CN214891448U - Energy-saving heating system - Google Patents

Abstract

The utility model relates to a heating system technical field just discloses an energy-conserving heating system, including the heating device body, heating device body top surface fixed mounting has heat abstractor, the inside bottom surface of heat abstractor is provided with the heat dissipation pipeline, heat dissipation pipeline surface is provided with the fin, the heat preservation pond has been seted up to heating device body inside, the inside fixed mounting in heat preservation pond has the reflection stratum, heating device body outside is provided with the heat preservation, the exchange import has been seted up to heating device body top surface one end, the exchange export has been seted up to heating device body top surface other end, water inlet fixedly connected with backflow pipeline. This energy-conserving heating system uses the inside hot water that remains of heating device to circulate and keep warm, need not the heat supply company and continuously carries, has reached the beneficial effect that reduces manufacturing cost and reduce energy consumption.

Description

Energy-saving heating system

Technical Field

The utility model relates to a heating system technical field specifically is an energy-conserving heating system.

Background

The northern weather is cold, uses heating system to supply heat more, and this kind of heating supply means effect is high-efficient, nevertheless because of the family inner structure of every family's geographical position is different, but the heating installation heat that provides during the heat supply all far exceeds the required at utmost of each family usually for the inside temperature of many families is inconsistent with the demand, and provides with the biggest demand all the time at the heat supply company's heat supply, has caused a large amount of energy resource consumptions.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

The utility model provides a not enough to prior art, the utility model provides an energy-conserving heating system possesses according to advantages such as indoor temperature is adjusted by oneself and reduction in production cost, has solved and has made the problem that the inside temperature of many families is inconsistent with the demand.

(II) technical scheme

For realize above-mentioned according to indoor temperature regulation by oneself and reduction in production cost purpose, the utility model provides a following technical scheme: the utility model provides an energy-conserving heating system, includes the heating device body, heating device body top surface fixed mounting has heat abstractor, the inside bottom surface of heat abstractor is provided with the heat dissipation pipeline, heat dissipation pipeline surface is provided with the fin, the inside heat preservation pond of having seted up of heating device body, the inside bottom surface of heat preservation pond and fixed mounting all around have the reflection stratum, heating device body outside is provided with the heat preservation, the interchange import has been seted up to heating device body top surface one end, the interchange export has been seted up to the heating device body top surface other end, the water inlet has been seted up to heating device body one side, heating device body opposite side begins to have the delivery port, water inlet fixedly connected with backflow pipeline.

Preferably, the periphery of the top surface of the heating device body is provided with a vacuum groove.

Through above-mentioned technical scheme, reduce the inside hot water temperature of heating device body through the vacuum tank and transmit outside fast, through the hydrothermal heat energy transmission of reflection stratum reflection, through the save that improves the temperature in the heat preservation at utmost.

Preferably, the radiating fins are arranged in a plurality of numbers, a convection inlet is formed in one end of the inner bottom surface of the radiating device, a convection outlet is formed in the other end of the inner bottom surface of the radiating device, one side of the radiating pipeline is fixedly connected with the convection inlet through a pipeline, and the other side of the radiating pipeline is fixedly connected with the convection outlet through a pipeline.

Through above-mentioned technical scheme, improve radiating efficiency and scope through the fin, through being connected of heat dissipation pipeline and convection current import and convection current export, the inside hot water of the heating device body of being convenient for is carried inside the heat dissipation pipeline, then flows back inside the heating device body.

Preferably, the alternating current inlet is fixedly connected with the convection inlet, and the alternating current outlet is fixedly connected with the convection outlet.

Through above-mentioned technical scheme, through the fixed connection who exchanges import and convection current import, make the inside hot water of heating device body balanced transmit inside the heat dissipation pipeline and dispel the heat.

Preferably, one side of the water inlet is fixedly connected with a valve, and the water inlet is fixedly connected with the return pipeline through another connecting port through the valve.

Through the technical scheme, the heating device body can be adjusted according to the indoor temperature through opening and closing of the valve.

Preferably, one side of the water outlet is fixedly connected with a positive tee, and the other connector of the positive tee is fixedly connected with the return pipeline.

Through above-mentioned technical scheme, through the connection of backflow pipeline, when indoor temperature was enough to use, hot water that makes the heat supply company transport through the backflow pipeline backward flow to the heat supply company through closing the valve.

Compared with the prior art, the utility model provides an energy-conserving heating system possesses following beneficial effect:

1. this energy-conserving heating system, through when indoor temperature is enough, the hot water that makes the heat supply company carry through the return line reflux to the heat supply company through closing the valve, uses the inside hot water that remains of heating device to circulate and keeps warm, need not the heat supply company and continuously carries, has reached the beneficial effect that reduces manufacturing cost and reduction energy resource consumption.

2. This energy-conserving heating system, through the use of valve and backflow pipeline, when indoor temperature was enough used, the hot water that makes the heat supply company carry through backflow pipeline backward flow to the heat supply company through closing the valve, has reached the beneficial effect of adjusting by oneself according to indoor temperature.

Drawings

Fig. 1 is a schematic top view of the present invention;

FIG. 2 is a schematic sectional view of the heating apparatus of the present invention;

fig. 3 is a schematic view of the heat supply device of the present invention.

Wherein: 1. a heating device body; 101. a vacuum tank; 2. a heat sink; 201. a convection inlet; 202. a convection outlet; 21. a heat dissipation pipe; 22. a heat sink; 3. a heat preservation pool; 4. a reflective layer; 5. a heat-insulating layer; 6. an alternating current inlet; 61. an alternating current outlet; 7. a water inlet; 71. a water outlet; 711. a valve; 712. a positive tee; 8. and (4) a return pipeline.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-3, an energy-saving heating system comprises a heating device body 1, a heat dissipation device 2 is fixedly mounted on the top surface of the heating device body 1, a heat dissipation pipeline 21 is arranged on the bottom surface inside the heat dissipation device 2, heat dissipation fins 22 are arranged on the surface of the heat dissipation pipeline 21, a heat preservation pool 3 is arranged inside the heating device body 1, a reflection layer 4 is fixedly mounted on the bottom surface inside the heat preservation pool 3 and around the heat preservation pool, a heat preservation layer 5 is arranged outside the heating device body 1, an alternating current inlet 6 is formed in one end of the top surface of the heating device body 1, an alternating current outlet 61 is formed in the other end of the top surface of the heating device body 1, a water inlet 7 is formed in one side of the heating device body 1, a water outlet 71 is formed in the other side of the heating device body 1, and a backflow pipeline 8 is fixedly connected to the water inlet 7.

Specifically, vacuum tank 101 has been seted up all around to 1 top surface of heating device body, and the advantage reduces the inside hot water temperature of heating device body through vacuum tank 101 and transmits out the external world fast, through the hot-water heat energy transmission of reflection stratum 4 reflection, through the save that 5 maximums of heat preservation raise the temperature, improves the heat preservation effect to the inside of heating device body 1, avoids the inside hot water heat dissipation of heating device body too fast, improves energy-conserving effect.

It is specific, fin 22 sets up a plurality ofly, convection inlet 201 has been seted up to the inside bottom surface one end of heat abstractor 2, convection outlet 202 has been seted up to the inside bottom surface other end of heat abstractor 2, heat dissipation pipeline 21 one side is through pipeline and convection inlet 201 fixed connection, heat dissipation pipeline 21 opposite side is through pipeline and convection outlet 202 fixed connection, the advantage is that improve radiating efficiency and scope through fin 22, be connected through heat dissipation pipeline 21 and convection inlet 201 and convection outlet 202, it is inside to be convenient for heat supply device body 1 inside hot water carries heat dissipation pipeline 21, then inside the heat supply device body 1 that flows back, the effect of carrying out the circulation transport to hot water has been reached.

Specifically, exchange import 6 and convection current import 201 fixed connection, exchange export 61 and convection current export 202 fixed connection, the advantage is through exchanging import 6 and convection current import 201 fixed connection, makes the inside hot water of heating device body 1 balanced transmit inside the heat dissipation pipeline 21 dispel the heat, then carry back inside the heating device body 1 through convection current export 202, has reached the effect of carrying out the circulation transport to hot water.

Specifically, water inlet 7 one side fixedly connected with valve 711, water inlet 7 pass through valve 711 and pass through another connector and backflow pipeline 8 fixed connection, and the advantage is through opening and shutting of valve 711, makes heating device body 1 can adjust according to indoor temperature, and when indoor temperature was enough used, hot water that makes the heat supply company carry through backflow pipeline 8 backward flow the heat supply company through closing valve 711, has reduced the waste of the production when carrying always.

Specifically, one side of the water outlet 71 is fixedly connected with a positive tee 712, and the other connector of the positive tee 712 is fixedly connected with the backflow pipeline 8, so that the advantage is that through the connection of the backflow pipeline 8, when the indoor temperature is enough to be used, hot water conveyed by a heat supply company is enabled to flow back to the heat supply company through the backflow pipeline by closing the valve 711, and the energy-saving effect is achieved through redistribution of the heat supply company.

When in use, hot water enters the heating device body 1 through the water inlet 7, the hot water in the heating device body 1 flows into the heat dissipation pipeline 21 through the convection inlet 201 and the alternating current inlet 6, is dissipated through the heat dissipation fins 22, then flows back into the heating device body 1 through the convection outlet 202 and the alternating current outlet 61, finally flows out of the water outlet 71, and flows back through the backflow pipeline 8 when the valve 711 is closed.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. An energy-conserving heating system, includes heating device body (1), its characterized in that: the top surface of the heating device body (1) is fixedly provided with a heat dissipation device (2), the bottom surface inside the heat dissipation device (2) is provided with a heat dissipation pipeline (21), the surface of the heat dissipation pipeline (21) is provided with a heat dissipation fin (22), the heat supply device body (1) is internally provided with a heat preservation pool (3), a reflecting layer (4) is fixedly arranged on the bottom surface and the periphery in the heat-preservation tank (3), the heat preservation layer (5) is arranged outside the heat supply device body (1), an alternating current inlet (6) is arranged at one end of the top surface of the heat supply device body (1), the other end of the top surface of the heating device body (1) is provided with an alternating current outlet (61), a water inlet (7) is formed in one side of the heat supply device body (1), a water outlet (71) is formed in the other side of the heat supply device body (1), and the water inlet (7) is fixedly connected with a backflow pipeline (8).

2. An energy efficient heating system according to claim 1, characterized in that: the periphery of the top surface of the heating device body (1) is provided with a vacuum groove (101).

3. An energy efficient heating system according to claim 1, characterized in that: the heat dissipation fin (22) sets up a plurality ofly, convection inlet (201) have been seted up to the inside bottom surface one end of heat abstractor (2), convection outlet (202) have been seted up to the inside bottom surface other end of heat abstractor (2), pipeline and convection inlet (201) fixed connection are passed through to heat dissipation pipeline (21) one side, heat dissipation pipeline (21) opposite side passes through pipeline and convection outlet (202) fixed connection.

4. An energy efficient heating system according to claim 1, characterized in that: the alternating current inlet (6) is fixedly connected with the convection inlet (201), and the alternating current outlet (61) is fixedly connected with the convection outlet (202).

5. An energy efficient heating system according to claim 1, characterized in that: and a valve (711) is fixedly connected to one side of the water inlet (7), and the water inlet (7) is fixedly connected with the backflow pipeline (8) through another connecting port through the valve (711).

6. An energy efficient heating system according to claim 1, characterized in that: one side of the water outlet (71) is fixedly connected with a positive tee joint (712), and the other connecting port of the positive tee joint (712) is fixedly connected with a return pipeline (8).

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