CN209782799U - Carbon fiber electric heater - Google Patents

Abstract

The utility model discloses a carbon fiber electric heater, which comprises a metal shell, wherein a carbon fiber heating wire and a temperature controller are arranged in the metal shell; the bottom of metal casing is provided with the moving mechanism who is used for subaerial removal through being used for driving the whole elevating system that goes up and down in order to reach high-efficient heat supply of electric heater to connect, and metal casing's top intercommunication is provided with and is used for carrying the air supply mechanism of treating the heating gas in to metal casing, and a plurality of strip louvres that are used for having thermal gas to spill after the carbon fiber heating wire heating are seted up to metal casing's top. The utility model can promote the whole position of the electric heater to rise through the lifting mechanism, thereby raising the height position of the strip-shaped heat dissipation holes and increasing the heat exchange efficiency of the utility model; the air supply mechanism pumps the gas to be heated and discharges the heated gas through the strip-shaped heat dissipation holes to cooperate with operation, so that heat exchange of indoor gas can be realized very quickly, and the heat exchange efficiency is greatly improved.

Description

Carbon fiber electric heater

Technical Field

The utility model relates to a heating equipment technical field, especially a carbon fiber electric heater.

Background

The existing winter heating mainly takes water heating as a main part, generally is centralized heating, the required hot water amount is very large, a large amount of coal is combusted, the line of the centralized heating is very long, the heat loss is also very serious, sometimes, the heating line can be damaged, a large amount of water resources are wasted, and the social theme of energy conservation and environmental protection advocated at present is not met. Therefore, the electric heater is used as a heating mode without environmental pollution, and can be widely applied to various civil and public buildings such as houses, offices, hotels, markets, hospitals, schools, train carriages and the like for mobile heating, simple movable houses and the like.

The carbon fiber electric heater in the current life only carries out the heat transfer through metal casing and louvre when carrying out the heat transfer, relies on slow convection current to go on during the heat transfer, and heat exchange efficiency is low. And the carbon fiber electric heater is arranged at a lower position, the heat dissipation holes are arranged at a lower position, and the height position of the carbon fiber electric heater can not be adjusted, so that the heating effect is influenced.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that needs to solve provides a carbon fiber electric heater to the height position of solving current carbon fiber electric heater heat exchange efficiency low and carbon fiber electric heater can not be adjusted and influence the problem of heating effect, with the purpose of realizing increase heat exchange efficiency.

in order to solve the technical problem, the utility model adopts the following technical proposal.

The carbon fiber electric heater comprises a metal shell, wherein a carbon fiber heating wire for heating gas and a temperature controller for controlling the heating amount of the carbon fiber heating wire are arranged in the metal shell, and the controlled end of the carbon fiber heating wire is connected to the output end of the temperature controller; the bottom of metal casing is provided with the moving mechanism who is used for subaerial removal through being used for driving the whole elevating system that goes up and down in order to reach high-efficient heat supply of electric heater to connect, and metal casing's top intercommunication is provided with and is used for carrying the air supply mechanism of treating the heating gas in to metal casing, and a plurality of strip louvres that are used for having thermal gas to spill after the carbon fiber heating wire heating are seted up to metal casing's top.

Further optimize technical scheme, elevating system includes the lift cylinder that two at least stiff ends are connected with metal casing's bottom.

According to the technical scheme, the moving mechanism comprises a fork-shaped plate and a universal wheel, wherein the top end of the fork-shaped plate corresponds to the end of a piston rod of a lifting cylinder and is fixedly arranged, and the universal wheel is arranged at the bottom end of the fork-shaped plate.

further optimize technical scheme, air supply mechanism is including setting up the air exhauster that is linked together at metal casing top and with metal casing.

Further optimize technical scheme, the protruding linearity of inboard is provided with a plurality of arc recesses on the place ahead outer wall of metal casing, forms carbon fiber heating wire installation passageway between the protruding of inboard side of arc recess and the place ahead inner wall of metal casing.

Further optimize technical scheme, set up on the rear outer wall of metal casing and be used for hanging the electric heater whole to the hanging hole on the wall.

According to the technical scheme, a clothes hanger for drying clothes is further installed in the middle of the top end of the metal shell, and the clothes hanger comprises two arc-shaped plates fixedly arranged at the top end of the metal shell and a transverse circular tube fixedly arranged between the two arc-shaped plates.

due to the adoption of the technical scheme, the utility model has the following technical progress.

The utility model has unique design and strong practicability, and the mode of arranging the lifting mechanism at the bottom end of the metal shell and connecting and arranging the moving mechanism at the bottom end of the lifting mechanism is adopted, so that the utility model can promote the position of the whole electric heater to rise through the lifting mechanism, thereby raising the height position of the strip-shaped heat dissipation holes and increasing the heat exchange efficiency of the utility model; through the mode that sets up air supply mechanism and set up strip louvre on metal casing's top intercommunication at metal casing, air supply mechanism's pump send treat the heated gas and the gas after the strip louvre discharge heating come the cooperation operation, can realize the heat transfer to indoor gaseous very fast, improved heat exchange efficiency widely.

The utility model discloses also on can hitching the wall through the hitching hole, the universal wheel that sets up on the fork shaped plate can make the utility model discloses it is very convenient at subaerial removal.

Drawings

Fig. 1 is a first schematic structural diagram of the present invention;

FIG. 2 is a second schematic structural view of the present invention;

Fig. 3 is a third schematic structural view of the present invention;

Fig. 4 is a front view of the present invention;

Fig. 5 is a schematic view of the installation structure of the carbon fiber heating wire in the metal shell.

Wherein: 1. a metal housing; 2. a carbon fiber heating wire; 3. an arc-shaped groove; 4. a temperature controller; 5. strip-shaped heat dissipation holes; 6. a lifting mechanism 61 and a lifting cylinder; 7. a moving mechanism 71, a fork-shaped plate 72 and a universal wheel; 8. air supply mechanism 81, exhaust fan; 9. the clothes hanger comprises a clothes hanger body 91, an arc-shaped plate 92 and a transverse circular pipe; 10. hanging holes; 11. carbon fiber heater installation passageway.

Detailed Description

The present invention will be described in further detail with reference to the following embodiments.

The carbon fiber electric heater, as shown in fig. 1 to 5, includes a metal casing 1, a carbon fiber heating wire 2, a temperature controller 4, a lifting mechanism 6, a moving mechanism 7, an air supply mechanism 8 and a strip-shaped heat dissipation hole 5.

Carbon fiber heating wire 2 and temperature controller 4 set up in metal casing 1, and carbon fiber heating wire 2 is used for heating gas, and temperature controller 4 is used for controlling carbon fiber heating wire 2's calorific capacity, and carbon fiber heating wire 2's controlled end is connected in temperature controller 4's output.

The lifting mechanism 6 is arranged at the bottom end of the metal shell 1 and used for driving the electric heater to integrally lift so as to achieve the purpose of efficient heat supply. The lifting mechanism 6 comprises at least two lifting cylinders 61, and the fixed end of each lifting cylinder is connected with the bottom end of the metal shell 1.

The moving mechanism 7 is connected and arranged at the bottom end of the metal shell 1 through the lifting mechanism 6 and is used for moving on the ground. The moving mechanism 7 includes a fork plate 71 and a universal wheel 72. The top end of each fork-shaped plate 71 is fixedly arranged corresponding to the piston rod end of one lifting cylinder, the universal wheel 72 is arranged at the bottom end of the fork-shaped plate 71, and two universal wheels are arranged below each fork-shaped plate.

the air supply mechanism 8 is communicated with the top end of the metal shell 1 and used for conveying gas to be heated into the metal shell 1, so that the heat exchange speed of indoor gas is increased, and the heat exchange efficiency is improved. The air supply mechanism 8 comprises an exhaust fan 81, and the exhaust fan 81 is arranged at the top end of the metal shell 1 and communicated with the metal shell 1.

The strip-shaped heat dissipation holes 5 are formed in the top end of the metal shell 1, are used for dissipating heat gas generated by the carbon fiber heating wire 2 after being heated, and cooperate with the exhaust fan 81 to achieve accelerated heat exchange of indoor gas.

Be provided with a plurality of arc recesses 3 on the place ahead outer wall of metal casing 1, a plurality of arc recesses 3 are linear to be set up, and arc recess 3 sets up to the inboard arch of metal casing 1. A carbon fiber heating wire installation channel 11 is formed between the inward protrusion of the arc-shaped groove and the front inner wall of the metal shell 1, and the carbon fiber heating wire installation channel 11 is used for installing the carbon fiber heating wire 2.

In addition, in order to make the electric heater wholly hang to the wall on, seted up on the rear outer wall of metal casing 1 and hitched hole 10, hitched hole 10 is provided with two altogether, can with the utility model discloses on hitching the nail on the wall to realize indoor high-efficient heating demand.

The utility model discloses can also dry in the air the clothes, in order to realize this purpose, still install at the top middle part of metal casing 1 and be provided with clothes hanger 9 that dries in the air, clothes hanger 9 that dries in the air includes arc 91 and horizontal pipe 92. The arc 91 is provided with two altogether, fixedly sets up respectively to metal casing 1 top, and horizontal pipe 92 is fixed to be set up between two arc 91, and the clothes can be put on horizontal pipe 92.

The utility model discloses when the in-service use, will the utility model discloses place indoor subaerial, carry out the heating operation, air exhauster 81 with indoor gas of waiting to heat is pumped to metal casing 1 in, control carbon fiber heating wire 2 through temperature controller 4 and generate heat, realize the heating to the gas in metal casing 1, and temperature controller 4 can control the heating temperature of carbon fiber heating wire 2, the gas after the heating is dispersed to indoor through strip louvre 5, a part of heat is again through the metal casing 1 that can heat conduction and indoor gas carry out the heat transfer; then, the exhaust fan 81 continues to pump the indoor gas to be heated, and the heated gas is emitted from the strip-shaped heat dissipation holes 5, so that heat circulation is realized. The arrangement of the exhaust fan 81 and the strip-shaped heat dissipation holes 5 can realize heat exchange of indoor air very quickly, and heat exchange efficiency is greatly improved.

In order to further achieve the heat exchange effect, the heat exchange can be realized through the action of the lifting cylinder 61. The lift cylinder 61 is aerifyd, and the piston rod extension of lift cylinder 61 is connected because the tailpiece of the piston rod of lift cylinder 61 is connected with moving mechanism 7 of ground contact, and the stiff end of lift cylinder 61 is connected with 1 bottom of metal casing for the tailpiece of the piston rod bottom of lift cylinder 61 is liftable not, and the stiff end of lift cylinder 61 upwards rises, promotes that the holistic position of electric heater rises, thereby has raised the high position of strip louvre 5, has increaseed the utility model discloses a heat exchange efficiency.

The utility model discloses also can be through on the wall is articulated to the hookup hole 10, the universal wheel 72 that sets up on the Y-shaped plate 71 can make the utility model discloses remove subaerial, it is very convenient.

Claims (7)

1. The carbon fiber electric heater comprises a metal shell (1), wherein a carbon fiber heating wire (2) for heating gas and a temperature controller (4) for controlling the heating amount of the carbon fiber heating wire (2) are arranged in the metal shell (1), and the controlled end of the carbon fiber heating wire (2) is connected to the output end of the temperature controller (4); the method is characterized in that: the bottom of metal casing (1) is connected through elevating system (6) that is used for driving the electric heater whole to go up and down in order to reach high-efficient heat supply and is provided with and is used for moving mechanism (7) moving subaerial, and the top intercommunication of metal casing (1) is provided with and is used for carrying the air supply mechanism (8) of treating the heating gas in metal casing (1), and a plurality of strip louvres (5) that are used for having thermal gas to effuse after carbon fiber heating wire (2) heating have been seted up on the top of metal casing (1).

2. The carbon fiber electric heater of claim 1, wherein: the lifting mechanism (6) comprises at least two lifting cylinders (61) with fixed ends connected with the bottom end of the metal shell (1).

3. The carbon fiber electric heater of claim 2, wherein: the moving mechanism (7) comprises a fork-shaped plate (71) and a universal wheel (72), wherein the top end of the fork-shaped plate (71) is fixedly arranged corresponding to the piston rod end of a lifting cylinder, and the universal wheel (72) is arranged at the bottom end of the fork-shaped plate (71).

4. The carbon fiber electric heater of claim 1, wherein: the air supply mechanism (8) comprises an exhaust fan (81) which is arranged at the top end of the metal shell (1) and communicated with the metal shell (1).

5. The carbon fiber electric heater of claim 1, wherein: a plurality of arc-shaped grooves (3) are linearly arranged on the outer wall of the front of the metal shell (1) and protrude towards the inner side, and carbon fiber heating wire installation channels (11) are formed between the protrusions of the arc-shaped grooves towards the inner side and the inner wall of the front of the metal shell (1).

6. The carbon fiber electric heater of claim 1, wherein: and a hanging hole (10) for hanging the electric heater on a wall integrally is formed in the outer wall of the rear part of the metal shell (1).

7. The carbon fiber electric heater of claim 1, wherein: the middle part of the top end of the metal shell (1) is also provided with a clothes hanger (9) for drying clothes, and the clothes hanger (9) comprises two arc plates (91) fixedly arranged at the top end of the metal shell (1) and a transverse circular tube (92) fixedly arranged between the two arc plates (91).