CN212930186U - Heating device - Google Patents

Abstract

The utility model provides a heating device, which comprises a cover body, a face cover, a power supply, a far infrared heating mechanism and a heat reflecting mechanism; the heat reflecting mechanism is arranged in the cover body, and the working surface of the heat reflecting mechanism is formed by at least two cambered surfaces; the power supply is arranged in the cover body and is electrically connected with the far infrared heating mechanism; the infrared heating mechanism is connected with the surface cover and is positioned below the working surface of the heat reflecting mechanism, and during working, far infrared rays emitted by the far infrared heating mechanism are directly emitted. The utility model has strong practicability, and can fully utilize energy to achieve the heating effect, thereby improving the energy-saving performance; meanwhile, the heating device can utilize far infrared rays beneficial to human health as a heat source, and can provide comfortable and warm environment for users.

Description

Heating device

Technical Field

The utility model relates to an electrical apparatus technical field, more specifically say, relate to a heating installation.

Background

At present, with the improvement of living standard of people, people usually use a heating device to heat in cold winter. There are many conventional heating devices on the market, for example: bulb series heaters, air-heating heaters, carbon fiber heaters, heaters using microcrystalline glass as heating panels, and the like.

However, the existing heating devices have disadvantages, particularly in terms of human experience and energy saving, such as: the bulb series warmer belongs to visible light and thermal radiation, the product has low energy efficiency, hot red light is dry in mouth and tongue, the skin of a user can be sunburned or even burnt after long-time irradiation, the high-heat quartz heating bulb is in danger of bursting when meeting water, in addition, the light of the warmer is dazzling, and the eyes of old people and children are easily injured.

The carbon crystal of the carbon fiber warmer is made of resin, the carbon crystal has the taste of epoxy resin and a small amount of toxin after being heated, and the carbon fiber warmer can generate visible light when working to generate side effect on eyes of infants.

The microcrystalline glass is used as a heater of a heating panel: the heating mode is that a high-power halogen lamp tube is used as a heat source, and belongs to indirect heat conduction and visible light and heat radiation, so that the power of the warmer is attenuated, the working power is higher, and the energy-saving effect cannot be achieved.

Therefore, it is desirable to provide a heating device with good energy saving effect.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects and shortcomings in the prior art and provide a heating device with strong practicability, which can fully utilize energy to achieve the heating effect, thereby improving the energy-saving performance; meanwhile, the heating device can utilize far infrared rays beneficial to human health as a heat source, and can provide comfortable and warm environment for users.

In order to achieve the above purpose, the utility model discloses a following technical scheme realizes: a heating device is characterized in that: comprises a cover body, a face cover, a power supply, a far infrared heating mechanism and a heat reflecting mechanism; the heat reflecting mechanism is arranged in the cover body, and the working surface of the heat reflecting mechanism is formed by at least two cambered surfaces; the power supply is arranged in the cover body and is electrically connected with the far infrared heating mechanism; the far infrared heating mechanism is connected with the surface cover and is positioned below the working surface of the heat reflecting mechanism, and during working, far infrared rays emitted by the far infrared heating mechanism are directly emitted.

In the above technical scheme, the utility model discloses a working face of anti-hot mechanism is formed by two at least cambered surfaces, compares with the design that adopts the plane, and the area of anti-hot face has increased for far infrared generates heat the energy make full use of mechanism, reaches energy-conserving effect with this. In addition, the cover body is only internally provided with a heat reflecting mechanism, and the far infrared heating mechanism is connected with the face cover, so that the thickness of the heating device is almost half of that of the traditional air heating bath heater, and the problem that the ceiling space height is not enough during the decoration of customers can be better solved.

The working surface of the heat-resisting mechanism is formed by connecting at least two cambered surfaces and is a wavy working surface. The utility model discloses the working face is wavy, and multiplicable anti-heat area further improves energy-conserving effect.

And a heat insulation layer is arranged on the back surface of the heat reflection mechanism. The design of the heat insulation layer can make full use of the energy of the far infrared heating mechanism.

The heat insulation layer is a heat insulation coating layer and a heat insulation film coated on the back of the heat reflection mechanism; the heat insulation film is adhered to the heat insulation coating layer.

The utility model also comprises a heat insulation board; the heat insulation plate divides the interior of the cover body into an accommodating cavity and a cavity for placing a power supply; the power supply is arranged in the cavity and is electrically connected with the far infrared heating mechanism; the heat reflecting mechanism is arranged in the accommodating cavity; the face cover is connected with the cover body to cover the accommodating cavity and the cavity. The utility model discloses the design of heat insulating board can make power and far infrared generate heat the mechanism and separate to guarantee the normal work of power.

The utility model also comprises a lamp for lighting; the surface cover is provided with a lamp mounting hole, and the lamp is mounted on the surface cover through the mounting hole; the lamp is connected with a power supply.

The utility model also comprises a controller, a temperature circuit board which is connected with the controller and can display temperature and/or a timing circuit board which can display time; the controller, the temperature circuit board and/or the timing circuit board are arranged in the cover body; the controller is connected with a power supply;

the face cover is provided with a temperature display window and/or a time display window; the temperature circuit board is arranged on the temperature and temperature display window, and the timing circuit board is arranged on the time display window.

The far infrared heating mechanism comprises a far infrared heating component and a light-transmitting plate; the transparent plate is connected with the surface cover, and the far infrared heating component is arranged in the cover body and is positioned between the heat reflecting mechanism and the transparent plate; when the solar water heater works, far infrared rays emitted by the far infrared heating component are directly emitted from the light transmission plate. In the scheme, the far infrared heating component can adopt a plurality of far infrared heating bodies to increase the heating area and fully exert the power.

The light-transmitting plate is a plate provided with a plurality of through holes or grids.

Or the far infrared heating mechanism is a far infrared heating body provided with a plurality of salient points; the far infrared heating body is connected with the surface cover; when the heating device works, the far infrared rays emitted by the far infrared heating body are directly emitted. In this scheme, the working face that the far infrared heat-generating body set up is a plurality of bump, and this bump can be for having a plurality of planar terrace with edges form, like this can be on limited surface greatly increased the area of far infrared emission to greatly increased transmits far infrared's area.

The far infrared heating body of the utility model is a nano ceramic composite far infrared heating body. The utility model discloses the heating installation utilizes the compound far infrared heat-generating body of nanometer ceramic that is profitable to the health as the heat source, in the during operation, the far infrared direct infiltration of the compound far infrared heat-generating body transmission of nanometer ceramic is to people's skin, because far infrared does not have the shelter from the thing, consequently, produce resonance with people's health cell and make the health produce the temperature, impel blood circulation with higher speed, health surface physiology metabolism accelerates in order to reach the heating effect, this heating installation's service power is energy-conserving more than 30%, collect energy-conservation, environmental protection and maintenance are in an organic whole, can provide the comfortable warm environment of user. Meanwhile, far infrared rays emitted by the nano ceramic composite far infrared heating body directly permeate into the skin of a person to generate resonance with the skin of the person, so that the blood circulation is promoted, and the health of a user is facilitated.

The nano ceramic composite far infrared heating body is a product on the market at present, and is characterized in that a carrier is coated with a far infrared nano heating film, and the coated carrier is a high-heat-resistance and insulating ceramic base material.

For room heater on the market, the utility model discloses a heating installation has that power is low, the volume is thin and be fit for the advantage that old man's baby used. The carbon crystal of the carbon fiber warmer is made of resin, the carbon crystal has the taste of epoxy resin and a small amount of toxin after being heated, and the carbon fiber warmer can generate visible light when working to generate side effect on eyes of infants. The utility model discloses compound far infrared heat-generating body operating condition of nanometer ceramic and no operating condition's visible light do not have the change, the product of equal efficiency, and the power of this product design is only within 70% of like product, collects energy-conservation, environmental protection and maintenance in an organic whole. Additionally, the utility model discloses a heating installation simple structure, the cover is internal only to set up anti-heat mechanism, and far infrared heating mechanism is connected with the face lid, and especially far infrared heating mechanism is for being provided with the far infrared heat-generating body of convex surface, and the heating installation of this structure is ultra-thin money, and thickness only has the third of traditional warm-air bathroom heater thickness, and the heating installation gross thickness of this structure is about 38mm, can solve the problem that customer fitment furred ceiling space height is not enough better.

The utility model discloses a room heater can be applicable to and shower heating as the bathroom heater in the bathroom. When a user sleeps in a bedroom, the warmer is dull, silent and energy-saving, and is also very suitable for warming in the bedroom.

Compared with the prior art, the utility model has the advantages of as follows and beneficial effect: the utility model has strong practicability, and can fully utilize energy to achieve the heating effect, thereby improving the energy-saving performance; meanwhile, the heating device can utilize far infrared rays beneficial to human health as a heat source, and can provide comfortable and warm environment for users.

Drawings

FIG. 1 is an exploded view of a heating apparatus according to an embodiment;

fig. 2 is an exploded view of a second heating device according to the present embodiment;

FIG. 3 is an enlarged view at A in FIG. 2;

fig. 4 is an exploded view of a third heating apparatus according to the present embodiment;

wherein, 1 is a cover body, 2 is a face cover, 3 is a heat insulation board, 4 is a heat reflecting mechanism, 4.1 is a working face, 4.2 is a heat insulation film, 5 is a light transmission board, 6 is a frame body, 7 is a far infrared heating body, 7.1 is a salient point, 8 is a lamp, 9 is a controller, 10 is a timing circuit board, and 11 is a timing display light transmission board.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Example one

As shown in fig. 1, the utility model discloses a heating device includes the cover body 1, face lid 2, a power supply (not shown), far infrared generates heat mechanism and anti-heat mechanism 4, wherein, anti-heat mechanism 4 sets up in the cover body 1, anti-heat mechanism 4's working face 4.1 is formed by a plurality of cambered surface connection, and be wavy working face 4.1, the power setting is at the cover body 1 in and with far infrared mechanism electricity that generates heat is connected, far infrared generates heat the mechanism and is connected with face lid 2 and is located anti-heat mechanism 4's working face 4.1 below, in operation, far infrared that far infrared mechanism that generates heat sent directly jets out.

In order to make far infrared generate heat the more make full use of the energy of mechanism, the utility model discloses a back of anti-heat mechanism 4 is provided with the insulating layer, and this insulating layer is the thermal-insulated dope layer and the thermal-insulated membrane 4.2 of coating at the anti-heat mechanism 4 back, and thermal-insulated membrane 4.2 pastes on the thermal-insulated dope layer.

The utility model discloses still include heat insulating board 3, this heat insulating board 3 with cover body 1 internal partitioning for hold the cavity and be used for placing the power the cavity, the power setting in the cavity and with far infrared mechanism electricity that generates heat be connected, anti-heat mechanism 4 sets up in holding the cavity, face lid 2 is connected with cover body 1 and closes with the lid and hold cavity and cavity. The utility model discloses the design of heat insulating board 3 can make power and far infrared generate heat the mechanism and separate to guarantee the normal work of power.

The utility model discloses a far infrared mechanism that generates heat includes far infrared heating element and light-passing board 5, and this light-passing board 5 is connected with face lid 2, and far infrared heating element comprises support body 6 and a plurality of far infrared heat-generating body 7, and a plurality of far infrared heat-generating body 7 are installed on support body 6 to through support body 6 setting in cover body 1, far infrared heating element is located between heat-reflecting mechanism 4 and the light-passing board 5, and during operation, the far infrared that far infrared heating element sent directly jets out from light-passing board 5. The far infrared heating element of the present embodiment can adopt a plurality of far infrared heating elements 7 to increase the heating area and fully exert the power. And the light-transmitting plate 5 is a plate provided with a plurality of grids.

The utility model discloses the heating installation is still including the lamps and lanterns 8 that are used for the illumination, and 8 mounting holes of lamps and lanterns have been seted up to face lid 2, and 8 are installed on face lid 2 through the mounting hole to lamps and lanterns, and these lamps and lanterns 8 are connected with the power.

The utility model discloses still include controller 9, the timing circuit board 10 that can show time of being connected with controller 9, this controller 9, timing circuit board 10 all set up inside the cover body 1, and controller 9 is connected with the power, and face lid 2 is seted up there is time display window, and timing circuit board 10 installs on time display window, and rethread timing display light-passing board 11 covers closes.

The heating installation of this embodiment is ultra-thin money, and thickness only has the half of traditional warm bathroom heater of wind thickness, can solve the problem that customer fitment furred ceiling space height is not enough so better.

Example two

The present embodiment is different from the first embodiment only in that: as shown in fig. 2 and fig. 3, the far infrared heating mechanism of the present embodiment is a far infrared heating element 7 having a plurality of salient points 7.1, and the far infrared heating element 7 is connected to the face cover 2; when the infrared heating element is in operation, the far infrared rays emitted by the far infrared heating element 7 are directly emitted. In this scheme, the working face that far infrared heat-generating body 7 set up is a plurality of bump 7.1, and this bump 7.1 can be for having the terrace with edge form of a plurality of planes, can be like this on limited surface greatly increased the area of emission far infrared to increase the area of generating heat.

The heating installation of this structure is ultra-thin money, and thickness only has the third of traditional warm bathroom heater of wind thickness, and the heating installation gross thickness of this structure is about 38mm, can solve the problem that customer fitment furred ceiling space height is not enough better.

Other structures of the present embodiment are consistent with the present embodiment.

EXAMPLE III

The present embodiment is different from the second embodiment only in that: as shown in fig. 4, the heating device does not include a lamp.

The other structures of the present embodiment are the same as those of the second embodiment.

The above embodiments are preferred embodiments of the present invention, but the embodiments of the present invention are not limited to the above embodiments, and any other changes, modifications, substitutions, combinations, and simplifications which do not depart from the spirit and principle of the present invention should be equivalent replacement modes, and all are included in the scope of the present invention.

Claims (10)

1. A heating device is characterized in that: comprises a cover body, a face cover, a power supply, a far infrared heating mechanism and a heat reflecting mechanism; the heat reflecting mechanism is arranged in the cover body, and the working surface of the heat reflecting mechanism is formed by at least two cambered surfaces; the power supply is arranged in the cover body and is electrically connected with the far infrared heating mechanism; the far infrared heating mechanism is connected with the surface cover and is positioned below the working surface of the heat reflecting mechanism, and during working, far infrared rays emitted by the far infrared heating mechanism are directly emitted.

2. The heating installation of claim 1, wherein: the working surface of the heat-resisting mechanism is formed by connecting at least two cambered surfaces and is a wavy working surface.

3. The heating installation of claim 1, wherein: and a heat insulation layer is arranged on the back surface of the heat reflection mechanism.

4. A heating installation as claimed in claim 3, wherein: the heat insulation layer is a heat insulation coating layer and a heat insulation film coated on the back of the heat reflection mechanism; the heat insulation film is adhered to the heat insulation coating layer.

5. The heating installation of claim 1, wherein: the heat insulation plate is also included; the heat insulation plate divides the interior of the cover body into an accommodating cavity and a cavity for placing a power supply; the power supply is arranged in the cavity and is electrically connected with the far infrared heating mechanism; the heat reflecting mechanism is arranged in the accommodating cavity; the face cover is connected with the cover body to cover the accommodating cavity and the cavity.

6. The heating installation of claim 1, wherein: also comprises a lamp for lighting; the surface cover is provided with a lamp mounting hole, and the lamp is mounted on the surface cover through the mounting hole; the lamp is connected with a power supply.

7. The heating installation of claim 1, wherein: the temperature circuit board can display temperature and/or the timing circuit board can display time; the controller, the temperature circuit board and/or the timing circuit board are arranged in the cover body; the controller is connected with a power supply;

the face cover is provided with a temperature display window and/or a time display window; the temperature circuit board is arranged on the temperature and temperature display window, and the timing circuit board is arranged on the time display window.

8. A heating installation as claimed in any one of claims 1 to 7, wherein: the far infrared heating mechanism comprises a far infrared heating component and a light-transmitting plate; the transparent plate is connected with the surface cover, and the far infrared heating component is arranged in the cover body and is positioned between the heat reflecting mechanism and the transparent plate; when the solar water heater works, far infrared rays emitted by the far infrared heating component are directly emitted from the light transmission plate.

9. The heating installation of claim 8, wherein: the light-transmitting plate is a plate provided with a plurality of through holes or grids.

10. A heating installation as claimed in any one of claims 1 to 7, wherein: the far infrared heating mechanism is a far infrared heating body provided with a plurality of salient points; the far infrared heating body is connected with the surface cover; when the heating device works, the far infrared rays emitted by the far infrared heating body are directly emitted.

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