CN204648665U - With the high-tension electricity storing energy and supplying hot wind system of gas gas plate type heat exchanger - Google Patents

Abstract

The utility model discloses a kind of high-tension electricity storing energy and supplying hot wind system with gas gas plate type heat exchanger, with in the heat storage shell of heat-insulation layer, at least one deck heat storage is installed, ventilating duct in being formed between adjacent heat storage, the calandria contacted with heat storage is provided with in interior ventilating duct, form the cavity be communicated with circulating line between heat-insulation layer with heat storage, in circulating line, be provided with blower fan, gas gas plate type heat exchanger.Feature of the present utility model is: structure is ingenious, reasonable, with low cost, pollution-free, utilize electric energy during low power consumption to carry out heating, accumulation of heat, and when peak of power consumption by this part thermal release out, can directly by the high temperature air supply heat supply terminal merely through 2 heat exchange, exempt the problems such as the heat loss that repeatedly heat exchange produces is large, the thermal efficiency is low, also can need according to heat supply terminal the adjustment carrying out hot air temperature, and in heat storage air not with the air generation gas exchanges in outer circulation pipeline, only there is heat exchange, avoid the generation of security incident.

Description

With the high-tension electricity storing energy and supplying hot wind system of gas gas plate type heat exchanger

Technical field

The utility model relates to a kind of heating system, is specifically related to a kind of high-tension electricity storing energy and supplying hot wind system with gas gas plate type heat exchanger.

Background technology

In central heating system, heating equipment is absolutely necessary, and generally uses now heating equipment generally to have boiler, electric heater unit etc., boiler generally adopts burning coal to heat medium, and to reach the object of central heating, but this mode not only not environmentally, needs to discharge a large amount of waste gas, also there is certain potential safety hazard simultaneously, and utilize electric energy to come the direct-fired electric heater unit of medium, there are some problems equally: as power consumption is large, cost is high, especially in the area of some electric power resource deficiencies, or in the peak period of electricity consumption, even there will be the situation that electric power is unable to supply, in order to solve the problem, there is a kind of heating system utilizing accumulation of energy/heat-storing material now, it can utilize heating tube to be heat energy by relatively inexpensive electric energy conversion when low power consumption, and by this part thermal energy storage in heat-storing material, by the time again this part Btu utilization heat exchanger is outputted to the terminal needing to use hot blast during peak of power consumption, although this heating system has saving cost, the advantage such as pollution-free, but still there is following problem: the caloric requirement of generation is carried out heat exchange by heat exchange coil and could be exported, and user often directly cannot utilize liquid heat transferring medium, and to obtain high temperature air on the heat exchange coil needing again to utilize cold wind to be blown into high temperature, the mode of this multi-stage heat exchanger, significantly reduce the service efficiency of heat, cause the waste of resource.

Utility model content

The purpose of this utility model is to overcome above-mentioned not enough problem, provides a kind of high-tension electricity storing energy and supplying hot wind system with gas gas plate type heat exchanger.

The technical scheme that the utility model is adopted for achieving the above object is: the high-tension electricity storing energy and supplying hot wind system of band gas gas plate type heat exchanger, with in the heat storage shell of heat-insulation layer, at least one deck heat storage is installed, ventilating duct in being formed between adjacent heat storage, the calandria contacted with heat storage is provided with in interior ventilating duct, form the cavity be communicated with circulating line between heat-insulation layer with heat storage, in circulating line, be provided with blower fan, gas gas plate type heat exchanger.

Described circulating line is arranged in base.

Described gas gas plate type heat exchanger is made up of gas gas plate type heat exchanger core body, gas gas plate type heat exchanger core body intersects to misplace to be placed, form gas gas plate type heat exchanger Inner eycle entrance, gas gas plate type heat exchanger Inner eycle exports, gas gas plate type heat exchanger outer circulation entrance, the outer circulation of gas gas plate type heat exchanger exports, described circulating line comprises the internal recycle pipeline by gas gas plate type heat exchanger Inner eycle entrance and the export mixes of gas gas plate type heat exchanger Inner eycle, and by the outer circulation pipeline of gas gas plate type heat exchanger outer circulation entrance and gas gas plate type heat exchanger outer circulation export mixes, described gas gas plate type heat exchanger Inner eycle entrance and gas gas plate type heat exchanger Inner eycle export and cavity connects.

The gas gas plate type heat exchanger core body that the outer circulation of gas gas plate type heat exchanger Inner eycle entrance gentle gas plate type heat exchanger exports two places intersects to misplace to place.

Gas gas plate type heat exchanger outer circulation porch is provided with new wind screen pack.

Described outer circulation pipeline is provided with temperature sensor.

Described heat-insulation layer with formed between heat storage and the cavity A of gas gas plate type heat exchanger Inner eycle outlet and the cavity B that is communicated with gas gas plate type heat exchanger Inner eycle entrance.

Described cavity B top is provided with temperature sensor.

Described gas gas plate type heat exchanger Inner eycle exit is provided with spiral case, and described assembling is in spiral case.

Described spiral case is provided with protection network.

Described calandria is connected with high-tension electricity cable interface.

Be connected by brace between described calandria, and be connected with high-tension electricity cable interface by brace.

Between described brace and high-tension electricity cable interface, insulator is installed.

Described heat storage outer setting has insulating barrier.

Described insulating barrier is insulated heat material or high tension shackle insulator.

Described heat-insulation layer is arranged between heat storage shell and unit casing.

Described unit casing is provided with overtemperature temperature limiter.

Described heat storage top is provided with temperature sensor.

Feature of the present utility model is: structure is ingenious, rationally, with low cost, pollution-free, electric energy when can make full use of low power consumption heats, accumulation of heat, and when peak of power consumption by this part thermal release out, and can directly by the high temperature air supply heat supply terminal merely through 2 heat exchange, eliminate the heat loss that repeatedly heat exchange produces large, the problems such as the thermal efficiency is low, simultaneously it can also need according to heat supply terminal the adjustment carrying out hot air temperature, and air in heat storage not with the air generation gas exchanges in outer circulation pipeline, only there is heat exchange, avoid the generation of security incident.

Accompanying drawing explanation

Fig. 1 is the structural representation that the utility model adopts insulated heat material.

Fig. 2 is the right sectional view of Fig. 1.

Fig. 3 is the left sectional view of Fig. 1.

Fig. 4 is gas gas plate type heat exchanger structure chart of the present utility model.

Fig. 5 is the side view of Fig. 4.

Fig. 6 is that the utility model adopts high tension shackle insulator structural representation.

Wherein: 1, outdoor temperature sensor 2, switch board 3, base 4, gas gas plate type heat exchanger 5, gas gas plate type heat exchanger core body 6, gas gas plate type heat exchanger Inner eycle entrance 7, gas gas plate type heat exchanger Inner eycle outlet 8, interior internal recycle pipeline 9, new wind screen pack 10, gas gas plate type heat exchanger outer circulation entrance 11, gas gas plate type heat exchanger outer circulation outlet 12, inner-outer circulation pipeline 13, leaving air temp sensor 14, spiral case 15, blower fan 16, blower motor 17, insulated heat material 18, heat storage 19, heat storage shell 20, interior ventilating duct 21, calandria 22, brace 23, insulator 24, cable interface 25, heat-insulation layer 26, unit casing 27, protection network 28, cavity A 29, access door 30, heat storage kernel temperature sensor 31, cavity B 32, hot blast temperature sensor 33 in cavity, heat storage kernel overtemperature temperature limiter 34, high tension shackle insulator.

Detailed description of the invention

As shown in figures 1 to 6, the utility model is the high-tension electricity storing energy and supplying hot wind system of band gas gas plate type heat exchanger, it is controlled by the control system in switch board 2, switch board 2 is provided with outdoor temperature sensor 1, at least one deck heat storage 18 is installed in heat storage shell 19, and can by heat storage 18 point three pile according to electric pressure, heat storage 18 adopts insulation, insulation, fire-resistant thermal capacitance material, ventilating duct 20 in being formed between adjacent two layers heat storage 18, the calandria 21 contacted with heat storage 18 is provided with in interior ventilating duct 20, interior ventilating duct 20 can be placed by the groove correspondence that adjacent two layers heat storage 18 is offered and be formed, but the generation type of interior ventilating duct 20 is not limited to this, calandria can adopt heating tube, heater strip, heating tape etc., calandria 21 is connected with high-tension electricity cable interface 24, this calandria 21 can heat with any number high-tension electricity between 1kV-66kV, two ends of all calandrias 21 carry out connection in series-parallel connection by refractory metal brace 22, it can adopt star connection or delta connection, brace 22 is connected with insulator 23, external high pressure electric connection with insulator by cable interface 24 is energized, heat storage shell 19 is made up of three faces, only cover heat storage 18 3 faces (two sides at heat storage end face and disconnected place), the surrounding of heat storage shell 19 is provided with heat-insulation layer 25(heat-insulation layer 25 be made up of five faces of non-bottom surface), heat-insulation layer 25 outside is made up of unit casing 26, the cavity A28 be communicated with circulating line is formed between heat-insulation layer 25 with heat storage 18, cavity B31, circulating line is positioned at base 3, base 3 adopts steel section, gas gas plate type heat exchanger 4 is provided with in base 3, described gas gas plate type heat exchanger 4 is made up of gas gas plate type heat exchanger core body 5, form gas gas plate type heat exchanger Inner eycle entrance 6, gas gas plate type heat exchanger Inner eycle outlet 7, gas gas plate type heat exchanger outer circulation entrance 10, gas gas plate type heat exchanger outer circulation outlet 11, described circulating line comprises and exports 7 internal recycle pipelines formed 8 by gas gas plate type heat exchanger Inner eycle entrance 6 and gas gas plate type heat exchanger Inner eycle, and export the 11 outer circulation pipelines 12 formed by gas gas plate type heat exchanger outer circulation entrance 10 and the outer circulation of gas gas plate type heat exchanger, described gas gas plate type heat exchanger outer circulation porch 10 is provided with new wind screen pack 9, outside circulating line 12 is arranged the leaving air temp sensor 13 be connected with temperature control system, described gas gas plate type heat exchanger Inner eycle entrance 6 is communicated with cavity B31, described gas gas plate type heat exchanger Inner eycle outlet 7 is communicated with cavity A28, described gas gas plate type heat exchanger Inner eycle exports 7 places and is provided with spiral case 14, described blower fan 15 is arranged in spiral case 14, described blower fan 15 adopts frequency conversion fan, described blower fan 15 is driven by blower motor 16, the protection network 27 preventing foreign material from entering spiral case 14 is provided with above described spiral case 14, access door 29 is had in the outer setting of protection network 27 upper cavity A28, people can be made to enter components and parts such as maintenance calandria 21 grade in cavity A28, the gas gas plate type heat exchanger core body 5 at the gentle gas plate type heat exchanger outer circulation outlet of gas gas plate type heat exchanger Inner eycle entrance 6 11 2 places is dislocation relations of intersecting, can reach from gas gas plate type heat exchanger Inner eycle entrance 6 flow to gas gas plate type heat exchanger Inner eycle outlet 7 high-temperature hot-air can not flow to from gas gas plate type heat exchanger outer circulation entrance 10 the hot blast generation gas exchanges that the outer circulation of gas gas plate type heat exchanger exports 11, and this gas gas plate type heat exchanger core body 5 adopts resistant to elevated temperatures excellent material, cavity B31 top is provided with hot blast temperature sensor 32 in cavity, heat storage 18 top is provided with heat storage kernel temperature sensor 30, and the numerical value of hot blast temperature sensor 32 in heat storage kernel temperature sensor 30 and cavity is read by the heat storage kernel overtemperature temperature limiter 33 of unit casing 26 outside, often pile up heat storage 18 outer setting and have insulating barrier, play more reliable insulating effect between phase and phase and between phase and ground, namely insulating barrier is set between base 3 and heat storage 18, between heat storage shell 19 and heat storage 18, insulating barrier is set, between three pile heat storages 18, insulating barrier is set, three pile heat storage 18 safe distances calculate according to electric pressure, insulating barrier adopts insulated heat material 17 or high tension shackle insulator 34, insulated heat material 17 can be insulated heat brick or cement etc.

The course of work of the high-tension electricity storing energy and supplying hot wind system of band gas gas plate type heat exchanger of the present utility model is as follows: in the low power consumption phase, calandria 21 is started by control system, the heat storage that calandria 21 produces is in heat storage 18, the crown center position of heat storage 18 is provided with the heat storage kernel temperature sensor 30 be connected with temperature control system can pass to temperature control system the real time temperature of heat storage 18, heating is stopped after reaching design temperature, when needs are to heat supply terminal supply Tempeerature-constant air, the outside air temperature that control system in switch board 2 can detect according to outdoor temperature sensor 1 is as environmental variance parameter, start blower fan 15, make the air circulation flow in internal recycle pipeline 8, now a large amount of cold airs to enter in differing heights among ventilating duct 20 through cavity A28, and here contact fully and heat exchange with heat storage 18, cold air absorbs heat and becomes high temperature air in heat storage 18, and by the temperature of hot blast temperature sensor 32 Real-Time Monitoring high temperature air in the cavity being arranged on cavity B31 top, high temperature air enters gas gas plate type heat exchanger Inner eycle entrance 6 through cavity 31, 7 discharge currents are exported to blower fan 15 from gas gas plate type heat exchanger Inner eycle after gas gas plate type heat exchanger 4, circulate successively, while hot blast enters gas gas plate type heat exchanger 4, normal temperature air enters gas gas plate type heat exchanger outer circulation entrance 10 through new wind screen pack 9, heat exchange is carried out with hot blast in gas gas plate type heat exchanger 4, discharge from gas gas plate type heat exchanger outer circulation outlet 11 and become the temperature required hot blast of heat supply terminal, and the temperature sensor 13 being arranged on outer circulation pipeline 12 place detects the temperature of discharging hot blast at any time, and testing result is sent in temperature control system, if temperature control system finds to need the temperature to discharging hot blast to regulate, then adjusted by the frequency of blower fan 15.

The above; be only the utility model preferably detailed description of the invention; but protection domain of the present utility model is not limited thereto; anyly be familiar with those skilled in the art in the technical scope that the utility model discloses; be equal to according to the technical solution of the utility model and inventive concept thereof and replace or change, all should be encompassed within protection domain of the present utility model.

Claims (18)

1. be with the high-tension electricity storing energy and supplying hot wind system of gas gas plate type heat exchanger, it is characterized in that: with in the heat storage shell (19) of heat-insulation layer (25), at least one deck heat storage (18) is installed, ventilating duct (20) in being formed between adjacent heat storage (18), the calandria (21) contacted with heat storage (18) is provided with in interior ventilating duct (20), form the cavity be communicated with circulating line between heat-insulation layer (25) with heat storage (18), in circulating line, be provided with blower fan (15), gas gas plate type heat exchanger (4).

2. the high-tension electricity storing energy and supplying hot wind system of band gas gas plate type heat exchanger as claimed in claim 1, is characterized in that: described circulating line is arranged in base (3).

3. the high-tension electricity storing energy and supplying hot wind system of band gas gas plate type heat exchanger as claimed in claim 1, it is characterized in that: described gas gas plate type heat exchanger (4) is made up of gas gas plate type heat exchanger core body (5), form gas gas plate type heat exchanger Inner eycle entrance (6), gas gas plate type heat exchanger Inner eycle outlet (7), gas gas plate type heat exchanger outer circulation entrance (10), gas gas plate type heat exchanger outer circulation outlet (11), described circulating line comprise export by gas gas plate type heat exchanger Inner eycle entrance (6) and gas gas plate type heat exchanger Inner eycle the internal recycle pipeline 8 that (7) formed), and by gas gas plate type heat exchanger outer circulation entrance 10) export with the outer circulation of gas gas plate type heat exchanger the outer circulation pipeline (12) that (11) formed, described gas gas plate type heat exchanger Inner eycle entrance (6) and the outlet of gas gas plate type heat exchanger Inner eycle (7) and cavity connects.

4. the high-tension electricity storing energy and supplying hot wind system of band gas gas plate type heat exchanger as claimed in claim 3, is characterized in that: gas gas plate type heat exchanger core body (5) at gas gas plate type heat exchanger Inner eycle entrance (6) gentle gas plate type heat exchanger outer circulation outlet (11) two places intersects to misplace to place.

5. the high-tension electricity storing energy and supplying hot wind system of band gas gas plate type heat exchanger as claimed in claim 3, is characterized in that: gas gas plate type heat exchanger outer circulation entrance (10) place is provided with new wind screen pack (9).

6. the high-tension electricity storing energy and supplying hot wind system of band gas gas plate type heat exchanger as claimed in claim 3, is characterized in that: described outer circulation pipeline (12) is provided with temperature sensor.

7. the high-tension electricity storing energy and supplying hot wind system of band gas gas plate type heat exchanger as claimed in claim 3, is characterized in that: form the cavity A(28 exporting (7) with gas gas plate type heat exchanger Inner eycle and be communicated with between described heat-insulation layer (25) with heat storage (18)) and the cavity B(31 that is communicated with gas gas plate type heat exchanger Inner eycle entrance (6)).

8. the high-tension electricity storing energy and supplying hot wind system of band gas gas plate type heat exchanger as claimed in claim 7, is characterized in that: described cavity B(31) top is provided with temperature sensor.

9. the high-tension electricity storing energy and supplying hot wind system of band gas gas plate type heat exchanger as claimed in claim 3, is characterized in that: described gas gas plate type heat exchanger Inner eycle outlet (7) place is provided with spiral case (14), and described blower fan (15) is arranged in spiral case (14).

10. the high-tension electricity storing energy and supplying hot wind system of band gas gas plate type heat exchanger as claimed in claim 9, is characterized in that: described spiral case (14) is provided with protection network (27).

The high-tension electricity storing energy and supplying hot wind system of 11. band gas gas plate type heat exchangers as claimed in claim 1, is characterized in that: described calandria (21) is connected with high-tension electricity cable interface (24).

The high-tension electricity storing energy and supplying hot wind system of 12. band gas gas plate type heat exchangers as claimed in claim 11, be is characterized in that: be connected by brace (22) between described calandria (21), and is connected with high-tension electricity cable interface (24) by brace (22).

The high-tension electricity storing energy and supplying hot wind system of 13. band gas gas plate type heat exchangers as claimed in claim 12, is characterized in that: install insulator (23) between described brace (22) and high-tension electricity cable interface (24).

The high-tension electricity storing energy and supplying hot wind system of 14. band gas gas plate type heat exchangers as claimed in claim 1, is characterized in that: described heat storage (18) outer setting has insulating barrier.

The high-tension electricity storing energy and supplying hot wind system of 15. band gas gas plate type heat exchangers as claimed in claim 14, is characterized in that: described insulating barrier is insulated heat material (17) or high tension shackle insulator (34).

The high-tension electricity storing energy and supplying hot wind system of 16. band gas gas plate type heat exchangers as claimed in claim 1, is characterized in that: described heat-insulation layer (25) is arranged between heat storage shell (19) and unit casing (26).

The high-tension electricity storing energy and supplying hot wind system of 17. band gas gas plate type heat exchangers as claimed in claim 16, is characterized in that: (26) are provided with overtemperature temperature limiter to described unit casing.

The high-tension electricity storing energy and supplying hot wind system of 18. band gas gas plate type heat exchangers as claimed in claim 1, is characterized in that: described heat storage (18) top is provided with temperature sensor.