CN2807092Y - Electric heat storage type heating system - Google Patents

Abstract

The utility model relates to an electric heat storage type heating system, which comprises a heat storage medium, a warmer, a heater, a heat conducting device, a heat exchanger A, a heat exchanger B, a hydraulic vacuum pump, a liquid storage device, an inner circulation water pump, a liquid collecting device and a regulator, wherein the heat storage medium is arranged on a steel plate supported by a ceramic supporting seat, and the heater and the warmer are inserted in the heat storage medium; the warmer is vertically arranged in the heat storage medium; the upper end of the warmer is connected with the heat conducting device, and the lower end is connected with a liquid trap; the heater is transversely inserted in the heat storage medium; the heat conducting device is composed of a heat conducting pipe bundle and a corrugated pipe; one end of the heat conducting pipe bundle is connected with the warmer, and the other end is connected with a heat exchanger A; the corrugated pipe is arranged at the middle part of the heat conducting pipe bundle; an outer shell of the heat exchanger A is connected with the heat conducting device and the hydraulic vacuum pump; a pipe core element is arranged in the pipe bundle, and both ends of the pipe core element are connected with the heat exchanger B and a heat consumer outlet pipeline; an outer shell of the heat exchanger B is connected with the heat exchanger A and a heat consumer water return pipeline; the pipe bundle and the liquid storage device form a circulation pipeline; one end of the hydraulic vacuum pump is connected with the outer shell of the heat exchanger A, and the other end is connected with the liquid storage device; one end of the liquid storage device is connected with the hydraulic vacuum pump and the heat exchanger B, and the other end is connected with the regulator and the heat exchanger B by the inner circulation water pump; one end of the inner circulation water pump is connected with the liquid storage.

Description

The electricity heat storage and heat supply system

Technical field

The utility model provides a kind of novel electric heat storage and heat supply system

Background technology

Heat supply that China is traditional and heat supply wetting system generally all adopt coal-burning boiler.But its emission is very serious to the pollution of atmosphere, and at present a lot of cities progressively forbid adopting.Though adopt fuel oil, combustion gas or common electric boiler to reduce atmosphere pollution on certain program control, operating cost is very high, the general user still has bigger difficulty economically.On the other hand, power department can move by peak load shifting in order to make electrical network in recent years, has worked out low ebb electricity policy, reduces the electricity charge in night, encourages to adopt the heat storing type electric boiler.As heat-storage medium, but the thermal capacity of water is very low, needs the water tank of significant volume with water for the at present general heat storing type electric boiler that adopts, and the thermal efficiency is very low, and operation is also complicated.Adopt solid material need be heated to very high-temperature as heat-storage medium, reducing thermal stress is the current subject matter that needs solution with prolonging equipment life and improving device security.

Summary of the invention

The purpose of this utility model is to provide a kind of novel electric heat storage and heat supply system.Adopt the very big heat resisting ferro alloy which stands of thermal capacity as heat-storage medium, heating, heat accumulation, heat-obtaining, heat exchange and control function be combined in the integral structure, form one can store up, desirable and controlled system.

Comprise in the utility model electricity heat storage and heat supply system:

---heat-storage medium places on the steel plate of ceramic support support; It is the very high heat resisting ferro alloy which stands solid material of thermal capacity, and long-term operation performance is stable, and is nontoxic, pollution-free; Wrap up by the soak material with upper and lower surface all around.Insert heater and heat collector in the heat-storage medium;

---heat collector, perpendicular placing in the heat-storage medium, the upper end passes the top of heat-storage medium, is connected with heat transfer device; The lower end passes the bottom of heat-storage medium, is connected with liquid trap;

---heater, it is an infrared radiation formula heater, horizontal being inserted in the heat-storage medium, the two ends electric wire is connected with power cabinet by terminal plate;

---heat transfer device, form by heat conduction tube bank and bellows.Heat conduction is restrained an end and is connected with heat collector, and the other end is connected with heat exchanger A.Bellows at the intrafascicular part device of heat pipe;

---heat exchanger A, be made up of shell, tube bank and tube sheet.Shell is connected with the hydraulic vacuum pump with heat transfer device, and heat transfer medium flows into shell from heat transfer device, flows into the hydraulic vacuum pump by the adapter on the shell.The tube bank two ends are connected with tube sheet, and interior arrangement the tube core element.Medium in the hot user pipe flows into tube bank from heat exchanger B, flows into hot subscriber's outlet pipeline by the tube bank other end;

---heat exchanger B, be made up of shell, tube bank and tube sheet.Shell is connected with hot user's water return pipeline with heat exchanger A, and the medium in the hot user pipe flows into shell from hot user's water return pipeline, by the adapter inflow heat exchanger A on the shell.The tube bank two ends are connected with tube sheet, and heat transfer medium flows into tube bank from reservoir by internal circulation pump, flow back into reservoir again by the tube bank other end;

---the hydraulic vacuum pump, an end is connected with the shell of heat exchanger A, and the other end is connected with reservoir;

---reservoir, an end is connected with heat exchanger B with the hydraulic vacuum pump, and the other end is connected with heat exchanger B with adjuster through interior water circulating pump;

---interior water circulating pump, an end is connected with reservoir, and the other end is connected with adjuster with heat exchanger B;

---liquid trap, an end is connected with adjuster, and shell is connected with heat collector;

---adjuster, an end is connected with heat exchanger B with reservoir, and the other end is connected with liquid trap; Adjuster is by the control of Based Intelligent Control cabinet, and operational factor is presented on the touch-screen of Based Intelligent Control cabinet.

The utlity model has following advantage:

1. the heat-resisting heat-storage medium heating back of being adopted is nontoxic, pollution-free, and the long term high temperature stable performance is a kind of Green look product of protecting environment.

2. because the thermal capacity of the heat-resisting heat-storage medium that is adopted is very big, so required volume is very little, the thermal efficiency is very high.

3. the heat transfer device structure that is adopted can reduce elevated temperature heat stress widely, thereby prolongs the life-span of equipment and the security that improves equipment, reduces maintenance load.

4. inner loop pipeline is the closed system that a nothing is pressed, and is safe, can be installed in the building or near any part.

5. running is all controlled automatically by the Based Intelligent Control cabinet, and heat supply temperature is regulated efficient and convenient, simple to operate, can accomplish unmanned basically.

Since need be during peak of power consumption store heat, can make the operation of electrical network peak load shifting, reduce operating cost.

The specific embodiment

Characteristics in order to further specify the specific embodiment of the present utility model and to be had are described in detail as follows below in conjunction with embodiment and accompanying drawing:

Description of drawings:

Fig. 1 is a structural principle schematic diagram of the present utility model, and each element is described as follows:

1-heat-storage medium 2-heat collector 3-heater 4-heat transfer device 5-heat exchanger A

6-heat exchanger B 7-hydraulic vacuum pump 8-reservoir 9-bearing 10-internal circulation pump

11-liquid trap 12-adjuster 13-Based Intelligent Control cabinet 14-power cabinet 15-outlet conduit

The hot user 17-of 16-water return pipeline

---------internal system pipeline

--------------hot user's external pipe

-------circuit

The specific embodiment

Comprise in the utility model electricity heat storage and heat supply system:

---heat-storage medium 1 places on the steel plate of ceramic support support; It is the very high heat resisting ferro alloy which stands solid material of thermal capacity, and long-term operation performance is stable, and is nontoxic, pollution-free; Wrap up by the soak material with upper and lower surface all around.Insert heater 3 and heat collector 2 in the heat-storage medium 1;

---heat collector 2, perpendicular placing in the heat-storage medium 1, the upper end passes the top of heat-storage medium 1, is connected with heat transfer device 4; The lower end passes the bottom of heat-storage medium 1, is connected with liquid trap 12;

---heater 3, it is an infrared radiation formula heater, horizontal being inserted in the heat-storage medium 1, the two ends electric wire is connected with power cabinet 14 by terminal plate;

---heat transfer device 4, form by heat conduction tube bank and bellows.Heat conduction is restrained an end and is connected with heat collector 2, and the other end is connected with heat exchanger A5.Bellows at the intrafascicular part device of heat pipe;

---heat exchanger A5, be made up of shell, tube bank and tube sheet.Shell is connected with hydraulic vacuum pump 7 with heat transfer device 4, and heat transfer medium flows into shell from heat transfer device 4, flows into hydraulic vacuum pump 7 by the adapter on the shell.The tube bank two ends are connected with tube sheet, and interior arrangement the tube core element.Medium in the hot user pipe flows into tube bank from heat exchanger B6, flows into hot subscriber's outlet pipeline 15 by the tube bank other end;

---heat exchanger B6, be made up of shell, tube bank and tube sheet.Shell is connected with hot user's water return pipeline 17 with heat exchanger A5, and the medium in the hot user pipe flows into shell from hot user's water return pipeline 17, by the adapter inflow heat exchanger A 5 on the shell.The tube bank two ends are connected with tube sheet, and heat transfer medium flows into tube bank from reservoir 8 by internal circulation pump 10, flow back into reservoir 8 again by the tube bank other end;

---hydraulic vacuum pump 7, one ends are connected with the shell of heat exchanger A5, and the other end is connected with reservoir 8;

---reservoir 8, one ends are connected with heat exchanger B6 with hydraulic vacuum pump 7, and the other end is connected with heat exchanger B6 with adjuster 12 through interior water circulating pump 10;

---interior water circulating pump 10, one ends are connected with reservoir 8, and the other end is connected with adjuster 12 with heat exchanger B6;

---liquid trap 11, one ends are connected with adjuster 12, and shell is connected with heat collector 2;

---adjuster 12, one ends are connected with heat exchanger B 6 with reservoir 8, and the other end is connected with liquid trap 11; Adjuster is by 13 controls of Based Intelligent Control cabinet, and operational factor is presented on the touch-screen of Based Intelligent Control cabinet 13.

Heat collector 2 outer part, heat exchanger A 5, heat exchanger B 6, heat transfer device 7, reservoir 8, liquid trap 18 and each connecting line of stretching in heat-storage medium 1 are all wrapped up by insulation material.

The operation principle of the utility model electricity heat storage and heat supply system is:

By heater 3 heat resisting ferro alloy which stands heat-storage medium 1 is heated to uniform temperature, water circulating pump 10 and adjuster 12 pass through liquid trap 11 and heat collector 2 with the heat transfer medium in reservoir 8 and the pipeline in utilizing, heat is passed to heat exchanger A5 by hot user's 16 needs, uses with medium heat exchange back heat supply user 16 in hot user's external pipe.Water circulating pump 10 in heat transfer medium in the heat exchanger A5 after heat exchange is back to by heat transfer device 4 and reservoir 8, the nothing that forms sealing is pressed inner loop pipeline.Heat exchanger B6 is in order to the required heat transfer medium of fit adjustment device 12 supply heat collector 2.

Claims (1)

1. electric heat storage and heat supply system, it is characterized in that comprising:

---heat-storage medium, place on the steel plate of ceramic support support, it is the very high heat resisting ferro alloy which stands solid material of thermal capacity, long-term operation performance is stable, and is nontoxic, pollution-free; Wrap up by the soak material with upper and lower surface all around, insert heater and heat collector in the heat-storage medium;

---heat collector, perpendicular placing in the heat-storage medium, the upper end passes the top of heat-storage medium, is connected with heat transfer device, and the lower end passes the bottom of heat-storage medium, is connected with liquid trap;

---heater, it is an infrared radiation formula heater, horizontal being inserted in the heat-storage medium, the two ends electric wire is connected with power cabinet by terminal plate;

---heat transfer device, to form by heat conduction tube bank and bellows, heat conduction is restrained an end and is connected with heat collector, and the other end is connected with heat exchanger A, bellows at the intrafascicular part device of heat pipe;

---heat exchanger A, formed by shell, tube bank and tube sheet, shell is connected with the hydraulic vacuum pump with heat transfer device, heat transfer medium flows into shell from heat transfer device, flow into the hydraulic vacuum pump by the adapter on the shell, the tube bank two ends are connected with tube sheet, and interior arrangement the tube core element, medium in the hot user pipe flows into tube bank from heat exchanger B, flows into hot subscriber's outlet pipeline by the tube bank other end;

---heat exchanger B, be made up of shell, tube bank and tube sheet.Shell is connected with hot user's water return pipeline with heat exchanger A, medium in the hot user pipe flows into shell from hot user's water return pipeline, by the adapter inflow heat exchanger A on the shell, the tube bank two ends are connected with tube sheet, heat transfer medium flows into tube bank from reservoir by internal circulation pump, flows back into reservoir again by the tube bank other end;

---the hydraulic vacuum pump, an end is connected with the shell of heat exchanger A, and the other end is connected with reservoir;

---reservoir, an end is connected with heat exchanger B with the hydraulic vacuum pump, and the other end is connected with heat exchanger B with adjuster through interior water circulating pump;

---interior water circulating pump, an end is connected with reservoir, and the other end is connected with adjuster with heat exchanger B;

---liquid trap, an end is connected with adjuster, and shell is connected with heat collector;

---adjuster, an end is connected with heat exchanger B with reservoir, and the other end is connected with liquid trap; Adjuster is by the control of Based Intelligent Control cabinet, and operational factor is presented on the touch-screen of Based Intelligent Control cabinet.

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