CN114877400A - Directly-heated graphene energy-saving heating stove - Google Patents

Abstract

The invention discloses a directly-heated graphene energy-saving heating stove which comprises a stove body, wherein the inner side of the stove body comprises a graphene heating tube, a control circuit board and a control board, the control circuit board is electrically connected with the control board, the control board is electrically connected with the graphene heating tube, one end of the graphene heating tube is provided with a water inlet, the other end of the graphene heating tube is provided with a water outlet, and a graphene heating wire is arranged on the inner side of the graphene heating tube.

Description

Directly-heated graphene energy-saving heating stove

Technical Field

The invention relates to the field of electric appliances, in particular to a directly-heated graphene energy-saving heating stove.

Background

In the existing heating mode, a user needs to pay fixed heating expense to a heating unit every year, even if the heating expense is paid, the heating dispute that the heating standard cannot be met due to the reasons of heating quality, ageing of heating equipment, house heat preservation conditions and the like exists, the heating is difficult to avoid, the user cannot operate the heating according to the requirement, so that the waste of heating resources and heating expense is caused, the indoor temperature is low in the half month before and after the heating is started and finished, the user is difficult to boil, other devices such as a small sun, an oil heater, a PTC electric appliance and the like have potential safety hazards in power consumption, an air conditioner, an electric heating picture and the like, the problems of high use cost and poor heating effect cannot be solved, a high-power electric heating device cannot be used by the user due to high electric charge, the national electric network cannot be used even in a centralized heating period, the national electric network pressure is high, and the heating cost of coal gas change is not cheap, except the worry of 'gas shortage', the potential explosion hazard exists. Northern real estate enterprises need to pay heat supply pipeline construction cost and independently build a heat exchange station. Not only the development cost is increased, but also the house property development can not be carried out at all if the heat supply planning range is not reached. Which is a major drawback of the conventional art.

Disclosure of Invention

The invention solves the problems that: inconvenient heat supply and high heat supply cost.

In order to achieve the purpose, the invention provides a directly-heated graphene energy-saving heating stove which comprises a stove body, wherein the inner side of the stove body comprises a graphene heating tube, a control circuit board and a control board, the control circuit board is electrically connected with the control board, the control board is electrically connected with the graphene heating tube, one end of the graphene heating tube is provided with a water inlet, the other end of the graphene heating tube is provided with a water outlet, and a graphene heating wire is arranged on the inner side of the graphene heating tube.

Furthermore, the control circuit board comprises a display screen and a control key, the control key can control the work of the control circuit board when pressed, and the display screen and the control key are arranged on the surface of the furnace body.

Further, the water outlet is connected with a water separator through a pipeline, the water separator is connected with a water collector through a pipeline, and the other end of the water collector is connected with the water inlet of the graphene heating tube.

Furthermore, the water outlet is connected with the heating radiator through a pipeline.

Further, the water outlets are connected through a pipeline bathroom device.

Further, the water inlet and the water outlet of the graphene heating tube are arranged at the side end of the furnace body.

Further, the water inlet and the water outlet of the graphene heating tube are arranged at the bottom end of the furnace body.

The invention has the technical effects and advantages that: the graphene heating pipe is high in heating speed and low in cost due to the adoption of efficient heating materials, indoor temperature can be quickly increased through pipeline connection transmission, and domestic hot water can be provided for use through connection of the pipeline and a bathroom device.

Drawings

Fig. 1 is a schematic view of the internal structure of the present invention.

Fig. 2 is a schematic cross-sectional structure view of the graphene heating tube of the present invention.

FIG. 3 is a schematic view showing the connection of the furnace body with the water separator and the water collector.

FIG. 4 is a schematic view of the connection between the furnace body and the radiator and the sanitary device of the present invention.

FIG. 5 is a schematic view showing a vertical state of the furnace body according to the present invention.

Fig. 6 is a schematic view of the wall hanging state of the furnace body according to the present invention.

Fig. 7 is a circuit diagram of the present invention.

Detailed Description

As shown in fig. 1 to 7, an energy-conserving heating stove of directly-heated graphite alkene, includes furnace body 10, furnace body 10 can set up to vertical structure, makes furnace body 10 and ground contact, furnace body 10 can also set up to hanging structure, is connected through bolt and wall body surface, makes furnace body 10 hangs in the wall body surface.

The inner side of the furnace body 10 comprises a graphene heating tube 20, a control circuit board 30 and a control board 40, the control circuit board 30 is electrically connected with the control board 40, and the control board 40 is electrically connected with the graphene heating tube 20.

Graphene heating tube 20 one end is equipped with water inlet 21, graphene heating tube 20 other end is equipped with delivery port 22, graphene heating tube 20 inboard is equipped with graphite alkene heater 23, and during the use, normal atmospheric temperature water is followed water inlet 21 gets into graphite alkene heating tube 20 is inboard, through graphite alkene heater 23 heats normal atmospheric temperature water, follows again delivery port 22 is exported.

The graphene material has a great deal of excellent performances such as high strength, high modulus, high electric conductivity, high heat conductivity, high safety, fatigue resistance, creep resistance and light volume, so that the graphene heating tube 20 has high heating efficiency on normal-temperature water, meets the national energy-saving requirement, has high heating speed, can be heated when being opened, and has a good heating effect.

The water outlet 22 and the water inlet 21 of the graphene heating tube 20 are both arranged on the outer side of the furnace body 10 and are connected with a conveying pipeline during use.

Control circuit board 30 includes display screen 31 and control button 32, presses control button 32 can control the work of control circuit 30 board, display screen 31 and control button 32 locates the surface of furnace body 10, display screen 31 can show the operating condition of heating stove, including showing hydrothermal output, the hydrologic cycle condition, the temperature of intaking, leaving water temperature, temperature gear, discharge and the timing time of setting.

The control panel 40 is connected with an external power supply, and when the device is used, the control panel 40 receives electric energy and transmits the electric energy to the graphene heating tube 20 and the control circuit board 30, so that the graphene heating tube can work normally.

When specifically implementing, when the heating stove sets up to vertical state, graphite alkene heating tube 20 water inlet 21 and delivery port 22 locates the side of furnace body 10, when the heating stove sets up to wall-hanging state, graphite alkene heating tube 20 water inlet 21 and delivery port 22 locates the bottom of furnace body 10.

Delivery port 22 passes through the pipeline and is connected with water knockout drum 11, water knockout drum 11 passes through the pipeline and is connected with water collector 12, the water collector 12 other end with graphite alkene heating tube 20 water inlet 21 is connected, and high temperature water passes through in each pipeline of water knockout drum 11 reposition of redundant personnel room, high temperature water after graphite alkene heating tube 20 heats transmits the pipeline in, and high temperature water transfer heat gives the room floor, makes indoor temperature can improve rapidly, becomes relative microthermal water, follows water collector 12 flows back graphene heating tube 10 inner loop heating output.

The water outlet 22 is connected with the heating radiator 14 through a pipeline, the heating radiator 14 is arranged indoors, high-temperature water heated by the graphene heating tube 20 is transmitted into the heating radiator 14, so that the indoor temperature of the heating radiator can be increased, and the high-temperature water becomes water with a higher temperature and flows back to the graphene heating tube 20 again.

The water outlet 22 can also be connected through the pipeline sanitary device 15, and the high-temperature water heated by the graphene heating tube 20 can be directly used as domestic hot water.

In summary, according to the directly-heated graphene energy-saving heating stove of the present invention, the graphene heating tube 20 is made of a high-efficiency heating material, has a high heating speed and a low cost, can quickly raise the indoor temperature through pipeline connection and transmission, and can provide hot water for life through pipeline connection with a bathroom device.

Claims (7)

1. The utility model provides a directly-heated type graphite alkene energy-conserving heating stove which characterized in that: including furnace body (10), furnace body (10) inboard includes graphite alkene heating tube (20), control circuit board (30) and control panel (40), control circuit board (30) with control panel (40) electricity is connected, control panel (40) with graphite alkene heating tube electricity (20) are connected, graphite alkene heating tube (20) one end is equipped with water inlet (21), graphite alkene heating tube (20) other end is equipped with delivery port (22), graphite alkene heating tube (20) inboard is equipped with graphite alkene heater (23), and during the use, normal atmospheric temperature water is followed water inlet (21) get into graphite alkene heating tube (20) are inboard, through graphite alkene heater (23) heat normal atmospheric temperature water, follow again delivery port (22) are exported.

2. The energy-conserving heating stove of directly-heated graphite alkene of claim 1, characterized in that: the control circuit board (30) comprises a display screen (31) and a control key (32), the control key (32) can be pressed to control the work of the control circuit board (30), and the display screen (31) and the control key (32) are arranged on the surface of the furnace body (10).

3. The energy-conserving heating stove of directly-heated graphite alkene of claim 1, characterized in that: the water outlet (22) is connected with the water distributor (11) through a pipeline, the water distributor (11) is connected with the water collector (12) through a pipeline, and the other end of the water collector (12) is connected with the water inlet (21) of the graphene heating pipe (20).

4. The energy-conserving heating stove of directly-heated graphite alkene of claim 1, characterized in that: the water outlet (22) is connected with the radiator (14) through a pipeline.

5. The energy-conserving heating stove of directly-heated graphite alkene of claim 1, characterized in that: the water outlets (22) are connected through a pipeline bathroom device (15).

6. The energy-conserving heating stove of directly-heated graphite alkene of claim 1, characterized in that: the water inlet (21) and the water outlet (22) of the graphene heating tube (20) are arranged at the side end of the furnace body (10).

7. The energy-conserving heating stove of directly-heated graphite alkene of claim 1, characterized in that: the water inlet (21) and the water outlet (22) of the graphene heating tube (20) are arranged at the bottom end of the furnace body (10).

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