CN215863679U - Bathroom heater with light anion module - Google Patents

Abstract

The utility model relates to the technical field of bath heaters, in particular to a bath heater with a light anion module, which comprises: the shell is provided with a ventilation net opening and a mounting opening; a lighting device mounted on the housing; the ventilation fan is arranged in the shell and is positioned at the ventilation net opening; the optical anion module comprises a module shell, an anion generator and an anion releaser, wherein the module shell is arranged on the mounting port and is provided with diffusion holes; the negative ion generator is arranged in the shell and is electrically connected with the negative ion releaser; the negative ion releaser is arranged in the module shell, and negative ions generated by the negative ion releaser can be diffused outwards through the diffusion holes. The bathroom heater is simpler in overall structure, smaller in structural change, lower in cost and more suitable for the existing bathroom heater, and only the mounting hole needs to be formed in the shell.

Description

Bathroom heater with light anion module

Technical Field

The utility model relates to the technical field of bath heaters, in particular to a bath heater with a photo-anion module.

Background

The BATHROOM warmer is derived from English "BATHROOM MASTER" and can be directly translated into "BATHROOM owner". The heating, infrared physiotherapy, bathroom ventilation, decoration and the like of the bathroom become essential parts of modern family fashion life through the ingenious combination of a specially-made waterproof infrared heat wave tube and a ventilation fan. The bathroom heater is a small household appliance product with low investment and high return, the manufacturing capital and technical threshold are not high, the bathroom heater is influenced by housing conditions, economic capability and consumption concept, and the bathroom heater market is mainly concentrated in large and medium-sized cities. With the more advanced technology and the more perfect quality, the ownership rate of the bathroom warmer in China families also rises year by year. Most of the existing bathroom heaters have simple functions, only have monotonous functions of illumination, ventilation and the like, and are difficult to meet the living needs of people; some bathroom heaters have increased the air purification function, but cause the overall structure of bathroom heater comparatively complicated, change current bathroom heater great.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a bathroom heater with a light anion module, and aims to solve the technical problems of single function and complex structure in the prior art.

In order to achieve the above object, the present invention provides a bathroom heater with a light anion module, comprising:

the shell is provided with a ventilation net opening and a mounting opening;

a lighting device mounted on the housing;

the ventilation fan is arranged in the shell and is positioned at the ventilation net opening;

the optical anion module comprises a module shell, an anion generator and an anion releaser, wherein the module shell is arranged on the mounting port, and the module shell is provided with diffusion holes; the negative ion generator is arranged in the shell and is electrically connected with the negative ion releaser; the anion releaser is installed in the module casing, just the anion accessible that the anion releaser produced the diffusion hole outdiffusion. The mounting opening is formed in the shell, and then the light anion module is arranged on the mounting opening, so that the overall structure is simpler; the structure of bathroom heater changes lessly, only need set up on the shell the installing port can, the cost is lower, is applicable to current bathroom heater more.

Preferably, the module casing includes lid and module protecgulum behind the module, the module protecgulum inlays to be established in the lid behind the module, the diffusion hole is seted up on the module protecgulum, the outer loop of module protecgulum with form the clearance between the lower terminal surface of lid behind the module, the lateral wall card of shell is established in the clearance. The structure of the light anion module is more compact, the volume is smaller, the light anion module can be more conveniently installed on the shell, and the light anion module is convenient to assemble and disassemble.

Preferably, the module rear cover is provided with a mounting hole, and the module front cover is provided with a hollow connecting column corresponding to the mounting hole; the fastener penetrates through the mounting hole and is inserted into the hollow connecting column so as to fixedly connect the module rear cover with the module front cover; the module rear cover is provided with a concave hole, and the fastener is located in the concave hole. Set up the fastener and cover behind the module and module protecgulum connection fixed, can improve the stability of light anion module structure, and easily install the module casing on the shell.

Preferably, a first mounting column is arranged in the module front cover, the negative ion releaser is arranged on a negative ion circuit board, and the negative ion circuit board is fixed on the first mounting column. The first mounting column is arranged to more firmly mount the negative ion releaser in the front cover of the module.

Preferably, the module front cover is provided with a first surrounding column at the diffusion hole, and the negative ion releaser is positioned in the first surrounding column. The first enclosing column is arranged to completely divide the negative ion releaser from other electronic devices, so that the high voltage or electrified sparks of the negative ion releaser in the negative ion releasing process are prevented from damaging other electronic devices, and the negative ion releaser can be conveniently positioned.

Preferably, the anion light module further comprises an ultraviolet light source arranged in the module shell, and the module front cover is provided with a light hole for ultraviolet rays emitted by the ultraviolet light source to pass through. The light anion module is equipped with anion release ware and ultraviolet light source simultaneously, has had air-purifying and the sterile function of disinfecting concurrently, and the disinfection effect of just disinfecting is better.

Preferably, the ultraviolet light source comprises a light source circuit board and an ultraviolet LED installed on the light source circuit board, a second surrounding column is arranged at the position, where the light-transmitting hole is formed, of the module front cover, and the ultraviolet LED is located in the second surrounding column. The second enclosing column is arranged to completely separate the negative ion releaser from the ultraviolet LED, so that the damage of the negative ion releaser to the ultraviolet LED caused by high voltage or electrified sparks in the negative ion releasing process is avoided, and the ultraviolet LED can be conveniently positioned.

Preferably, a second mounting column is arranged in the module front cover, and the light source circuit board is fixed on the second mounting column. The second mounting column is arranged to more firmly mount the light source circuit board on the module front cover.

Preferably, the air conditioner further comprises a heating device and a blowing fan, wherein the heating device is arranged in the shell and used for heating air, the shell is provided with an air blowing net opening, and the blowing fan is located in the shell and located at the air blowing net opening. The bathroom heater possesses the heating function, and is more practical.

The utility model relates to a bathroom heater with a light anion module, which at least has the following beneficial effects: the mounting opening is formed in the shell, and then the light anion module is arranged on the mounting opening, so that the overall structure is simpler; the structure of the bathroom heater is slightly changed, only the mounting hole needs to be formed in the shell, the cost is lower, and the bathroom heater is more suitable for the existing bathroom heater; anion generator sets up in the shell, can reduce the volume of module casing, consequently conveniently sets up the installing port, and conveniently installs module casing in installing port department.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

FIG. 1 is a schematic view of the structure of the super bath of the present invention;

FIG. 2 is a schematic cross-sectional view of the super bath according to the present invention;

FIG. 3 is a schematic structural view of the housing of the present invention;

FIG. 4 is a schematic structural diagram of an anion module according to the present invention;

FIG. 5 is an exploded view of the negative ion module according to the present invention;

FIG. 6 is a schematic view of a negative ion module according to the present invention;

FIG. 7 is a schematic structural view of a rear cover of the module of the present invention;

FIG. 8 is a schematic structural diagram of a front cover of the module according to the present invention.

In the drawings: 1-housing, 11-ventilation net port, 12-mounting port, 13-blowing net port, 2-lighting device, 21-LED light source, 22-diffusion plate, 23-light source driver, 3-ventilation fan, 4-fan motor capacitor,

6-optical anion module, 61-module shell, 611-module rear cover, 6111-mounting hole, 6112-concave hole, 6113-threading hole, 612-module front cover, 6121-diffusion hole, 6122-hollow connecting column, 6123-first mounting column, 6124-first surrounding column, 6125-light-transmitting hole, 6126-second surrounding column, 6127-second mounting column, 613-gap, 62-anion generator, 63-anion releaser, 64-fastener, 65-anion circuit board, 66-ultraviolet light source, 661-light source circuit board, 662-ultraviolet LED and 7-blower fan.

The implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that, if directional indications (such as up, down, left, right, front, and back … …) are involved in the embodiment of the present invention, the directional indications are only used to explain the relative positional relationship between the components, the movement situation, and the like in a specific posture (as shown in the drawing), and if the specific posture is changed, the directional indications are changed accordingly.

In addition, if there is a description of "first", "second", etc. in an embodiment of the present invention, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, technical solutions between various embodiments may be combined with each other, but must be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present invention.

As shown in fig. 1 to 8, a super bath with photo-anion module comprises:

the shell 1 is provided with a ventilation net opening 11 and a mounting opening 12;

a lighting device 2 mounted on the housing 1;

a ventilation fan 3 installed in the housing 1 at the ventilation net opening 11;

the optical anion module 6 comprises a module shell 61, an anion generator 62 and an anion releaser 63, wherein the module shell 61 is installed on the installation opening 12, and the module shell 61 is provided with a diffusion hole 6121; the negative ion generator 62 is installed in the housing 1 and is electrically connected with the negative ion releaser 63; the negative ion releaser 63 is installed in the module case 61, and the negative ions generated by the negative ion releaser 63 can be diffused outward through the diffusion holes 6121.

The housing 1 is a hollow casing, and is provided with a ventilation net opening 11 for ventilation and a mounting opening 12 for mounting the photo-anion module 6. The lighting device 2 is used for emitting light outwards to achieve the purpose of lighting; specifically, the lighting device 2 includes an LED light source 21, a diffusion plate 22, and a light source driver 23; the light source driver 23 is installed in the housing 1 and used for controlling the turning on or off of the LED light source 21; the LED light source 21 is arranged on the shell 1 and faces outwards, and can emit and emit illumination light outwards; the diffusion plate 22 is installed on the housing 1 and located at the front end of the LED light sources 21, i.e. the light emitted from the LED light sources 21 is emitted out through the diffusion plate 22. A ventilation fan 3 is installed in the housing 1, the ventilation fan 3 is positioned at the ventilation net opening 11, and the ventilation fan 3 is used for accelerating the circulation of air; a fan motor capacitor 4 is also arranged on the shell 1, and the fan motor capacitor 4 is electrically connected with the ventilation fan 3, in particular to an electric motor in the ventilation fan 3; an alternating current motor is adopted in the ventilation fan 3, the alternating current motor is connected with a capacitor, and simply, the capacitor generates phase difference, so that the magnetic field of the motor generates 'asynchronism', and the motor rotates; the ventilation fan 3 is rotated by the fan motor capacitor 4; the general controller (not shown) can control the opening or closing of the ventilating fan 3, and control the forward and reverse rotation of the ventilating fan 3 to control the air blowing direction. The photo-anion module 6 comprises a module shell 61, an anion generator 62 and an anion releaser 63, the module shell 61 is a hollow shell-shaped structure, the module shell 61 is provided with diffusion holes 6121, the diffusion holes 6121 face outwards, the anion releaser 63 is installed in the module shell 61 and is positioned at the diffusion holes 6121, the anion generator 62 is installed in the shell 1, the anion generator 62 is electrically connected with the anion releaser 63, the anion generator 62 can control the anion releaser 63 to release high voltage so as to generate anions, and the generated anions can be diffused outwards through the diffusion holes 6121 to purify air and sterilize air. The anion releaser 63 can be an anion carbon brush or an anion needle tip; the negative ion carbon brush is impact-resistant, and the negative ion needle point is easy and convenient and can be selected according to requirements. The photo anion module 6 further comprises an anion driver (not shown in the figure) installed in the housing 1 for controlling the anion generator 62 to provide high voltage electricity to the anion releaser 63. The negative ion releaser 63 is electrically connected with the negative ion generator 62 through an electric wire, and the negative ion releaser 63 is installed in the module housing 61, so that a threading hole 6113 through which the power supply wire passes is formed in the module housing 61.

The existing bathroom warmer generally has the functions of illumination, bathroom ventilation, decoration and the like; some bath heaters with powerful functions are added with air purification function or sterilization and disinfection function, but the added air purification equipment or sterilization and disinfection equipment has larger volume and is very troublesome in the process of combining with the bath heaters, so that the structure of the bath heaters is greatly changed, the structure becomes more complex, and the whole production cost is higher. According to the technical scheme, the mounting hole 12 is formed in the shell 1, and then the light anion module is arranged on the mounting hole 12, so that the overall structure is simpler; the structure of the bathroom heater is slightly changed, and only the mounting hole 12 needs to be formed in the shell 1, so that the cost is lower, and the bathroom heater is more suitable for the existing bathroom heater; the anion generator 62 is arranged in the housing 1, which can reduce the volume of the module case 61, thereby conveniently opening the mounting opening 12 and conveniently installing the module case 61 at the mounting opening 12.

Further, the module housing 61 includes a module rear cover 611 and a module front cover 612, the module front cover 612 is embedded in the module rear cover 611, the diffusion hole 6121 is formed in the module front cover 612, a gap 613 is formed between an outer ring of the module front cover 612 and a lower end surface of the module rear cover 611, and the side wall of the housing 1 is clamped in the gap 613.

The module rear cover 611 is a hollow structure with an open lower end, the module front cover 612 is a hollow structure with an open upper end, the module front cover 612 is embedded into the module rear cover 611 through the lower end of the module rear cover 611 to form a closed module housing 61 structure, but the outer ring of the lower end of the module front cover 612 is located outside the module rear cover 611, and a gap 613 is formed between the outer ring and the lower end surface of the module rear cover 611, the gap 613 is used for clamping the side wall of the housing 1; that is, when the module case 61 is mounted at the mounting opening 12, the outer ring of the lower end of the module front cover 612 is positioned outside the housing 1, the other portions of the module front cover 612 and the module rear cover 611 are positioned inside the housing 1, and the module case 61 is mounted at the mounting opening 12 by assembling the module front cover 612 and the module rear cover 611 to each other. The diffusion hole 6121 is specifically formed in the module front cover 612, and the threading hole 6113 is specifically formed in the module rear cover 611. The structure of the module shell 61 is set up in such a way that the structure of the photo-anion module 6 is more compact, the volume is smaller, the photo-anion module is more conveniently mounted on the shell 1, and the assembly and disassembly are convenient.

Further, the module rear cover 611 is provided with a mounting hole 6111, and the module front cover 612 is provided with a hollow connecting column 6122 corresponding to the mounting hole 6111; the fastener 64 penetrates through the mounting hole 6111 and is inserted into the hollow connecting column 6122 so as to fixedly connect the module rear cover 611 with the module front cover 612; the module rear cover 611 is provided with a recessed hole 6112, and the fastener 64 is located in the recessed hole 6112.

The module rear cover 611 and the module front cover 612 are fixedly connected through the fastener 64, the module front cover 612 is embedded on the module rear cover 611, the mounting hole 6111 corresponds to the hollow connecting column 6122, the fastener 64 penetrates through the mounting hole 6111 and is inserted into the hollow connecting column 6122, the deeper the fastener 64 is inserted, the tighter the connection between the module rear cover 611 and the module front cover 612 is, the smaller the gap 613 between the outer ring of the module front cover 612 and the lower end face of the module rear cover 611 is, so that the side wall of the housing 1 clamped in the gap 613 is clamped more tightly, and the photo-anion module 6 is more stably installed on the housing 1. The module rear cover 611 and the module front cover 612 are fixedly connected by the fastener 64, so that the structural stability of the photo-anion module 6 can be improved, and the module shell 61 is easily installed on the shell 1; the size of the gap 613 can be adjusted by adjusting the fastener 64, so that the module shell 61 is more stably installed; the size of the gap 613 is adjustable, so that the module case 61 can be adapted to be mounted on the housings 1 having different side wall thicknesses, and the module case 61 can be used in cooperation with housings 1 of various specifications and styles. The concave hole 6112 is formed, so that the exposed fastener 64 can be hidden, and the attractiveness of the product is guaranteed; the recessed aperture 6112 also facilitates positioning of the fastener 64 and facilitates installation of the fastener 64.

Specifically, the inner wall of the hollow connecting column 6122 is provided with an internal thread, and the outer wall of the fastening member 64 is provided with an external thread matched with the internal thread. The fastening member 64 is a screw, and the outer wall of the fastening member 64 is provided with an external thread (not shown), the inner wall of the hollow connecting column 6122 is provided with an internal thread (not shown) connected with the external thread, the fastening member 64 is screwed into the hollow connecting column 6122 through the mounting hole 6111 in a rotating manner, and the deeper the fastening member 64 is screwed, the smaller the gap 613 is. The fastener 64 and the hollow connecting column 6122 are arranged in a threaded connection mode, the size of the gap 613 can be conveniently adjusted, and the module shell 61 can be more stably installed on the lamp by screwing the fastener 64 when the module shell 61 is installed on the shell 1.

Further, a first mounting column 6123 is arranged in the module front cover 612, the negative ion releaser 63 is mounted on a negative ion circuit board 65, and the negative ion circuit board 65 is fixed on the first mounting column 6123.

The anion circuit board 65 can be simultaneously provided with a plurality of anion releasers 63, and the module front cover 612 can be provided with a plurality of diffusion holes 6121 corresponding to the anion releasers 63 one by one. A first mounting hole 6111 extending upwards is formed in the module front cover 612, and the negative ion circuit board 65 is fixed on the first mounting hole 6111 so as to mount and fix the negative ion releaser 63. Specifically, the interior of the first mounting column 6123 is hollow, a through hole is formed in the negative ion circuit board 65, and a connecting member passes through the through hole in the negative ion circuit board 65 and is inserted into the interior of the first mounting column 6123 to fix the negative ion circuit board 65 on the first mounting column 6123; preferably, an internal thread may be disposed on the hollow sidewall inside the first mounting column 6123, and the negative ion circuit board 65 may be more stably mounted on the first mounting column 6123 by using a screw as a connector through threaded connection; in other embodiments, the first mounting post 6123 may also be inserted directly into a through hole on the negative ion circuit board 65. The provision of the first mounting post 6123 allows the negative ion releaser 63 to be more securely mounted within the module front cover 612.

Further, the module front cover 612 is provided with a first surrounding column 6124 at the diffusion hole 6121, and the negative ion releaser 63 is located in the first surrounding column 6124.

The first surrounding column 6124 is a hollow cylindrical mechanism with two open ends, the first surrounding column 6124 is arranged at the diffusion hole 6121, that is, the first surrounding column 6124 is arranged at the diffusion hole 6121, and the negative ion releaser 63 is arranged in the first surrounding column 6124. The arrangement of the first surrounding column 6124 can completely separate the negative ion releaser 63 from other electronic devices, thereby avoiding the damage of high voltage or charged sparks of the negative ion releaser 63 in the process of releasing negative ions to other electronic devices, and being convenient for positioning the negative ion releaser 63.

Further, the photo-anion module 6 further includes an ultraviolet light source 66 disposed in the module housing 61, and the module front cover 612 is provided with a light hole 6125 through which ultraviolet light emitted from the ultraviolet light source 66 passes.

The ultraviolet light source 66 can emit ultraviolet light outwards, and the emitted ultraviolet light can be emitted outwards through the light-transmitting hole 6125 to sterilize the air; on the other hand, the ultraviolet light source 66 can emit ultraviolet light with a wave band of 250 nm-300 nm, and can generate oxygen under the action of ozone generated by the negative ion releaser 63 during working, so that the harm of the ozone to human bodies is reduced. The light anion module 6 is provided with the anion releaser 63 and the ultraviolet light source 66 at the same time, has the functions of purifying air and sterilizing, and has better sterilizing effect. Compare in current bathroom heater that has the disinfection function of disinfecting, this technical scheme light anion module 6's structure is simpler, makes things convenient for more to set up on the bathroom heater, and the loading and unloading is nimble.

Further, the ultraviolet light source 66 includes a light source circuit board 661 and an ultraviolet LED662 installed on the light source circuit board 661, the module front cover 612 is provided with a second surrounding column 6126 at the light-transmitting hole 6125, and the ultraviolet LED662 is located in the second surrounding column 6126.

The light source circuit board 661 can be simultaneously installed with a plurality of uv LEDs 662, and the module front cover 612 can be opened with a plurality of light holes 6125 corresponding to the uv LEDs 662 one-to-one. The second surrounding column 6126 has the same structure as the first surrounding column 6124, and is a hollow cylinder structure with openings at the upper and lower ends, the second surrounding column 6126 is arranged at the position of the light hole 6125, that is, the second surrounding column 6126 is arranged at the position of the light hole 6125, and the ultraviolet LED662 is located in the second surrounding column 6126. The arrangement of the second surrounding column 6126 can completely separate the negative ion releaser 63 from the ultraviolet LED662, thereby preventing the ultraviolet LED662 from being damaged by high voltage or charged sparks generated during the process of releasing negative ions from the negative ion releaser 63, and facilitating the positioning of the ultraviolet LED 662.

Further, a second mounting post 6127 is arranged in the module front cover 612, and the light source circuit board 661 is fixed on the second mounting post 6127.

The structure of the second mounting post 6127 is the same as that of the first mounting post 6123, and the matching manner between the light source circuit board 661 and the second mounting post 6127 may refer to the matching manner between the first mounting post 6123 and the negative ion circuit board 65, which is not repeated herein. The provision of the second mounting post 6127 allows the light source circuit board 661 to be more securely mounted on the module front cover 612.

Further, the air-conditioner also comprises a heating device and a blowing fan 7, wherein the heating device is arranged in the shell 1 and is used for heating air, the shell 1 is provided with an air blowing net opening 13, and the blowing fan 7 is positioned in the shell 11 and is positioned at the air blowing net opening 13.

The bathroom heater provided by the embodiment further has a heating function, specifically, a heating device (not shown in the figure) and a blowing fan 7 are arranged in the shell 11, the heating device can heat air, and the blowing fan 7 blows the heated air out through the blowing net port 13, so that the temperature of the air blown out is high, and the heating function is achieved.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention, and all modifications and equivalents of the present invention, which are made by the contents of the present specification and the accompanying drawings, or directly/indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (9)

1. The utility model provides a bathroom heater with light anion module which characterized in that includes:

the shell (1) is provided with a ventilation net opening (11) and a mounting opening (12);

a lighting device (2) mounted on the housing (1);

a ventilation fan (3) mounted inside the housing (1) and located at the ventilation screen opening (11);

the light negative ion module (6) comprises a module shell (61), a negative ion generator (62) and a negative ion releaser (63), wherein the module shell (61) is installed on the installation opening (12), and the module shell (61) is provided with a diffusion hole (6121); the negative ion generator (62) is arranged in the shell (1) and is electrically connected with the negative ion releaser (63); the negative ion releaser (63) is arranged in the module shell (61), and the negative ions generated by the negative ion releaser (63) can be diffused outwards through the diffusion holes (6121).

2. The bathroom heater with the photo-anion module according to claim 1, wherein the module housing (61) comprises a module rear cover (611) and a module front cover (612), the module front cover (612) is embedded in the module rear cover (611), the diffusion hole (6121) is formed in the module front cover (612), a gap (613) is formed between an outer ring of the module front cover (612) and a lower end face of the module rear cover (611), and a side wall of the housing (1) is clamped in the gap (613).

3. The bathroom heater with the photo-anion module according to claim 2, wherein a mounting hole (6111) is formed in the module rear cover (611), and a hollow connecting column (6122) corresponding to the mounting hole (6111) is arranged in the module front cover (612); a fastener (64) penetrates through the mounting hole (6111) and is inserted into the hollow connecting column (6122) so as to connect and fix the module rear cover (611) and the module front cover (612);

the module rear cover (611) is provided with a concave hole (6112), and the fastener (64) is located in the concave hole (6112).

4. The bathroom heater with photo-anion module according to claim 2, wherein a first mounting column (6123) is arranged in the module front cover (612), the anion releaser (63) is mounted on an anion circuit board (65), and the anion circuit board (65) is fixed on the first mounting column (6123).

5. The bathroom heater with photo-anion module according to claim 2, wherein the module front cover (612) is provided with a first surrounding column (6124) at the diffusion hole (6121), and the anion releaser (63) is positioned in the first surrounding column (6124).

6. The bathroom heater with the photo-anion module according to claim 2, wherein the photo-anion module (6) further comprises an ultraviolet light source (66) disposed in the module housing (61), and the module front cover (612) is opened with a light hole (6125) for ultraviolet rays emitted from the ultraviolet light source (66) to pass through.

7. The bathroom heater with the photo-anion module according to claim 6, wherein the ultraviolet light source (66) comprises a light source circuit board (661) and an ultraviolet LED (662) mounted on the light source circuit board (661), the module front cover (612) is provided with a second surrounding pillar (6126) at the light transmission hole (6125), and the ultraviolet LED (662) is located in the second surrounding pillar (6126).

8. The bathroom heater with the photo-anion module according to claim 7, wherein a second mounting column (6127) is arranged in the module front cover (612), and the light source circuit board (661) is fixed on the second mounting column (6127).

9. The bathroom heater with the photo-anion module according to claim 1, further comprising a heating device and a blowing fan (7), wherein the heating device is arranged in the housing (1) and used for heating air, the housing (1) is provided with a blowing net opening (13), and the blowing fan (7) is arranged in the housing (1) and located at the blowing net opening (13).

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