CN116358022A - High-efficiency heat energy ring bathroom heater - Google Patents

Abstract

The invention relates to the technical field of bathroom heaters, in particular to a high-efficiency heat energy ring bathroom heater; comprising the following steps: when the first horn rotates, the fan blades in the first horn rotate, when the fan blades rotate, the fan blades drive the air flow below, when the air flow below flows, cold air flows through the PTC ceramic or carbon fiber heating element from a gap between the installation box and the lower panel and blows out to form warm air, after the hot air passes through the heating element, the warm air enters the air outlet, the warm air contacts with the flow distribution disc, the flow distribution disc enables the warm air to be unable to be blown out from the top directly, the warm air is forced to be blown out from an annular gap between the flow distribution disc and the cylindrical groove, and therefore the bathroom is heated, and the hot air circulates and flows to drive the indoor temperature rise through the bathroom heater; and further, the heating effect is balanced, and the whole space can be warmed.

Description

High-efficiency heat energy ring bathroom heater

Technical Field

The invention relates to the technical field of bathroom heaters, in particular to a high-efficiency heat energy ring bathroom heater.

Background

The bathroom heater is a small household appliance for bathroom which combines the functions of heating, infrared physiotherapy, bathroom ventilation, decoration and the like of a bathroom into a whole through the ingenious combination of a special waterproof infrared thermal wave tube and a ventilating fan;

the bathroom heater is mainly used in a bathroom, particularly in a city which does not have heating in the south or in winter, and when a person takes a bath in winter, the bathroom heater is required to heat the bathroom in advance for coping with cold air;

the bathroom heater is more in variety and mainly comprises;

the bulb series bathroom heater takes a special infrared quartz heating bulb as a heat source, heats indoor air by direct radiation, does not need preheating, and can instantly obtain a large-scale heating effect;

the PTC (ceramic electric heating element) series air heating bathroom warmer takes the PTC ceramic heating element as a heat source, has the advantages of quick temperature rise, high heat efficiency, no luminescence, no open fire, long service life and the like, has double safety function, and is very safe and reliable;

the heating series bathroom heater adopts far infrared radiation heating bulbs and PTC ceramic heating elements to heat in a combined way, so that the heating is faster and the heat efficiency is higher;

the heating flow series bathroom heater is divided into a thermal energy annular bathroom heater and a direct-current bathroom heater;

but the air is far away from the heating element by an air inlet and an air outlet, the working principle is that the fan is controlled to promote the air to flow, and the cold air enters from the air inlet and flows through the heating element to be blown out to become warm air, so that the temperature of the bathroom is heated by circulation;

but still has the following drawbacks;

when a user is bathing, the warm-flow bathroom heater is not suitable to be faced to a place for bathing; the warm-flow type bathroom heater uses hot air blown out from the machine to heat, and the heating body is used for transmitting and conducting heat energy; the evaporation rate of body profile moisture is also accelerated, more heat is taken away, and when warm-flow bathroom heater carries out the direct blowing to the user, the user can feel that the steam flows to oneself, and when the direct blowing of hotter air current to the human body, the user breathes, can feel nasal cavity uncomfortable.

In summary, in order to solve the technical problems presented herein, the invention provides a high-efficiency heat energy ring bathroom heater

Disclosure of Invention

In order to make up the defects of the prior art, the invention provides a high-efficiency heat energy ring bathroom heater to solve the technical problems.

The technical scheme adopted for solving the technical problems is as follows: an efficient heat energy ring bathroom warmer is provided with a box, a lower panel and an air exchanging port; the lower panel is fixedly connected to the lower end of the installation box, and a gap is reserved between the installation box and the lower panel; the air exchanging opening is arranged at the lower end of the mounting box and is positioned in a gap between the mounting box and the lower panel, and the air exchanging opening further comprises;

the air outlet is formed in the center of the lower panel and is circular;

the cylindrical groove is formed in the bottom surface of the mounting box, and a driving motor is arranged in the cylindrical groove;

the first horn is rotationally connected inside the cylindrical groove and fixedly connected with the output shaft of the driving motor; the inner wall of the first horn is fixedly connected with fan blades;

the heating element is arranged below the first horn and is positioned above the air outlet;

the flow distribution disc is arranged in the middle of the air outlet and is rotationally connected with the first horn through a supporting rod;

the adjusting component is arranged at the air outlet on the lower panel and is used for adjusting the air outlet direction of the air outlet.

Further, an arc surface is arranged at the outlet end of the air outlet, and the arc surface is inwards concave at one side of the air outlet.

Further, the adjusting assembly comprises a main body and a regulating component,

the annular plate is arranged on the arc-shaped surface of the air outlet, and the radian of the annular plate is the same as that of the arc-shaped surface of the air outlet; the annular plate is tightly attached to the arc-shaped surface; one end of the annular plate, which is positioned at the inner side of the air outlet, is fixedly connected with the inner wall of the air outlet, and the annular plate is made of elastic materials;

the connecting plate is positioned between the annular plate and the flow distribution disc, one end of the connecting plate is hinged with the lower side of the annular plate, and the other end of the connecting plate is hinged with the side face of the flow distribution disc;

the electric telescopic rod is arranged at the lower end of the supporting rod, and one end of the electric telescopic rod is fixedly connected with the middle part of the flow distribution disc.

Further, the annular plate is located one end outside the air outlet and is evenly provided with a strip-shaped groove.

Further, the upper end surfaces of the connecting plates are arc-shaped, and the connecting plates are used for realizing airflow diversion.

Further, the up end of flow distribution plate has evenly offered the spout, every the inside equal sliding connection of spout has the slide bar, just the slide bar other end with the branch articulates, just the outside of slide bar evenly is provided with the folded sheet.

Further, the folding piece is an activated carbon composite filter cloth manufactured by the composite material of activated carbon and filament non-woven fabrics.

Further, the filter holes are uniformly formed in the side wall of the first horn, and the lower end of the first horn stretches into the air outlet.

The beneficial effects of the invention are as follows:

1. according to the high-efficiency heat energy ring bathroom heater, when the first horn rotates, the fan blades in the first horn rotate, when the fan blades rotate, the fan blades drive air flow below, when the air flow below flows, cold air flows through the PTC ceramic or carbon fiber heating element from a gap between the mounting box and the lower panel, and blows out to form warm air, when hot air passes through the heating element, the warm air enters the air outlet, the warm air contacts with the splitter plate, the splitter plate enables the warm air not to be blown out from the top directly, and the warm air is forced to be blown out from an annular gap between the splitter plate and the cylindrical groove, so that the heating of the bathroom is realized, and the indoor heating is driven by the circulation flow of the warm air through the bathroom heater; and further, the heating effect is balanced, and the whole space can be warmed.

2. According to the high-efficiency heat energy ring bathroom heater, when air flows into the air outlet through the gap between the lower panel and the installation box, in the process, the air passes through the heating unit and then flows out of the air outlet, the air flow is blocked by the flow distribution disc when the air passes through the air outlet, so that the air flows out of the annular gap between the flow distribution disc and the air outlet, when the air flows through the air outlet, the arc-shaped surface on the air outlet is blown by the air flow, the air flow is guided back by the arc-shaped surface, and when the air flows out of the bathroom heater, the space area of the air flow blown out of the bathroom is larger, so that direct blowing of the air to a user by the heater is avoided, and the use efficiency of the bathroom heater is improved.

Drawings

The invention will be further described with reference to the drawings and embodiments.

FIG. 1 is a perspective view of the present invention;

FIG. 2 is a perspective view of the other view of FIG. 1;

FIG. 3 is a half cross-sectional view of FIG. 1;

FIG. 4 is a view of the structure of the manifold of FIG. 3;

FIG. 5 is a view showing the structure of the lower panel of the present invention;

FIG. 6 is a view of the construction of a horn and manifold of the present invention;

FIG. 7 is a view of the structure of the splitter plate and the annular plate of the present invention;

in the figure: the mounting box 1, the lower panel 2, the air exchanging port 3, the air outlet 21, the arc-shaped surface 211, the cylindrical groove 22, the driving motor 23, the first horn 24, the filter hole 241, the fan blade 25, the heating element 4, the distribution plate 26, the sliding groove 261, the sliding rod 262, the folding piece 263, the supporting rod 27, the adjusting component 5, the annular plate 51, the connecting plate 52, the electric telescopic rod 53 and the strip-shaped groove 54.

Detailed Description

The invention is further described in connection with the following detailed description in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the invention easy to understand.

Embodiment 1,

An efficient heat energy ring bathroom warmer is provided with a box 1, a lower panel 2 and an air exchanging port 3; the lower panel 2 is fixedly connected to the lower end of the mounting box 1, and a gap is reserved between the mounting box 1 and the lower panel 2; the air exchanging port 3 is arranged at the lower end of the mounting box 1, and the air exchanging port 3 is positioned in a gap between the mounting box 1 and the lower panel 2 and further comprises;

the air outlet 21 is formed in the center of the lower panel 2, and the air outlet 21 is circular;

the cylindrical groove 22 is formed in the bottom surface of the installation box 1, and a driving motor 23 is arranged in the cylindrical groove 22;

the first horn 24 is rotatably connected inside the cylindrical groove 22, and the first horn 24 is fixedly connected with the output shaft of the driving motor 23; the inner wall of the first horn 24 is fixedly connected with a fan blade 25;

the heating element 4, the heating element 4 is set up under a horn 24, and the heating element 4 is located above the air outlet 21;

the flow distribution disc 26 is arranged in the middle of the air outlet 21, and the flow distribution disc 26 is rotationally connected with the first horn 24 through a supporting rod 27;

the adjusting component 5 is arranged at the air outlet 21 on the lower panel 2, and the adjusting component 5 is used for adjusting the air outlet direction of the air outlet 21;

an arc surface 211 is arranged at the outlet end of the air outlet 21, and the arc surface 211 is inwards concave at one side of the air outlet 21;

the adjustment assembly 5 comprises a plurality of adjustment members,

the annular plate 51, the annular plate 51 is set up on the arcuate surface 211 of the air outlet 21, and the radian of the annular plate 51 is the same as arcuate surface 211 of the air outlet 21; and the annular plate 51 is tightly attached to the arc surface 211; one end of the annular plate 51 positioned at the inner side of the air outlet 21 is fixedly connected with the inner wall of the air outlet 21, and the annular plate 51 is made of elastic materials;

the connecting plate 52, the connecting plate 52 is located between annular plate 51 and the flow distribution plate 26, and one end of the connecting plate 52 is hinged with the lower side of the annular plate 51, and the other end is hinged with the side surface of the flow distribution plate 26;

the electric telescopic rod 53 is arranged at the lower end of the supporting rod 27, and one end of the electric telescopic rod 53 is fixedly connected with the middle part of the flow distribution disc 26;

firstly, when the installation is carried out, a worker is required to install the driving motor 23 in the cylindrical groove 22, after the driving motor 23 is installed in the cylindrical groove 22, the worker installs the first horn 24 on the output shaft of the driving motor 23, then installs the air exchanging port 3 on the installation box 1, and connects the air exchanging port 3 with the ventilation pipe in the bathroom, then the worker installs the supporting rod 27 in the first horn 24, and it is worth mentioning that the supporting rod 27 is not contacted with the fan blade 25 in the first horn 24, the supporting rod 27 passes through the middle part of the fan blade 25, and the connection mode of the supporting rod 27 and the inner wall of the first horn 24 is that the supporting rod 27 is connected through a bearing, so that the supporting rod 27 can be kept motionless when the first horn 24 rotates, after the installation of the supporting rod 27 is completed, the worker installs the lower panel 2 with the installation box 1, and gaps are formed between the lower panel 2 and the installation box 1 at four corners of the installation box 1; after the installation of the lower panel 2 is completed, the diverter disc 26 and the electric telescopic rod 53 are installed on the supporting rod 27, and after the installation is completed, the diverter disc 26 blocks the middle part of the lower end of the air outlet 21; the staff then installs the mounting box 1 and the lower panel 2 on the roof of the bathroom;

when the bathroom heater is used by personnel after the installation is completed, the personnel can be used for controlling the bathroom heater to be opened by using a remote controller or a control panel of the bathroom heater, which is positioned on a wall;

when the bathroom heater uses warm air, a controller in the bathroom heater controls the heating element 4 to generate heat, wherein the heating element 4 can be PTC ceramic or carbon fiber of the heating element 4 to realize heating; when the driving motor 23 rotates, the driving motor 23 drives the first horn 24 to rotate, when the first horn 24 rotates, the fan blades 25 in the first horn 24 rotate, when the fan blades 25 rotate, the fan blades 25 pump air flow downwards, when the air flow downwards flows, cold air flows through the PTC ceramic or carbon fiber heating element from a gap between the mounting box 1 and the lower panel 2, and is blown out to become warm air, after the warm air passes through the heating element 4, the warm air enters the air outlet 21, the warm air contacts with the flow distribution disc 26, the flow distribution disc 26 enables the warm air to be not blown out directly from the top, the warm air is forced to be blown out from an annular gap between the flow distribution disc 26 and the cylindrical groove 22, thereby heating the bathroom, and the warm air flows circularly through the bathroom heater to drive the indoor temperature rise; the heating effect is balanced, the hot air is not directly blown to the human body, the hot air wraps the human body, and the whole space is warm instead of directly blowing the hot air;

when the bathroom heater does not need to use warm air, a user only needs to use a remote controller or a control panel positioned on a wall surface to enable the heating unit not to work or enable the temperature emitted by the heating unit to be adjusted, then the driving motor 23 is rotated, and further the driving motor 23 drives the first horn 24 and the fan blades 25 to rotate, so that the air in the bathroom flows;

when the air exchange is needed, a user enters the air exchange port 3 through a gap between the lower panel 2 and the installation box 1 by using a remote controller or a control panel on a wall body, then the air blowing equipment in the air exchange port 3 works, and the air in the bathroom is exhausted through the air exchange port 3;

and through being provided with the arcwall face 211 in the one end of air outlet 21 to make arcwall face 211 inwards carry out the recess in air outlet 21 outer end, when air outlet 21 is inwards sunken, when the air current enters into air outlet 21 through the clearance between lower panel 2 and mounting box 1, the in-process, gas passes through the heating unit, then flow out from air outlet 21, when passing through air outlet 21, flow divider 26 stops the air current, make the gas, then the air current flows out from the annular clearance inside between flow divider 26 and air outlet 21, when the air current passes through air outlet 21, at this moment can blow arcwall face 211 on air outlet 21 through the air current, arcwall face 211 back carries out the guide to the air current, and then when the air current flows out through the bathroom, the space area that the air current blows out in the bathroom is great, and then avoided the heating to directly blow the user, and then improved the availability factor of bathroom;

and through setting up adjusting part 5 on air outlet 21, and through making adjusting part 5 include annular plate 51, connecting plate 52 and electric telescopic rod 53, when the user uses the bathroom heater, the staff can be through using the remote controller or through the control panel on the wall, the user controls electric telescopic rod 53 and stretches, when electric telescopic rod 53 extends, electric telescopic rod 53 can promote flow divider 26 and move downwards, when flow divider 26 moves downwards, flow divider 26 drives connecting plate 52 and moves downwards, when connecting plate 52 moves downwards, because connecting plate 52 and flow divider 26 carry out the articulated, connecting plate 52 moves downwards, connecting plate 52 can carry out the dwang in the side of flow divider 26, at this moment, connecting plate 52 can carry out the pulling to annular plate 51, and because annular plate 51 is the elastic material, at this moment, annular plate 51 can be close to the middle part of flow divider 26, at this moment annular plate 51 and flow divider 26 can make the clearance of air outlet 21 diminish, and the air outlet 21's air-out direction can change, can realize adjusting the air outlet 21 simultaneously, the air outlet efficiency and the area of bathroom heater has been adjusted simultaneously; when the electric telescopic rod 53 moves upwards, the electric telescopic rod 53 drives the flow distribution disc 26 to move upwards, when the flow distribution disc 26 moves upwards, the flow distribution disc 26 drives the connecting plate 52 to move upwards, at the moment, the annular plate 51 is not pulled by the connecting plate 52, the annular plate 51 is reset by self elasticity, and then the annular plate 51 and the flow distribution disc 26 are reset; and further improves the service efficiency of the bathroom heater.

Embodiment II,

The annular plate 51 is provided with a strip-shaped groove 54 at one end positioned outside the air outlet 21;

through having seted up bar groove 54 in the one side that annular plate 51 is located air outlet 21, when electric telescopic handle 53 moves downwards, electric telescopic handle 53 drives flow distribution plate 26 and moves downwards, when flow distribution plate 26 moves downwards, flow distribution plate 26 drives the connecting block and moves downwards, when the connecting block moves downwards, the connecting block drives annular plate 51 and bends, when annular plate 51 bends, annular plate 51 is located the one end of air outlet 21 evenly has seted up bar groove 54, at this moment annular plate 51 bends, bar groove 54 makes the clearance between the annular plate 51, and then make annular plate 51 more convenient bending, and then make annular plate bending more convenient.

Third embodiment,

The upper end surfaces of the connecting plates 52 are all arc-shaped, and the connecting plates 52 are used for realizing air flow diversion;

the upper end surface of the flow distribution disc 26 is uniformly provided with sliding grooves 261, a sliding rod 262 is slidably connected in each sliding groove 261, the other end of the sliding rod 262 is hinged with the supporting rod 27, and folding plates 263 are uniformly arranged on the outer sides of the sliding rods 262;

the folding piece 263 is an active carbon composite filter cloth made of active carbon and filament non-woven fabric composite materials;

the upper ends of the connecting plates 52 are arc-shaped, when the air flows pass through the lower panel 2 and the air flows in the installation box 1 and enter the air outlet 21, and then the air flows out of the air outlet 21, the air flows impact the connecting plates 52, and when the air flows impact the connecting plates 52, the air flows are split through the arc-shaped upper ends of the connecting plates 52, so that the air flows are prevented from being directly blown to a user to a certain extent, and the use efficiency of the connecting plates 52 is improved;

the sliding grooves 261 are uniformly formed in the flow distribution disc 26, the sliding rods 262 are connected in the sliding grooves 261 in a sliding manner, the other ends of the sliding rods 262 are hinged with the outer walls of the supporting rods 27, folding plates 263 are uniformly arranged on the outer sides of the sliding rods 262, the folding plates 263 are made of flexible materials, when the electric telescopic rods 53 are extended downwards, the electric telescopic rods 53 drive the flow distribution disc 26 to move downwards, when the flow distribution disc 26 is moved downwards, the flow distribution disc 26 is gradually far away from the supporting rods 27, when the flow distribution disc 26 is far away from the supporting rods 27, due to the fact that one ends of the sliding rods 262 are hinged with the supporting rods 27, when the flow distribution disc 26 is moved downwards, one ends of the sliding rods 262 located on the supporting rods 27 are rotated, angles between the sliding rods 262 and the supporting rods 27 are reduced, at the moment, the sliding rods 262 are located at one ends of the flow distribution disc 26, slide grooves 261 are in the sliding rods 261, gaps between the adjacent sliding rods 262 are gradually reduced, and at the moment, the folding plates 263 on the sliding rods 262 are folded; when the electric telescopic rod 53 is retracted upwards, the electric telescopic rod 53 drives the flow distribution disc 26 to move upwards, when the flow distribution disc 26 moves upwards, the flow distribution disc 26 drives the sliding rod 262 to move, one end of the sliding rod 262 positioned on the supporting rod 27 rotates, the gap between the sliding rod 262 and the supporting rod 27 gradually becomes larger, one end of the sliding rod 262 positioned on the flow distribution disc 26 slides in the sliding groove 261 on the flow distribution disc 26, the gap between the adjacent sliding rods 262 becomes larger, and the folding sheet 263 is enlarged; the folding sheet 263 is arranged above the flow dividing disc 26 during passing, the lower end and the upper end of the folding sheet 263 form a cone, the cone guides air flow when passing through the air outlet, the power attenuation of the air flow is reduced, the power of the bathroom heater is improved, on the other hand, the gap between the folding sheet 263 and the air outlet 21 is gradually reduced, and according to the narrow pipe effect, when the air flow flows out through the folding sheet 263, the flow speed of the air flow is increased, and the temperature control speed and the efficiency of the bathroom heater to the inside of a bathroom are further improved;

and the folding sheet 263 is made of active carbon composite filter cloth compounded by high-efficiency adsorption materials, namely active carbon and filament non-woven fabrics, so that when the folding sheet 263 is matched with a bathroom heater to be used in a bathroom, the folding sheet 263 can effectively filter smoke odor, dust, harmful gas and various peculiar smells in the bathroom, and the service efficiency of the bathroom heater is improved.

Fourth embodiment,

The side wall of the first horn 24 is uniformly provided with filter holes 241, and the lower end of the first horn 24 extends into the air outlet 21;

and through evenly having seted up the filtration pore 241 at a horn 24 lateral wall to in making a horn 24 lower extreme stretch into air outlet 21, before the clearance that this moment was through between lower panel 2 and mounting box 1 enters into air outlet 21, gas need first enter into a horn 24 through the filtration pore 241 of a horn 24 lateral wall, when gas through the lateral wall of a horn 24, the filtration pore 241 of a horn 24 lateral wall can carry out primary filtration to gas, and then has improved the purification efficiency of bathroom heater to the air to a certain extent.

The foregoing has shown and described the basic principles, principal features and advantages of the invention; it will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined in the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (8)

1. An efficient heat energy ring bathroom warmer, which comprises a mounting box (1), a lower panel (2) and an air exchanging port (3); the lower panel (2) is fixedly connected to the lower end of the installation box (1), and a gap is reserved between the installation box (1) and the lower panel (2); the air exchanging opening (3) is formed in the lower end of the mounting box (1), and the air exchanging opening (3) is located in a gap between the mounting box (1) and the lower panel (2), and is characterized in that: also comprises;

the air outlet (21) is formed in the center of the lower panel (2), and the air outlet (21) is circular;

the cylindrical groove (22) is formed in the bottom surface of the mounting box (1), and a driving motor (23) is arranged in the cylindrical groove (22);

the first horn (24) is rotationally connected inside the cylindrical groove (22), and the first horn (24) is fixedly connected with the output shaft of the driving motor (23); the inner wall of the first horn (24) is fixedly connected with fan blades (25);

the heating element (4) is arranged below the first horn (24), and the heating element (4) is positioned above the air outlet (21);

the flow distribution disc (26) is arranged in the middle of the air outlet (21), and the flow distribution disc (26) is rotationally connected with the first horn (24) through a supporting rod (27);

the adjusting component (5), adjusting component (5) set up air outlet (21) department on lower panel (2), just adjusting component (5) are used for realizing adjusting the air-out direction of air outlet (21).

2. The high efficiency thermal energy ring bathroom heater of claim 1, wherein: an arc-shaped surface (211) is arranged at the outlet end of the air outlet (21), and the arc-shaped surface (211) is inwards concave at one side of the air outlet (21).

3. The high efficiency thermal energy ring bathroom heater of claim 1, wherein: the adjusting assembly (5) comprises a first adjusting device and a second adjusting device,

the annular plate (51) is arranged on the arc-shaped surface (211) of the air outlet (21), and the radian of the annular plate (51) is the same as that of the arc-shaped surface (211) of the air outlet (21); the annular plate (51) is tightly attached to the arc-shaped surface (211); one end of the annular plate (51) positioned at the inner side of the air outlet (21) is fixedly connected with the inner wall of the air outlet (21), and the annular plate (51) is made of elastic materials;

the connecting plate (52) is positioned between the annular plate (51) and the flow distribution disc (26), one end of the connecting plate (52) is hinged with the lower side of the annular plate (51), and the other end of the connecting plate is hinged with the side face of the flow distribution disc (26);

the electric telescopic rod (53), the electric telescopic rod (53) sets up the lower extreme of branch (27), just electric telescopic rod (53) one end with shunt dish (26) middle part links firmly.

4. A high efficiency thermal energy ring bathroom heater as defined in claim 3, wherein: and one end of the annular plate (51) positioned outside the air outlet (21) is uniformly provided with a strip-shaped groove (54).

5. A high efficiency thermal energy ring bathroom heater as defined in claim 3, wherein: the upper end faces of the connecting plates (52) are arc-shaped, and the connecting plates (52) are used for realizing airflow diversion.

6. The high efficiency thermal energy ring bathroom heater of claim 5, wherein: the upper end face of the flow distribution disc (26) is uniformly provided with sliding grooves (261), each sliding groove (261) is internally and slidably connected with a sliding rod (262), the other end of each sliding rod (262) is hinged with the corresponding supporting rod (27), and folding plates (263) are uniformly arranged on the outer sides of the sliding rods (262).

7. The high efficiency thermal energy ring bathroom heater of claim 6, wherein: and the folding piece (263) is an activated carbon composite filter cloth made of an activated carbon and filament non-woven fabric composite material.

8. The high efficiency thermal energy ring bathroom heater of claim 1, wherein: the filter holes (241) are uniformly formed in the side wall of the first horn (24), and the lower end of the first horn (24) extends into the air outlet (21).

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