CN216521936U - Aluminum alloy carbon crystal heater - Google Patents

Abstract

The utility model discloses an aluminum alloy carbon crystal warmer which comprises a radiator shell and a flat-plate-shaped carbon crystal heating plate arranged in the radiator shell, wherein an aluminum alloy heat conducting plate is embedded in the middle of one side of the flat-plate-shaped carbon crystal heating plate, the length of the aluminum alloy heat conducting plate is equal to that of the flat-plate-shaped carbon crystal heating plate, and the width of the aluminum alloy heat conducting plate is 3/1-1/2 of the width of the flat-plate-shaped carbon crystal heating plate. The aluminum alloy carbon crystal warmer provided by the utility model adopts a structure that the flat-plate-shaped carbon crystal heating plate is embedded with the aluminum alloy heat conducting plate, so that the heat conducting efficiency is higher, the heating speed is higher, the indoor temperature can be quickly improved, the use requirements in winter in the north are met, the energy is saved, the heat index of the configured power is obviously reduced, and the electricity cost is saved.

Description

Aluminum alloy carbon crystal heater

Technical Field

The utility model relates to the technical field of heating equipment, in particular to an aluminum alloy carbon crystal heater.

Background

The electric heater is the indispensable heating installation of some indoor occasions at present, and traditional electric heater is not only bulky, and power consumption is big, and the heating effect is not ideal moreover.

The carbon crystal is a non-metal heating material, the base material is carbon fiber, and the carbon crystal is obtained through high-temperature treatment, modification and purification. The carbon crystal heating plate is formed by printing carbon crystals on an insulating high-temperature-resistant mica flat plate by a three-dimensional printing technology. Under the action of electric field force, carbon molecules form 'lattice vibration' and 'Brownian motion', and electric energy is converted into heat energy.

The warmer made of the carbon crystal heating plate is adopted, heat energy conducts heat in a convection radiation mode through the body, air is further heated, indoor space temperature rise is completed, the heat efficiency is high, the service life is long, the operating cost is low, the whole system is free of liquid media, and the warmer is non-toxic, odorless, free of emission and free of frost crack danger. In addition, the carbon crystal warmer is simple to maintain, energy-saving, emission-reducing, safe and environment-friendly, and is widely applied to the fields of schools, factories, office buildings, venues, storehouses and the like at present due to small volume and attractive appearance.

However, in northern severe winter, the temperature in the room when the electric heater is turned on is low, the body feeling is not good, and in order to meet the requirement of a user on indoor rapid heating, the current carbon crystal heater needs to be further improved.

SUMMERY OF THE UTILITY MODEL

Aiming at the technical problems, the utility model provides the aluminum alloy carbon crystal warmer, which has the advantages of improving the heating speed, reducing the configuration power and saving the cost.

In order to achieve the above purpose, the utility model provides the following technical scheme:

the aluminum alloy carbon crystal warmer comprises a radiator shell and a flat planar carbon crystal heating plate arranged in the radiator shell, wherein an aluminum alloy heat conducting plate is embedded in the middle of one side of the flat planar carbon crystal heating plate, the length of the aluminum alloy heat conducting plate is equal to that of the flat planar carbon crystal heating plate, and the width of the aluminum alloy heat conducting plate is 3/1-1/2 of the width of the flat planar carbon crystal heating plate.

Further, the aluminum alloy carbon crystal heater is characterized in that the radiator shell comprises a radiator front plate, a radiator rear plate, a left side cover, a right side cover, a top cover, an upper cross beam and a lower cross beam, the upper cross beam, the left side cover, the lower cross beam and the right side cover are respectively connected end to end through the top cover, two ends of the radiator front plate and two ends of the radiator rear plate are respectively spliced with the left side cover and the right side cover and are located between the upper cross beam and the lower cross beam, an air outlet is formed in the upper cross beam, an air inlet is formed in the lower cross beam, and the air outlet and the air inlet are both in a long strip shape.

Furthermore, in the aluminum alloy carbon crystal warmer, the radiator front plate and the radiator rear plate are made of aluminum alloy materials.

Further, in the aluminum alloy carbon crystal warmer, the right side cover is provided with a power switch.

Furthermore, in the aluminum alloy carbon crystal warmer, the right side cover is provided with a functional panel.

Compared with the prior art, the utility model has the beneficial effects that:

the aluminum alloy carbon crystal warmer provided by the utility model adopts a structure that the flat carbon crystal heating plate is embedded and attached with the aluminum alloy heat conducting plate, has higher heat conducting efficiency and higher heating speed, can quickly improve the indoor temperature, meets the use requirements in winter in the north, saves more energy, obviously reduces the heat index of the configured power, and saves the electricity cost.

Drawings

In order to more clearly illustrate the embodiments of the present application or technical solutions in the prior art, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments described in the present invention, and other drawings can be obtained by those skilled in the art according to the drawings.

Fig. 1 is a front view of an aluminum alloy carbon crystal warmer provided by an embodiment of the present invention.

Fig. 2 is a side view of an aluminum alloy carbon crystal warmer provided by the embodiment of the utility model.

Fig. 3 is a schematic structural diagram of a planar carbon crystal heating panel according to an embodiment of the present invention.

Fig. 4 is a cross-sectional view of a planar carbon crystal heat-generating plate according to an embodiment of the present invention.

Fig. 5 is an electrical schematic diagram provided by an embodiment of the utility model.

Description of reference numerals:

the heat dissipation structure comprises a 1-flat planar carbon crystal heating plate, a 2-aluminum alloy heat conduction plate, a 3-radiator front plate, a 4-functional panel, a 5-left side cover, a 6-right side cover, a 7-top cover, an 8-upper cross beam, a 9-lower cross beam, a 10-power switch, an 11-air outlet and an 12-air inlet.

Detailed Description

In order to make the technical solutions of the present invention better understood by those skilled in the art, the present invention will be further described in detail with reference to the accompanying drawings and examples.

As shown in fig. 1-4, the aluminum alloy carbon crystal warmer provided by the utility model comprises a radiator shell and a flat planar carbon crystal heating plate arranged in the radiator shell, wherein an aluminum alloy heat conduction plate 2 is embedded in the middle of one side of the flat planar carbon crystal heating plate 1 (warped plate), the length of the aluminum alloy heat conduction plate 2 is equal to that of the flat planar carbon crystal heating plate 1, and the width of the aluminum alloy heat conduction plate 2 is 3/1-1/2 of the width of the flat planar carbon crystal heating plate 1. Radiator shell include radiator front bezel 3, radiator back plate, left side lid 5, right side lid 6, top cap 7, entablature 8 and bottom end rail 9, entablature 8, left side lid 5, bottom end rail 9 and right side lid 6 are respectively through 7 end to end connections of top cap, radiator front bezel 3 and radiator back plate's both ends peg graft respectively with left side lid 5 and right side lid 6 and lie in between entablature 8 and the bottom end rail 9, entablature 8 form the layer and have air outlet 11, bottom end rail 9 be formed with air intake 12, air outlet 11 and air intake 12 all are rectangular shape. Specifically, in order to facilitate heat dissipation, the front plate 3 and the rear plate of the heat sink are made of aluminum alloy. And a power switch 10 is arranged on the right side cover 6. The right side cover 6 is provided with a functional panel 4.

The aluminum alloy carbon crystal warmer also comprises a temperature sensor, an indicator light, a programmable computer control panel and other devices, and the electrical schematic diagram of the aluminum alloy carbon crystal warmer is shown in figure 5. The carbon crystal heating plate can be provided with a thermostat for better adjusting the heating process of the carbon crystal heating plate and improving the efficiency. The programmable computer controller and the temperature sensor are connected with a display on the panel to display related data. The programmable computer controller is provided with a transformer, and a safety capacitor is arranged at a proper position on a power line.

The aluminum alloy carbon crystal warmer provided by the utility model adopts a structure that the flat carbon crystal heating plate is embedded and attached with the aluminum alloy heat conducting plate, has higher heat conducting efficiency and higher heating speed, can quickly improve the indoor temperature, meets the use requirements in winter in the north, saves more energy, obviously reduces the heat index of the configured power, and saves the electricity cost.

The above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: it is to be understood that modifications may be made to the technical solutions described in the foregoing embodiments, or equivalents may be substituted for some of the technical features thereof, but such modifications or substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present invention.

Claims (5)

1. The aluminum alloy carbon crystal warmer comprises a radiator shell and a flat planar carbon crystal heating plate arranged in the radiator shell, and is characterized in that an aluminum alloy heat-conducting plate is embedded in the middle of one side of the flat planar carbon crystal heating plate, the length of the aluminum alloy heat-conducting plate is equal to that of the flat planar carbon crystal heating plate, and the width of the aluminum alloy heat-conducting plate is 3/1-1/2 of the width of the flat planar carbon crystal heating plate.

2. The aluminum alloy carbon crystal warmer according to claim 1, wherein the radiator casing comprises a radiator front plate, a radiator rear plate, a left side cover, a right side cover, a top cover, an upper beam and a lower beam, the upper beam, the left side cover, the lower beam and the right side cover are respectively connected end to end through the top cover, two ends of the radiator front plate and the radiator rear plate are respectively spliced with the left side cover and the right side cover and are positioned between the upper beam and the lower beam, the upper beam forms an air outlet, the lower beam forms an air inlet, and the air outlet and the air inlet are both in a strip shape.

3. The aluminum alloy carbon crystal warmer of claim 2, wherein the radiator front plate and the radiator rear plate are made of aluminum alloy.

4. The aluminum alloy carbon crystal warmer of claim 2, wherein the right cover is provided with a power switch.

5. The aluminum alloy carbon crystal warmer of claim 2, wherein the right cover is provided with a functional panel.

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