality of heat conduction pipes A, the other end of the heat conduction pipe A extends out of the heat preservation shell B to absorb solar radiation energy, the heat accumulation hot oil is in contact heat conduction connection with one end of the plurality of heat conduction pipes B, and the other end of the heat conduction, stretch out heat preservation shell B heat pipe A, heat pipe B's other end external seal cover are equipped with transparent heat conduction cover, transparent heat conduction cover avoids heat pipe A, the heat pipe B absorptive heat superscript runs off, through heat pipe A, heat pipe B acquire solar radiation energy's hot water gets into behind the heat preservation shell A warp the electric heating rod heating heaies up to the temperature numerical value of settlement.

7. The electric heating boiler hot water supply system according to claim 1, wherein the daily used water electric heating boiler comprises a thermal insulation shell, an electric heating rod is arranged in the thermal insulation shell, and the electric heating rod heats the low-temperature residual water discharged from the heating electric heating boiler, the bathing electric heating boiler and the external hot water system to a set temperature value.

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