CN209840243U - Novel bathroom heating device - Google Patents

Abstract

The utility model relates to a novel bathroom heating device, which comprises a shell, a heating element, a main control board, a clapboard and a temperature control device; the partition plate is arranged in the inner cavity of the shell and divides the inner cavity into an upper-layer inner cavity and a lower-layer inner cavity; a heat dissipation protective layer is arranged on a bottom plate of the shell, and a heat insulation layer is arranged below the partition plate; the heating elements are flexible heating elements, are uniformly laid on the heat dissipation protective layer in the lower-layer inner cavity of the shell and are connected with the main control board in the upper-layer inner cavity of the shell; the temperature control device is independently installed on the wall surface of the bathroom and is connected with the main control board; the temperature control device opens and closes the heating element through the main control board for heating. The utility model discloses thickness is thin, reduces the height that the ceiling descends, and whole quality is light, and the noise is low, and the installation is nimble to can realize adjusting the temperature by oneself.

Description

Novel bathroom heating device

Technical Field

The utility model relates to a household electrical appliances for the bathroom, concretely relates to novel bathroom heating device.

Background

A bathroom heating device (commonly called as a bathroom heater) is an important household appliance in modern bathroom decoration, and at present, the bathroom heating device on the market is heated in a lamp heating or air heating mode. The lamp heating mode is characterized in that a specially-made infrared quartz heating bulb is used as a heat source, indoor air is heated through direct radiation, preheating is not needed, but a heat radiation area is small, the situation that a place close to a bathroom heater is very hot and a place far away from the bathroom heater cannot be heated is caused, light rays are dazzling in the lamp heating mode, eyes are easily stabbed, especially, the vision development of children can be seriously influenced, and due to the fact that wall tiles around the lamp heating mode reflect light, people are easy to feel dizzy and the like after being used for a long time, and the requirements of modern people on comfort and safety during bathing cannot be met. In addition, the heating bulb must adopt waterproof explosion-proof type to reduce the potential safety hazard, increased use cost.

Compared with a lamp heating mode, the principle of the air heating mode is similar to that of an air conditioner and a warm air blower, cold air is heated by the aid of the PTC ceramic elements, warm air is blown out, and the cold air circularly flows to drive indoor temperature rise. The air heating mode changes the problems of uneven heat dissipation and dazzling light, even a larger bathroom can also obtain uniform heat supply, but the heating time of the air heating type series is longer, indoor preheating is required before bathing, the energy consumption is high, the noise is high, the air heating type bathroom heater can enable a human body which has just been bathed to generate cold feeling when supplying air, and the comfortable sensation can also be reduced.

Regardless of lamp heating or air heating, the bathroom heater is generally installed at the top of a bathroom, the ceiling of the bathroom is lowered to a certain extent, the indoor height of the bathroom is reduced, and the product heating works at fixed power without realizing continuous temperature adjustment.

SUMMERY OF THE UTILITY MODEL

For solving the above-mentioned problem that exists among the background art, the utility model provides a novel bathroom heating device, it can also realize the automatic temperature adjustment when increasing heating travelling comfort, security to make the indoor temperature invariant.

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

a novel bathroom heating device is characterized in that the heating device comprises a shell, a heating element, a main control board, a partition board and a temperature control device; the partition plate is arranged in the inner cavity of the shell and divides the inner cavity into an upper-layer inner cavity and a lower-layer inner cavity; a heat dissipation protective layer is arranged on a bottom plate of the shell, and a heat insulation layer is arranged below the partition plate; the heating elements are flexible heating elements, are uniformly laid on the heat dissipation protective layer in the lower-layer inner cavity of the shell and are connected with the main control board in the upper-layer inner cavity of the shell; the temperature control device is independently installed on the wall surface of the bathroom and is connected with the main control board; the temperature control device opens and closes the heating element through the main control board for heating.

Furthermore, a reflecting layer is arranged between the clapboard and the heat insulation layer.

Furthermore, the heating device also comprises a plurality of temperature sensors, the temperature sensors are uniformly arranged in the heating elements and are respectively connected with the main control board, and the temperature sensors detect the real-time temperature of the heating elements and transmit the temperature information to the main control board.

Further, the temperature control device comprises an LED touch pad, a menu function area and a power switch; the menu function area and the power switch are respectively connected with the main control board through a circuit board inside the LED touch pad.

Further, the temperature control device also comprises a temperature selection key; the temperature selection key is connected with the main control board through the circuit board in the LED touch pad, the temperature control device further comprises a timer, and the timer is connected with the LED touch pad.

Further, the heating device further comprises an LED lamp strip, the LED lamp strip is arranged on the panel at the bottom of the shell, and the LED lamp strip is connected with the LED touch panel through the main control panel.

Further, the heating element comprises a flexible carbon material, the flexible carbon material comprises heat-resistant fiber cloth, a carbon fiber heating material, a graphene heating material or graphene fibers, the heat-resistant fiber cloth comprises a high-temperature-resistant fiber net layer and a microcrystalline graphite layer, and the microcrystalline graphite layer is coated on the outer side of the high-temperature-resistant fiber net layer.

Furthermore, the heating device also comprises an air interchanger which is arranged in the upper inner cavity of the shell and is connected with the main control panel.

Furthermore, the temperature control device further comprises a temperature and humidity sensor, the temperature and humidity sensor is connected with the main control board, and the temperature and humidity sensor is used for detecting indoor temperature and humidity; the main control board opens and closes the ventilation device according to the humidity information, and adjusts the heating quantity of the heating element according to the temperature information.

Furthermore, the ventilation device comprises a ventilation fan, a ventilation port and an air duct, the ventilation fan is installed in the upper inner cavity of the shell and is connected with the main control board, the ventilation fan is connected with the ventilation port through the air duct, and the ventilation port is arranged on the panel at the bottom of the shell.

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

the utility model discloses reduced heating installation thickness, the quality is light, has reduced the space that occupies when installing, has reduced the height that the ceiling descends, simple to operate, and the shape is not restricted by heating element, also can install around the bathroom at will. In addition, through the arrangement of the partition board, the heat insulation layer and the reflection layer, heat loss can be prevented, and the circuit of the main control board can be fully protected. Additionally, the utility model discloses a temperature regulating device can realize adjusting the temperature by oneself and adjust air humidity by oneself, the multiple heating mode user demand under the applicable different conditions.

Drawings

FIG. 1 is a top view of the novel bathroom heating device of the present invention;

FIG. 2 is a schematic structural view of the novel bathroom heating device of the present invention;

FIG. 3 is a schematic view of the structure of the fan device of the present invention;

fig. 4 is the utility model discloses well LED lamp area overall arrangement sketch map.

Wherein: the LED lamp comprises a shell 1, a heating element 2, a temperature sensor 3, a heat dissipation protective layer 4, a heat insulation layer 5, a reflection layer 6, a main control board 7, a partition board 8, an LED touch panel 9, a menu function area 10, a power switch 11, a temperature selection key 12, a temperature and humidity sensor 13, a ventilation fan 14, a ventilation port 15 and an LED lamp strip 16.

Detailed Description

The following description will be made in detail with reference to the accompanying drawings and examples. The following examples are merely illustrative of the present invention and are not intended to limit the scope of the present invention.

In the present specification, terms of orientation or positional relationship such as up, down, left, right, inside, outside, front, rear, head, and tail are established based on the orientation or positional relationship shown in the drawings. The corresponding positional relationship may also vary depending on the drawings, and therefore, should not be construed as limiting the scope of protection.

The present invention relates to a portable electronic device, and more particularly, to a portable electronic device, which can be connected to a portable electronic device, and can be connected to a portable electronic device through a connection structure, such as a connector, a. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

This example describes a novel bathroom heating device, which is installed in a bathroom through a housing 1, as shown in fig. 1, and the heating requirement of the bathroom is realized by using heat radiation generated from a heating element 2 made of a flexible carbon material.

The flexible carbon material can be heat-resistant fiber cloth which comprises a high-temperature-resistant fiber net layer and a microcrystalline graphite layer, the microcrystalline graphite layer is coated on the outer side of the high-temperature-resistant fiber net layer, and the flexible carbon material can also be a series of carbon-based flexible heating materials such as carbon fiber heating materials (one-dimensional filamentous and two-dimensional film), graphene heating materials (including one-dimensional graphene fiber/one-dimensional carbon nanotube, two-dimensional graphene film (paper), three-dimensional graphene), graphene fibers (one-dimensional filamentous and two-dimensional film) and the like. This flexible carbon material quality is light, has thermoelectric conversion efficiency height, the characteristics that the energy consumption is little, can reduce the heating element volume of preparing, and then reduces heating installation thickness, and heaies up rapidly, need not to preheat, and this flexible carbon material self has good thermal diffusivity simultaneously, and the accurate accuse temperature of being convenient for still has hydrophobic, antibacterial effect, and in addition, this flexible carbon material can wash, uses for a long time and also can not accumulate the bacterium, and the security performance is strong. When the flexible carbon material generates heat, the noise is low, the heat energy radiation generates far infrared light waves, no light irradiation is generated, no harm is caused to eyes, the far infrared light waves have an infrared physiotherapy function, no harmful electromagnetic wave radiation is generated, and the safety performance is high.

As shown in fig. 1, the housing 1 includes a top plate, a partition plate 8 and a panel, the partition plate 8 is disposed in an inner cavity of the housing 1, and divides the inner cavity into an upper space and a lower space, and simultaneously supports components mounted in the inner cavity of the upper layer, the top plate is located at the top of the upper layer, and the panel is located at the bottom of the lower layer.

The heating element 2 is arranged in the lower-layer inner cavity of the shell 1 and faces the bathroom after being arranged. The heating element 2 is a flexible heating element prepared from a flexible carbon material, is uniformly laid in the inner cavity of the lower layer of the shell 1 and is connected with a main control board 7 in the inner cavity of the upper layer of the shell 1, and the main control board 7 controls the heating element 2 to heat.

Still evenly be equipped with a plurality of temperature sensor 3 in heating element 2, a plurality of temperature sensor 3 link to each other with main control board 7 respectively, and temperature sensor 3 is used for detecting heating element 2's real-time temperature to give main control board 7 with temperature information transmission.

The panel at the bottom of the shell 1 is provided with a heat dissipation protective layer 4, the heat dissipation protective layer 4 is arranged at the bottom of the heating element 2 and used for protecting the heating element 2, and the heat dissipation protective layer 4 is made of high-heat-conductivity-coefficient materials, such as high-temperature-resistant black heat-conducting rubber, black heat-conducting cloth or black heat-conducting coatings.

The top of the lower-layer inner cavity of the shell 1 is provided with a heat insulation layer 5, the heat insulation layer 5 is used for preventing heat from upwards diffusing and is made of heat insulation materials, and the heat insulation materials can be a series of high temperature resistant, fireproof and incombustible mineral fiber materials such as aluminum silicate fiber cotton, slag fiber cotton, cotton wadding, glass fiber cotton and sea foam fiber cotton, or a series of incombustible and fireproof inorganic mineral materials such as vermiculite, expanded perlite and calcium silicate heat insulation light material.

Insulating layer 5 passes through reflecting layer 6 and sets up in the bottom of baffle 8, and aluminium foil, silver thick liquid reflective coating, aluminium silver thick liquid reflective coating, a series of reflective material of ceramic fibre are chooseed for use to reflecting layer 6, can be to indoor reflection heat, further prevent the heat upwards diffusion.

The main control board 7 is arranged in the upper-layer inner cavity of the shell 1 and is used for controlling the operation of the heating device.

The heating device is also provided with a temperature control device, as shown in fig. 2, the temperature control device comprises an LED touch panel 9, a menu function area 10, a power switch 11, a temperature selection key 12 and a temperature and humidity sensor 13, wherein the menu function area 10, the power switch 11, the temperature selection key 12 and the temperature and humidity sensor 13 are respectively connected with a main control panel 7 through a circuit board inside the LED touch panel 9, the menu function area 10 is used for displaying a plurality of preset heating modes of the heating device, including but not limited to modes of rapid heating, slow heating and the like, under different conditions, the suitable heating mode can be selected to meet the use requirement, the power switch 11 is used for switching on and off the power supply of the heating device, the temperature selection key 12 is used for selecting the preset temperature, a user can select the suitable temperature according to the physique, the temperature and humidity sensor 13 is used for detecting the indoor temperature and humidity, the heating mode, Temperature information, humidity information, and the like. The temperature control device has multiple heating modes for selection, so that the requirements under different conditions can be met, and self-help temperature adjustment can be realized under the cooperation of the heating element 2. In addition, the LED touch panel 9 can be connected with a timer to realize a timing heating function. The LED touch panel 9 may be separately installed on a bathroom wall surface.

The heating device can be additionally provided with a ventilation device, as shown in fig. 1 and fig. 3, the ventilation device comprises a ventilation fan 14, a ventilation port 15 and an air duct, the ventilation fan 14 is arranged in the upper inner cavity of the shell 1 and is connected with the main control board 7, the ventilation fan 14 is connected with the ventilation port 15 on the bottom panel of the shell 1 through the air duct, the ventilation port 15 can be arranged in parallel or in surrounding mode with the heating element 2, and the ventilation fan 14 is connected with the air duct leading to the outdoor through the ventilation port 15 on the side part to complete indoor ventilation.

In addition, because the flexible heating element that this flexible carbon-based material made is light, small, the heating installation mounted position of this embodiment is not restricted to the ceiling, when not adding breather, can also set up on the wall all around of bathroom with the hanging form, and the heating installation appearance is also not restricted to the rectangle commonly used, can realize the design of appearance shape variety, when satisfying the practicality, still can strengthen the aesthetic property.

In addition, the heating device can also realize the lighting function, for example, the LED lamp strip 16 is additionally arranged on the panel at the bottom of the shell 1 and surrounds the heating element 2, or the heating element 2 is divided into a plurality of parts to be arranged intermittently (see figure 4), and the LED lamp strip 16 is arranged in the gap. The LED lamp strip 16 is soft and bright in light and cannot stimulate eyes. The LED lamp strip 16 is connected with the LED touch panel 9 through the main control panel 7, and the LED touch panel 9 is used for completing the switching of the LED lamp strip 16.

The heating installation of this embodiment is when using, at first opens switch 11, selects suitable temperature and the heating mode of predetermineeing, then heating element 2 begins the radiant heat, promotes indoor temperature, and main control board 7 obtains real-time temperature and real-time humidity information through temperature and humidity sensor 13, adjusts heating element 2's the heating volume to and the opening and close of function of taking a breath, reach the constant temperature state in ensureing the bathroom, and humidity can not be too big, ensures user's travelling comfort and security.

While the principles of the invention have been described in detail in connection with the preferred embodiments thereof, it will be understood by those skilled in the art that the above-described embodiments are merely illustrative of exemplary implementations of the invention and are not limiting of the scope of the invention. The details in the embodiments do not constitute the limitations of the scope of the present invention, and any obvious changes such as equivalent transformation, simple replacement, etc. based on the technical solution of the present invention all fall within the protection scope of the present invention without departing from the spirit and scope of the present invention.

Claims (10)

1. A novel bathroom heating device is characterized by comprising a shell (1), a heating element (2), a main control board (7), a partition board (8) and a temperature control device; the partition plate (8) is arranged in the inner cavity of the shell (1) and divides the inner cavity into an upper-layer inner cavity and a lower-layer inner cavity; a heat dissipation protective layer (4) is arranged on a bottom plate of the shell (1), and a heat insulation layer (5) is arranged below the partition plate (8); the heating elements (2) are flexible heating elements, are uniformly laid on the heat dissipation protective layer (4) in the lower-layer inner cavity of the shell (1), and are connected with the main control board (7) in the upper-layer inner cavity of the shell (1); the temperature control device is independently arranged on the wall surface of the bathroom and is connected with the main control board (7); the temperature control device opens and closes the heating element (2) through the main control board (7) for heating.

2. A new bathroom heating installation according to claim 1, characterized in that a reflecting layer (6) is also provided between the partition (8) and the heat insulating layer (5).

3. The novel bathroom heating device according to claim 1, further comprising a plurality of temperature sensors (3), wherein the plurality of temperature sensors (3) are uniformly arranged in the heating element (2) and are respectively connected with the main control board (7), and the temperature sensors (3) detect the real-time temperature of the heating element (2) and transmit the temperature information to the main control board (7).

4. The new bathroom heating appliance according to claim 1, characterized in that the temperature control device comprises an LED touch pad (9), a menu function area (10) and a power switch (11); the menu function area (10) and the power switch (11) are respectively connected with the main control board (7) through a circuit board inside the LED touch pad (9).

5. The new bathroom heating appliance according to claim 4, characterized in that said temperature control device further comprises a temperature selection key (12); the temperature selection key (12) is connected with the main control board (7) through the circuit board inside the LED touch pad (9), the temperature control device further comprises a timer, and the timer is connected with the LED touch pad (9).

6. The novel bathroom heating device according to claim 4, characterized in that a panel is arranged at the bottom of the shell (1), the heating device further comprises an LED strip (16), the LED strip (16) is arranged on the panel at the bottom of the shell (1), and the LED strip (16) is connected with the LED touch pad (9) through the main control board (7).

7. The new bathroom heating installation according to claim 1, characterized in that the heating element (2) comprises a flexible carbon material comprising a heat resistant fiber cloth, a carbon fiber heating material, a graphene heating material or graphene fibers, the heat resistant fiber cloth comprising a high temperature resistant fiber mesh layer and a microcrystalline graphite layer, the microcrystalline graphite layer being wrapped outside the high temperature resistant fiber mesh layer.

8. The new bathroom heating installation according to claim 6, characterized in that it further comprises ventilation means, which are mounted in the upper inner cavity of the casing (1) and connected to the main control board (7).

9. The novel bathroom heating device according to claim 8, wherein the temperature control device further comprises a temperature and humidity sensor (13), the temperature and humidity sensor (13) is connected with the main control board (7), and the temperature and humidity sensor (13) is used for detecting indoor temperature and humidity; the main control board (7) opens and closes the ventilation device according to the humidity information, and the heating quantity of the heating element (2) is adjusted according to the temperature information.

10. The novel bathroom heating device according to claim 8, wherein the ventilation device comprises a ventilation fan (14), a ventilation port (15) and an air duct, the ventilation fan (14) is installed in the upper inner cavity of the housing (1) and connected with the main control board (7), the ventilation fan (14) is connected with the ventilation port (15) through the air duct, and the ventilation port (15) is arranged on the panel at the bottom of the housing (1).