CN213983760U - Be applied to indoor electric heater casing of high efficiency that carbon fiber generates heat - Google Patents

Abstract

The utility model discloses a be applied to indoor electric heater casing of high efficiency that carbon fiber generates heat belongs to electric heater equipment technical field, has solved high energy consumption, inefficiency and the unsafe of current electric heater casing, and the radiating part uses material and structure to be unfavorable for the problem that heat energy gived off, and its technical essential is: including heat dissipation panel, heat dissipation panel is provided with four at least, through connecting piece fixed connection about the heat dissipation panel, heat dissipation panel keeps away from connecting piece one end fixed connection heat dissipation frame, last draw-in groove and the bayonet socket of being provided with of heat dissipation panel, the size of a dimension of draw-in groove and bayonet socket is the same, draw-in groove and bayonet socket mutually support, be provided with the heat dissipation cavity in the heat dissipation panel, have low energy consumption, high efficiency and safety, heat dissipation part uses material and structure to do benefit to the advantage that heat energy gived off.

Description

Be applied to indoor electric heater casing of high efficiency that carbon fiber generates heat

Technical Field

The utility model relates to an electric heater equipment technical field specifically relates to a be applied to indoor electric heater casing of high efficiency that carbon fiber generates heat.

Background

The indoor heater is widely applied in recent years as a novel heating device, and the existing products mainly comprise oil heater type and fan type heaters, and the heating body mainly comprises an electric heating tube, an electric heating wire and the like. The heat dissipation part is mostly made of materials such as epoxy resin, steel plates and the like.

The existing indoor electric heater shell has the main defects of high energy consumption, low efficiency, insecurity and the like; the heat dissipation part uses materials and structure to be unfavorable for heat energy dissipation, and some heat dissipation plates also adopt materials such as aluminum alloy to make, but the structure is unreasonable, can not effectively utilize heat energy, is difficult to obtain popularization and application.

Therefore, it is desirable to provide a high-efficiency indoor electric heater housing applied to carbon fiber heating, aiming at solving the above problems.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art exists, the utility model provides an aim at provides a be applied to indoor electric heater casing of high efficiency that carbon fiber generates heat to solve the problem among the above-mentioned background art.

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

the utility model provides a be applied to indoor electric heater casing of high efficiency that carbon fiber generates heat, includes the heat dissipation panel, the heat dissipation panel is provided with four at least, through connecting piece fixed connection about the heat dissipation panel, the heat dissipation panel is kept away from connecting piece one end fixed connection heat dissipation frame, be provided with draw-in groove and bayonet socket on the heat dissipation panel, the size of a dimension of draw-in groove and bayonet socket is the same, draw-in groove and bayonet socket mutually support, be provided with the heat dissipation cavity in the heat dissipation panel, through heat dissipation cavity increase heat radiating area.

As the utility model discloses further scheme, heat radiation panel makes up into three-dimensional heat dissipation post through draw-in groove and bayonet socket opposite insertion, heat radiation panel constitutes heating shell with heat dissipation frame fixed connection, there is the gap between the three-dimensional heat dissipation post that heat radiation panel combination formed, forms the hot convection wind channel, increases cold and hot air convection velocity for indoor cold and hot air rapid cycle exchanges has improved hot convection efficiency greatly, has promoted heating efficiency greatly.

As a further scheme of the utility model, be provided with the wire casing on the heat dissipation panel, wire casing evenly distributed is on the heat dissipation panel, wire casing fixed connection heat dissipation panel installs the carbon fiber heating wire as the heat-generating body through the wire casing, increases heating wire and heat dissipation panel's heat energy conduction area and shortens heat conduction time through the wire casing, has improved the conduction efficiency between heat-generating body to the radiator greatly.

As a further scheme of the utility model, the heat dissipation panel both sides are provided with the heat dissipation tooth, heat dissipation tooth fixed connection heat dissipation panel, heat dissipation tooth evenly distributed is in the heat dissipation panel both sides, the heat dissipation panel outside is provided with the arc surface, the arc surface sets up concave convex shape, and is not only pleasing to the eye, increases the radiation heat radiating area moreover, and its heat radiating area through the heat dissipation tooth is 4-5 times with the size flat area, has improved heater radiation heat radiating effect greatly.

As the utility model discloses further scheme, heat dissipation panel adopts the positive and negative setting, sets up one set of heat-generating body of heat dissipation panel sharing through the positive and negative, and the heat energy loss is less, dispels the heat simultaneously, practices thrift the energy consumption.

As a further proposal of the utility model, the heat-conducting performance of the heat-radiating panel and the heat-radiating frame is obviously superior to that of the aluminum alloy material with high heat-radiating performance such as steel; the heat dissipation coefficient of the aluminum alloy material is more than 3 times of that of the common steel plate. The electric power configuration of the heating body material can be reduced by more than 2 times compared with a heater radiating heat by steel materials; by optimizing the materials and the structure, the energy consumption of the heater of the patent product is reduced by more than 3-4 times.

To sum up, compared with the prior art, the embodiment of the utility model has the following beneficial effects:

the utility model has the advantages that the outer side surface of the heat radiation panel is designed to be arc concave-convex, thereby not only being beautiful, but also increasing the radiation heat radiation area, the inner cavity is also a heat radiation surface, and the wing-shaped heat radiation teeth are added on both sides, the heat radiation area is 4-5 times of the same size flat area, and the radiation heat radiation effect of the heater is greatly improved; the inner side surface adopts the design of a built-in heating wire groove, the heat energy conduction area of the heating wire and the heat dissipation plate is increased, the heat conduction time is shortened, the conduction efficiency from the heating body to the heat dissipation body is greatly improved, the heating plate on the front side and the heat dissipation plate on the back side share one set of heating body, and the heat energy loss is smaller. This patent product is three-dimensional heat dissipation, has the gap between the three-dimensional heat dissipation post, forms the hot convection wind channel, and cold and hot air convection velocity of increase for indoor cold and hot air rapid cycle exchanges has improved hot convection efficiency greatly, has promoted heating efficiency greatly.

To illustrate the structural features and functions of the present invention more clearly, the present invention will be described in detail with reference to the accompanying drawings and specific embodiments.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention.

Fig. 2 is a schematic structural diagram of an apparatus according to an embodiment of the present invention.

Reference numerals: 1-radiating panel, 2-radiating frame, 3-connecting piece, 4-wire groove, 5-heating element, 6-radiating tooth, 7-arc surface, 8-radiating cavity, 9-clamping groove and 10-clamping opening.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The following detailed description is provided for the specific embodiments of the present invention.

Example 1

Referring to fig. 1-2, a high-efficiency indoor electric heater casing applied to carbon fiber heating comprises a heat dissipation panel 1, the heat dissipation panel 1 is provided with four at least, the heat dissipation panel 1 is controlled through a connecting piece 3 fixed connection, the heat dissipation panel 1 is far away from a connecting piece 3 one end fixed connection heat dissipation frame 2, a clamping groove 9 and a bayonet 10 are arranged on the heat dissipation panel 1, the clamping groove 9 and the bayonet 10 are the same in size, the clamping groove 9 and the bayonet 10 are mutually matched, a heat dissipation cavity 8 is arranged in the heat dissipation panel 1, and the heat dissipation area is increased through the heat dissipation cavity 8.

Radiating panel 1 is to inserting the combination into three-dimensional heat dissipation post through draw-in groove 9 and bayonet socket 10, radiating panel 1 constitutes heating housing with 2 fixed connection of heat dissipation frame, there is the gap between the three-dimensional heat dissipation post that radiating panel 1 combination formed, forms the hot convection wind channel, increases cold and hot air convection velocity for indoor cold and hot air rapid cycle exchange has improved hot convection efficiency greatly, has promoted heating efficiency greatly.

The heat dissipation panel is characterized in that the heat dissipation panel 1 is provided with wire grooves 4, the wire grooves 4 are uniformly distributed on the heat dissipation panel 1, the wire grooves 4 are fixedly connected with the heat dissipation panel 1, carbon fiber heating wires are arranged through the wire grooves 4 to serve as heating bodies 5, the heat conduction area of the heating wires and the heat dissipation panel 1 is increased through the wire grooves 4, the heat conduction time is shortened, and the conduction efficiency from the heating bodies to the heat dissipation body 5 is greatly improved.

The heat dissipation structure is characterized in that heat dissipation teeth 6 are arranged on two sides of the heat dissipation panel 1, the heat dissipation teeth 6 are fixedly connected with the heat dissipation panel 1, the heat dissipation teeth 6 are uniformly distributed on two sides of the heat dissipation panel 1, an arc surface 7 is arranged on the outer side of the heat dissipation panel 1, the arc surface 7 is arranged to be concave and convex, the heat dissipation structure is attractive, the radiation heat dissipation area is increased, the heat dissipation area of the heat dissipation teeth 6 is 4-5 times of the same-size flat area, and the radiation heat dissipation effect of the heater is greatly improved.

Preferably, in this embodiment, the heat dissipation panel 1 is disposed on the front side and the back side, and the heat dissipation panel 1 is disposed on the front side and the back side to share one set of heating element 5, so that heat loss is low, and heat dissipation is performed at the same time, thereby saving energy consumption.

Example 2

Referring to fig. 1 to 2, a high-efficiency indoor electric heater casing applied to carbon fiber heating includes a heat dissipation panel 1 and a heat dissipation frame 2, the number of the heat dissipation panels 1 is at least four, the heat dissipation panels 1 are fixedly connected with each other through a connecting piece 3, one end of the heat dissipation panel 1, which is far away from the connecting piece 3, is fixedly connected with the heat dissipation frame 2, a clamping groove 9 and a bayonet 10 are arranged on the heat dissipation panel 1, the clamping groove 9 and the bayonet 10 have the same size, the clamping groove 9 and the bayonet 10 are mutually matched, a heat dissipation cavity 8 is arranged in the heat dissipation panel 1, and the heat dissipation area is increased through the heat dissipation cavity 8.

Radiating panel 1 is to inserting the combination into three-dimensional heat dissipation post through draw-in groove 9 and bayonet socket 10, radiating panel 1 constitutes heating housing with 2 fixed connection of heat dissipation frame, there is the gap between the three-dimensional heat dissipation post that radiating panel 1 combination formed, forms the hot convection wind channel, increases cold and hot air convection velocity for indoor cold and hot air rapid cycle exchange has improved hot convection efficiency greatly, has promoted heating efficiency greatly.

The heat dissipation panel is characterized in that the heat dissipation panel 1 is provided with wire grooves 4, the wire grooves 4 are uniformly distributed on the heat dissipation panel 1, the wire grooves 4 are fixedly connected with the heat dissipation panel 1, carbon fiber heating wires are arranged through the wire grooves 4 to serve as heating bodies 5, the heat conduction area of the heating wires and the heat dissipation panel 1 is increased through the wire grooves 4, the heat conduction time is shortened, and the conduction efficiency from the heating bodies to the heat dissipation body 5 is greatly improved.

The heat dissipation structure is characterized in that heat dissipation teeth 6 are arranged on two sides of the heat dissipation panel 1, the heat dissipation teeth 6 are fixedly connected with the heat dissipation panel 1, the heat dissipation teeth 6 are uniformly distributed on two sides of the heat dissipation panel 1, an arc surface 7 is arranged on the outer side of the heat dissipation panel 1, the arc surface 7 is arranged to be concave and convex, the heat dissipation structure is attractive, the radiation heat dissipation area is increased, the heat dissipation area of the heat dissipation teeth 6 is 4-5 times of the same-size flat area, and the radiation heat dissipation effect of the heater is greatly improved.

Different from the embodiment 1, the heat dissipation panel 1 and the heat dissipation frame 2 are made of high heat dissipation aluminum alloy materials, and the heat conduction performance of the high heat dissipation aluminum alloy materials is obviously superior to that of materials such as steel; the heat dissipation coefficient of the aluminum alloy material is more than 3 times of that of the common steel plate. The electric power configuration of the heating body material can be reduced by more than 2 times compared with a heater radiating heat by steel materials; by optimizing the materials and the structure, the energy consumption of the heater of the patent product is reduced by more than 3-4 times.

The rest of the structure of this example is the same as example 1.

It should be particularly noted that the heat dissipation panel 1 and the heat dissipation frame 2 are both aluminum alloy sections, and the processing technology is simple and mature; size quantity can be selected and processed in a flexible way, a bayonet structure is arranged between the radiating panel 1 and the radiating frame 2, assembly is flexible and rapid, efficiency of product forming, production and assembly is greatly improved, flexibility of selection of different requirements of products is greatly improved, power can be reduced by more than 2 times compared with that of a common heater under the condition that the volume of the heater is not changed, radiating area is increased by 4-5 times, heat convection speed is increased by 3-5 times, electrothermal conversion rate reaches more than 98%, and the defects of high power, high energy consumption and low efficiency of most electric heaters are overcome.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (6)

1. The utility model provides a be applied to indoor electric heater casing of high efficiency that carbon fiber generates heat, includes cooling panel (1), its characterized in that, cooling panel (1) is provided with four at least, through connecting piece (3) fixed connection about cooling panel (1), connecting piece (3) one end fixed connection heat dissipation frame (2) are kept away from in cooling panel (1), be provided with draw-in groove (9) and bayonet socket (10) on cooling panel (1), the size of a dimension of draw-in groove (9) and bayonet socket (10) is the same, draw-in groove (9) and bayonet socket (10) mutually support, be provided with heat dissipation cavity (8) in cooling panel (1).

2. The high-efficiency indoor electric heater shell applied to carbon fiber heating according to claim 1, wherein the heat dissipation panel (1) is inserted into the clamping groove (9) and the bayonet (10) to form a three-dimensional heat dissipation column, and the heat dissipation panel (1) is fixedly connected with the heat dissipation frame (2) to form a heating shell.

3. The high-efficiency indoor electric heater shell applied to carbon fiber heating according to claim 2, wherein the heat dissipation panel (1) is provided with wire slots (4), the wire slots (4) are uniformly distributed on the heat dissipation panel (1), the wire slots (4) are fixedly connected with the heat dissipation panel (1), and the wire slots (4) are used for installing carbon fiber heating wires as the heating body (5).

4. The high-efficiency indoor electric heater shell applied to carbon fiber heating is characterized in that heat dissipation teeth (6) are arranged on two sides of the heat dissipation panel (1), the heat dissipation teeth (6) are fixedly connected with the heat dissipation panel (1), the heat dissipation teeth (6) are uniformly distributed on two sides of the heat dissipation panel (1), an arc surface (7) is arranged on the outer side of the heat dissipation panel (1), and the arc surface (7) is concave-convex.

5. The high-efficiency indoor electric heater shell applied to carbon fiber heating as claimed in claim 4, wherein the heat dissipation panel (1) adopts a front and back arrangement.

6. The high-efficiency indoor electric heater shell applied to carbon fiber heating as claimed in claim 1, wherein the heat dissipation panel (1) and the heat dissipation frame (2) are made of aluminum alloy material with high heat dissipation.

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