CN212362174U - Heating control system utilizing graphene for heating - Google Patents

Abstract

The utility model discloses an utilize heating control system of graphite alkene heating, it includes the user side, the heater, the electric cabinet, the inhalant canal of heater, the exhalant canal of heater, the heater includes storage water tank and graphite alkene hot plate, the electric cabinet is connected with graphite alkene hot plate electricity, inhalant canal includes first filter, first ooff valve, a temperature sensor, discharge valve, outlet and circulating pump, the circulating pump is connected with the electric cabinet electricity, exhalant canal is equipped with second temperature sensor and second ooff valve, the circulating pump is super-silent hot water circulating pump, cold water entry intercommunication circulating pump, from cold water entry to be equipped with second filter and third ooff valve between the circulating pump. Compared with the prior art, the system adopts graphene heating to heat the medium in the system, so that the emission of carbon dioxide is effectively reduced, and haze pollution is reduced; meanwhile, the method has the characteristics of low cost, safety, reliability, simple operation and the like.

Description

Heating control system utilizing graphene for heating

Technical Field

The utility model relates to a heating technical field, in particular to utilize heating control system of graphite alkene heating.

Background

Boiler heating is one of the main modes for solving the heating problem in winter in northern areas of China, a large amount of manpower, material resources and financial resources are invested every year to ensure the smooth operation of heating, meanwhile, the mode of boiler heating is also an important factor of atmospheric pollution, along with the continuous improvement of the living standard of people, the heating range is increasingly expanded, the building energy consumption is also greatly improved, and the adoption of a novel energy-saving, efficient and less-pollution heating system is the trend at present.

SUMMERY OF THE UTILITY MODEL

For solving the problem mentioned in the above-mentioned current heating mode, the utility model provides an utilize heating control system of graphite alkene heating.

The technical scheme of the utility model is that: the utility model provides an utilize heating control system of graphite alkene heating, includes the user side, still includes: a heater comprising a graphene heating plate; the electric cabinet is electrically connected with the graphene heating plate; the water inlet channel is communicated with the water inlet of the heater and the water outlet end of a user side, the water inlet channel comprises a first filter, a first switch valve, a first temperature sensor, an exhaust valve, a water outlet and a circulating pump which are sequentially arranged from the user side to the heater, the circulating pump is electrically connected with the electric cabinet, and the circulating pump is also communicated with a cold water inlet; and the water outlet channel is communicated with the water outlet of the heater and the water inlet end of the user side and is provided with a second temperature sensor and a second switch valve.

The heater includes the storage water tank, the graphite alkene hot plate is located the storage water tank outside.

The circulating pump is an ultra-silent hot water circulating pump.

The second temperature sensor is connected with the electric cabinet, and the electric cabinet controls whether the graphene heating plate works or not according to the detected temperature of the second temperature sensor.

And a second filter and a third on-off valve are sequentially arranged between the cold water inlet and the circulating pump.

Further, the first switch valve, the second switch valve and the third switch valve are all ball valves

Compared with the prior art, the utility model has the advantages of: the utility model provides a heating control system using graphene for heating, which adopts graphene for heating a medium in the system, thereby effectively reducing the emission of carbon dioxide and reducing haze pollution; meanwhile, the method has the characteristics of low cost, safety, reliability, simple operation and the like.

Drawings

Fig. 1 is a schematic diagram of a connection structure of a heating control system using graphene heating according to the present invention.

Detailed Description

The principles and structure of the present invention will be described in detail below with reference to the accompanying drawings and examples.

The utility model provides an utilize heating control system of graphite alkene heating, as shown in fig. 1, it includes heater 1 and user side 2.

A water inlet channel 3 and a water outlet channel 4 are connected between the heater 1 and the user end 2, the water inlet channel 3 is communicated with a water inlet of the heater 1 and a water outlet end of the user end 2, a first filter 31, a first switch valve 32, a first temperature sensor 33, an exhaust valve 34, a water outlet 35 and a circulating pump 36 are sequentially arranged on the water inlet channel 3 from the user end 2 to the heater 1, water in the user end 2 is discharged from the water outlet end of the user end, filtered by the first filter 31, and pumped into the heater 1 to be heated under the action of the circulating pump 36.

Further, heater 1 includes storage water tank and graphite alkene hot plate, and the graphite alkene hot plate setting is used for heating the water in the storage water tank in the outside of storage water tank, utilizes graphite alkene hot plate to heat the water receiver, makes hot plate and water keep apart, even long-time work can not appear the phenomenon of the piece surface scale deposit that generates heat yet, and then has guaranteed heating efficiency.

The first temperature sensor 33 is used to detect the temperature of the water flowing out from the user terminal 2, and determine whether the water needs to be heated according to the temperature of the water.

The water outlet channel 4 is communicated with the water outlet of the heater 1 and the water inlet end of the user end 2, water heated by the heater 1 flows into the user end 2 from the water outlet channel 4 for heating, and the water outlet channel 4 is provided with a second temperature sensor 41 and a second switch valve 42 for detecting the temperature of water entering the user end 2.

Further, this heating control system still includes electric cabinet 5, and electric cabinet 5 is connected with graphite alkene hot plate and circulating pump 36 electricity, and electric cabinet 5 still is connected with second temperature sensor 41 simultaneously, and electric cabinet 5 is according to the temperature control graphite alkene hot plate work that detects of second temperature sensor 41.

Further, the circulation pump 36 is also communicated with the cold water inlet 6, and a second filter 61 and a third on-off valve 62 are sequentially provided from the cold water inlet 6 to the circulation pump 36, and the heater 1 is replenished with water by opening the third on-off valve 62.

Furthermore, the first switch valve, the second switch valve and the third switch valve are all ball valves, and switches with small aperture flow are adopted to prevent dry burning.

Furthermore, the circulating pump 36 adopts an ultra-silent hot water circulating pump, the temperature application range is 7-65 ℃, and the heating application requirements can be completely met.

The utility model discloses a theory of operation does: when the system needs to heat water, the electric cabinet 5 controls the heater 1 to heat the water in the water storage tank, the temperature detection device on the water storage tank detects the temperature of the water in the water storage tank, when the temperature of the water reaches a certain temperature, hot water enters the user end 2 through the water outlet channel 4 to start heating after the second switch valve 42 is opened, the hot water flows out of the user end 2 after heating and flows back to the heater 1 through the water inlet channel 3, and when the air pressure in the whole system is too high, the pressure is reduced by opening the exhaust valve 34; when the water in the system is insufficient, the third switch valve 62 is opened, the cold water inlet 6 replenishes water for the heater 1, and when the water in the system needs to be changed, the water is discharged from the water outlet 35 through the switch valve; the electric cabinet 5 communicates second temperature sensor 41, and second temperature sensor 41 detects the temperature that flows into in user terminal 2 in real time and feeds back to electric cabinet 5, and whether electric cabinet 5 comes control heater 2 work, and electric cabinet 5 connects circulating pump 36 with the normal circulation of water in the control entire system.

At present with serious pollution, the utility model can utilize the graphene for heating, thus effectively reducing the emission of carbon dioxide and reducing the haze pollution; meanwhile, the utility model has extremely low installation and use cost, does not need to lay complex pipelines for central heating, and can be independently used according to different conditions; meanwhile, the method has the characteristics of simple operation, safety, reliability and the like.

The above embodiments are only for illustrating the concept of the present invention, and those skilled in the art can make various modifications and changes under the concept of the present invention, and these modifications and changes are included in the protection scope of the present invention.

Claims (6)

1. The utility model provides an utilize heating control system of graphite alkene heating, includes the user side, its characterized in that still includes: a heater comprising a graphene heating plate; the electric cabinet is electrically connected with the graphene heating plate; the water inlet channel is communicated with the water inlet of the heater and the water outlet end of a user side, the water inlet channel comprises a first filter, a first switch valve, a first temperature sensor, an exhaust valve, a water outlet and a circulating pump which are sequentially arranged from the user side to the heater, the circulating pump is electrically connected with the electric cabinet, and the circulating pump is also communicated with a cold water inlet; and the water outlet channel is communicated with the water outlet of the heater and the water inlet end of the user side and is provided with a second temperature sensor and a second switch valve.

2. The heating control system using graphene for heating according to claim 1, wherein the heater includes a water storage tank, and the graphene heating plate is disposed outside the water storage tank.

3. The heating control system using graphene heating according to claim 1, wherein the circulation pump is an ultra-silent hot water circulation pump.

4. A heating control system using graphene heating according to claim 1, wherein the second temperature sensor is connected to the electric cabinet, and the electric cabinet controls whether the graphene heating plate operates according to the temperature detected by the second temperature sensor.

5. The heating control system using graphene heating according to claim 1, wherein a second filter and a third on/off valve are provided in this order from the cold water inlet to the circulation pump.

6. The heating control system using graphene heating according to claim 5, wherein the first, second, and third on-off valves are ball valves.

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