CN217274444U - Far infrared bathroom heater convenient to installation - Google Patents

Abstract

The utility model relates to a far infrared bathroom heater convenient to installation, including the heating panel subassembly of retraining in the frame, its characterized in that: still include two at least couples, each couple includes hook portion and installation department, the installation department can dismantle the connection and be in the frame on, hook portion is used for colluding on fossil fragments. Because the utility model discloses a be provided with the couple on the frame, during consequently the installation, utilize this couple, can conveniently hang far infrared bathroom heater and establish on the fossil fragments of furred ceiling, therefore can realize the installation of far infrared bathroom heater simply swiftly. Meanwhile, the ventilation opening on the side face of the frame edge and the arranged air inlet and outlet channel are utilized, air exchange and heat dissipation can be conveniently carried out by means of the fan, and due to the fact that air enters and exits from the side face, a user cannot directly blow to the human body when using the air conditioner, namely no air is blown to feel, and therefore the air conditioner is more comfortable to use.

Description

Far infrared bathroom heater convenient to installation

Technical Field

The utility model relates to a bathroom heater's technical field specifically indicates a far infrared bathroom heater convenient to installation.

Background

The bathroom heater is one of electric appliances frequently used in daily life, achieves the purposes of heating, physical therapy and the like by heating indoor air, and integrates multiple functions of ventilation, decoration, illumination and the like according to needs. At present, according to the heating principle, people have designed various types of bath heaters, wherein far infrared bath heaters are deeply popular with people due to the fact that the bath heaters have the performances of far infrared radiation heat supply, deodorization, antibiosis and the like, and have the advantages of high body sensing temperature, no wind, no noise, no eye injury, long service life, safety, reliability and the like.

The bathroom heater is usually installed on a suspended ceiling in a bathroom or the like, and when the bathroom heater is installed, the bathroom heater is usually fixed on the suspended ceiling through a screw by means of a hanging plate, so that certain inconvenience is brought to installation, and heat dissipation and ventilation are to be further improved.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that the current situation of prior art is directed at, a simple and fast far infrared bathroom heater of installation of being convenient for is provided.

The utility model provides a technical scheme that above-mentioned technical problem adopted does: the utility model provides a far infrared bathroom heater convenient to installation, is including retraining the heating plate subassembly in the frame, its characterized in that: still include two at least couples, each couple includes hook portion and installation department, the installation department can dismantle the connection and be in the frame on, hook portion is used for colluding on fossil fragments.

Preferably, the hook comprises an upper mounting piece, a connecting piece and a lower mounting piece which are sequentially connected into a Z shape, the lower mounting piece is provided with a through hole to form the mounting part, and the upper mounting piece is hung on the keel to form the hook part so as to facilitate mounting. Other shapes, such as a transverse U-shaped configuration, are of course possible.

In order to improve the stability of installation, in the above solution, it is further improved that the upper installation sheet is further formed with a bending part extending downwards at one end far away from the connecting sheet.

In each of the above schemes, preferably, the frame is designed to be square, the frame includes two first frame edges and two second frame edges which are arranged opposite to each other, and connecting members located at four corners, two ends of each connecting member are respectively fixed to end portions of the adjacent first frame edge and second frame edge, and four hooks are respectively fixed to the corresponding connecting members after passing through the corresponding frame edges. Therefore, the heat radiation surface is larger, the heating is faster, and the heating is more uniform.

In the above preferred embodiment, it is further improved that the first frame edge and the second frame edge are both made of a section material with the same cross-sectional structure, a first cavity extending to the end along the length direction of the section material and allowing the connecting piece to be inserted and a second cavity located below the first cavity and having an opening facing the heating plate assembly are formed in the section material, and the edge of the heating plate assembly is constrained in the second cavity, so as to facilitate processing and assembling and warehouse management.

In the above scheme, a vent is provided on the side wall of the first cavity of the first frame or/and the first cavity of the second frame, a back plate is mounted on the top of the frame, an air inlet and outlet passage cavity communicated with the vent is formed between the back plate and the heating plate assembly, and a blower having an air inlet communicated with the air inlet and outlet passage cavity is mounted on the back plate, so as to have an air exchange function, and not directly blow the body, thereby obtaining a comfortable feeling when in use.

In each of the above aspects, it is further preferable that the heating group plate member includes a heating plate, a middle plate located above the heating plate, and a heat insulation layer sandwiched between the middle plate and the heating plate. Therefore, the internal space can be well separated, and the heat insulation effect is achieved.

In order to facilitate the assembly, the heating plate also comprises auxiliary strips arranged around the upper surface of the heating plate, the heat insulation layer is positioned in a space surrounded by the auxiliary strips, and the edge of the middle plate is placed on the corresponding auxiliary strips.

Meanwhile, in order to improve the strength of the heating plate, a metal plate is embedded in the heating plate in an insulating manner, so that the heating plate is prevented from deforming effectively and has a fireproof effect.

Preferably, the heating plate comprises a first insulating layer, a second insulating layer, a third insulating layer and a fourth insulating layer from top to bottom in sequence, a heating area is arranged between the first insulating layer and the second insulating layer, and the metal plate is located between the third insulating layer and the fourth insulating layer.

Compared with the prior art, because the utility model discloses a be provided with the couple on the frame, during consequently the installation, utilize this couple, can conveniently hang the far infrared bathroom heater and establish on the fossil fragments of furred ceiling, therefore can realize the installation of far infrared bathroom heater simply and swiftly. Meanwhile, the ventilation opening on the side face of the frame edge and the arranged air inlet and outlet channel are utilized, air exchange and heat dissipation can be conveniently carried out by means of the fan, and due to the fact that air enters and exits from the side face, a user cannot directly blow to the human body when using the air conditioner, namely no air is blown to feel, and therefore the air conditioner is more comfortable to use.

Drawings

Fig. 1 is a schematic perspective view of a first embodiment of the present invention applied to a suspended ceiling;

FIG. 2 is a perspective view of FIG. 1 from below;

FIG. 3 is a schematic perspective view of FIG. 1 with the ceiling removed;

FIG. 4 is an exploded perspective view of FIG. 3;

FIG. 5 is an enlarged view of the left portion of FIG. 3 (with the front bezel and the front auxiliary strip removed)

FIG. 6 is a schematic view of FIG. 3 with the lower left corner cut away;

FIG. 7 is a perspective view of the left frame of FIG. 6;

fig. 8 is an exploded perspective view of the heating plate of the present embodiment.

Detailed Description

The present invention will be described in further detail with reference to the following embodiments.

In the description of the present invention, it is to be understood that the terms "length", "upper", "lower", "front", "rear", "left", "right", "top", "bottom", and the like, are used in the orientation or positional relationship shown in the drawings, only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, since the disclosed embodiments of the present invention can be arranged in different orientations, these directional terms are for illustrative purposes only and should not be construed as limiting, e.g., "upper" and "lower" are not necessarily limited to directions opposite to or consistent with the direction of gravity. Furthermore, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature.

The hook 3 in this embodiment can be applied to far infrared bath heaters with various structures. For convenience of description and understanding, the structure of the present embodiment will be understood by taking the far infrared bath heater 200 as an example in the drawings, and the shape of the far infrared bath heater 200 may be designed in various shapes as needed. And the square structure shown in fig. 1 to 4 is preferably adopted, so that the size of the far infrared bath heater 200 can be designed to be larger compared with the conventional bath heater, thereby the heat radiation surface is larger, and the bathroom is heated more quickly and uniformly.

Referring to fig. 3 and 4, the far infrared bathroom heater in this embodiment includes a heating panel assembly 2 constrained in a square frame 1 and at least two hooks 3, in consideration of the stability after installation, four hooks 3 are selected in the figure, and respectively correspond to four corners of the square frame 1, each hook 3 includes a hook portion and an installation portion, the installation portion can be detachably connected to the frame 1, and the hook portion is used for hooking on a keel 101 of a suspended ceiling 100. Specifically, for convenience of processing and installation, the hook 3 is preferably designed to have a structure including an upper mounting piece 31, a connecting piece 32, and a lower mounting piece 33 (see fig. 5) connected in sequence in a substantially Z-shape, the lower mounting piece 33 is formed with a through hole to form the mounting portion, and the upper mounting piece 31 is hung on the keel 101 to form the hook portion. When the installation is carried out, the lower installation pieces 33 are installed in the corresponding installation holes of the frame 1 through the bolts A, and then the upper installation pieces 31 are directly hung on the keels 101, so that the installation is very convenient. In order to prevent the upper mounting piece 31 from being detached from the keel 11 after being mounted, a bent portion 34 extending downward is further formed at one end of the upper mounting piece 31 away from the connecting piece 32, and the hook 3 can be prevented from accidentally sliding after being subjected to a force by the abutment between the bent portion 34 and the keel 101.

The frame 1 may adopt a structure in the prior art, and in the embodiment, the frame 1 preferably has a structure that: the frame 1 comprises first frame edges 1a and second frame edges 1b which are oppositely arranged in pairs and connecting pieces 1c which are positioned at four corners, in the figure, the two first frame edges 1a which are oppositely arranged are respectively distributed at the left side and the right side, namely a left first frame edge and a right first frame edge, the two second frame edges 1b which are oppositely distributed are distributed at the front side and the rear side, namely a front second frame edge and a rear second frame edge, two ends of each connecting piece 1c are respectively fixed with the end parts of the adjacent first frame edge 1a and the adjacent second frame edge 1b, and the four hooks 3 are respectively fixed with the corresponding connecting pieces after passing through the corresponding frame edges. Because the frame 1 is designed to be square, the connecting piece 1c is an angle code, the frame is designed to be an L-shaped sheet-shaped body in the figure, two ends of the L-shaped sheet-shaped body can be directly attached to the surfaces of the first frame edge 1a and the second frame edge 1b, and then the L-shaped sheet-shaped body is fixed through screws, but preferably, two ends of the connecting piece 1c are inserted into the first cavities 11 of the first frame edge 1a and the second frame edge 1b, and are provided with screw holes so as to be conveniently connected with the bolts A, so that the whole structure of the frame 1 is compact, and the connection is firmer.

In order to facilitate the processing and installation of the connecting member 1c, in this embodiment, two opposite first frame edges 1a are formed by a section with a symmetrical cross-sectional structure, and similarly, two opposite second frame edges 1b are formed by a section with a symmetrical cross-sectional structure, and in this embodiment, the main structures of the section as the first frame edge 1a and the section as the second frame edge 1b are the same, so that the section on the left side (the left first frame edge) is taken as an example for explanation, please refer to fig. 5-7, a first cavity 11 extending to the end along the length direction of the section is formed in the section, the connecting member 1c can be inserted into the first cavity 11, and a second cavity 12 located below the first cavity 11 and having an opening facing the heat generating board assembly 2, and the edge of the heat generating board assembly 2 is constrained in the second cavity 12.

In addition, in order to add the ventilation function of the far infrared bath heater, the side walls of the first cavities 11 of the first frame edges 1a and/or the first cavities of the second frame edges 1b are provided with ventilation openings 111, in the figure, preferably, the ventilation openings 111 are only arranged on the side walls of the two first frame edges 1a which are symmetrically arranged left and right, meanwhile, the top of the frame 1 is provided with a back plate 4, an air inlet and outlet channel cavity 1d communicated with the ventilation openings 111 is formed between the back plate 4 and the heating plate component 2, in order to accelerate the flow of air, the back plate 4 is also provided with a fan 5 with an air inlet communicated with the air inlet and outlet channel cavity 1d, the fan 5 is started, the airflow above the back plate 4 enters the air inlet and outlet channel cavity 1d through the fan 5, and then enters the room through the ventilation openings 111 on the side walls of the left first frame edge and the right first frame edge; when fan 5 antiport, then carry indoor air to outdoor, so, reach the purpose of taking a breath to because vent 111 is located the side of frame 1, consequently can not directly blow to the people, with traditional bottom business turn over wind formation difference, comfort level when so both can improve taking a breath, can have certain isolation effect to fan 5 noise generation source again, with further reduced the use noise.

Meanwhile, in consideration of lighting requirements in a bathroom, a third cavity 13 which extends to the end along the length direction of the section bar and is positioned below the first cavity 11 is formed in the section bar, the opening of the third cavity 13 faces the lower side outwards, a lamp strip (not shown in the figure) is installed in the third cavity 13, and a lampshade 6 is arranged in the opening of the third cavity 13. To facilitate the mounting of the light bar and the globe 6, two oppositely arranged small ribs 131 are formed on the inner side wall of the third cavity 13, each small rib 131 extending in the length direction of the profile such that the light bar can rest on the two small ribs 131. Meanwhile, the side walls of the third cavities below the small ribs 131 are respectively provided with the inserting grooves 132, each inserting groove 132 also extends along the length direction of the section bar, the edge of the lampshade 6 can be matched with the corresponding inserting groove 132, and when the lampshade 6 is assembled, the lampshade only needs to be inserted along the inserting grooves 132, and the edge of the lampshade 6 is inserted into the lampshade 6.

The heating plate assembly 2 may adopt a structure in the prior art, but in the present embodiment, the heating plate assembly 2 is further modified, that is, the heating plate assembly 2 includes a heating plate 21, a middle plate 22 located above the heating plate 21, and a heat insulation layer 23 sandwiched between the middle plate 22 and the heating plate. The middle plate 22 is added, so that the inner space of the far infrared bathroom heater can be better divided into the air inlet and outlet channel cavity 1d, meanwhile, the added heat insulation layer 23 can play a role in heat preservation and heat insulation, the heat insulation layer 23 can be made of a ceramic fiber blanket, and of course, other materials with similar performance can also be used for processing.

For the above heating plate 21, a heating plate in the prior art may be adopted, but a better structure is that the heating plate 21 sequentially includes, from top to bottom, a first insulating layer 211, a second insulating layer 212, a third insulating layer 213 and a fourth insulating layer 214, please refer to fig. 8, a heating area 215 is arranged between the first insulating layer 211 and the second insulating layer 212, in this embodiment, the first insulating layer 211, the second insulating layer 212, the third insulating layer 213 and the fourth insulating layer 214 are all processed by high-temperature epoxy pp cloth, which is an insulating flame-retardant material, and certainly, other materials with similar performance may also be used for processing. The heating region 215 may include a plurality of graphene carbon-based heating cores and conductive copper foils connected to both sides of the graphene carbon-based heating cores, which are not described in detail herein because of the prior art.

In order to improve the strength of the heating plate 21, a metal plate 216 is further embedded in the heating plate 21 in an insulating manner, and the metal plate 216 is preferably made of a thin aluminum plate, is sealed between the third insulating layer 213 and the fourth insulating layer 214, i.e., is embedded in the heating plate 21, and is insulated on the periphery to prevent the induction current from leaking to cause the current of the heating plate 21 to exceed the standard. Therefore, the metal plate 216 can prevent the heat-generating plate 21 from deforming, thereby improving the strength and prolonging the service life of the heat-generating plate.

When in manufacturing, the high-temperature epoxy pp cloth of the first, second, third and fourth insulating layers is packaged together through a pressing process. The graphene carbon-based slurry is printed on the high-temperature epoxy pp cloth so as to improve the total conversion efficiency of effective heat energy. Before entering a laminating machine, the insulating layers are paved, the heating area 215 and the metal plate 216 are arranged between the corresponding insulating layers, and then the heating plate enters the laminating machine for laminating treatment, wherein the thickness of the laminated heating plate is about 1 mm. The heating plate processed by the pressing process has better waterproof performance because water and water vapor can not permeate into the heating plate. Meanwhile, an intelligent controller (not shown in the figure, since the intelligent controller may adopt the prior art, it will not be further described herein) is configured on the outer side for connecting a power supply and the conductive copper foil to control the operating state of the heat generating region 215.

Considering the need of installing the middle plate 22, in this embodiment, the auxiliary strips 7 disposed around the upper surface of the heating plate 21 are further included, and the number of the auxiliary strips 7 is four because the auxiliary strips are square, in the figure, each auxiliary strip 7 is designed as a section in an inverted U shape, and is partially disposed in the corresponding second cavity 12, the heat insulation layer 23 is disposed in the space surrounded by the four auxiliary strips 7, and the edge of the middle plate 22 rests on the corresponding auxiliary strip 7, so as to facilitate assembly.

The suspended ceiling 100 is formed by fastening square aluminum clips 102 on the keels in turn according to the prior art, please refer to fig. 1 and 2, wherein the keels are triangular keels, each keel is hung on a respective main rib 104 through two hanging pieces 103 arranged at intervals along the length direction, namely, two main ribs 104 are arranged at intervals and are perpendicular to each keel 101, and each main rib 104 is fixed on the top surface of the bathroom through a hanger rod 105.

When the far infrared bath heater needs to be installed, the aluminum buckle plates 102 on the installation part and the periphery are removed, then the far infrared bath heater is placed in, the bolt A is rotated to penetrate through the through hole in the hook 3, the back plate 4 and the section bar and then is pre-screwed into the screw hole in the connecting piece 1c, then the upper connecting piece 31 of the hook 3 is hung on the keel 101 of the suspended ceiling according to the above, then the bolt A is rotated again to enable the frame 1 to be tightly attached to the lower surface of the suspended ceiling 100, and at the moment, the ventilation opening 111 in the frame 1 is exposed out of the side face of the far infrared bath heater 200. When the heating plate is used, the heating area 215 in the heating plate 21 is connected with a power supply and a control switch through an intelligent controller.

Claims (10)

1. The utility model provides a far infrared bathroom heater convenient to installation, is including retraining heating plate subassembly (2) in frame (1), its characterized in that: still include two at least couples (3), each couple includes hook portion and installation department, the installation department can dismantle the connection and be in frame (1) on, hook portion is used for colluding on fossil fragments (101).

2. The far infrared bath heater as set forth in claim 1, wherein: the hook comprises an upper mounting piece (31), a connecting piece (32) and a lower mounting piece (33) which are sequentially connected into a Z shape, a through hole is formed in the lower mounting piece (33) to form the mounting part, and the upper mounting piece (31) is hung on the keel (101) to form the hook part.

3. The far infrared bath heater as set forth in claim 2, wherein: the upper mounting piece (31) is further provided with a bending part (34) extending downwards at one end far away from the connecting piece.

4. The far infrared bath heater as set forth in claim 1, 2 or 3, wherein: the frame (1) is designed to be square, the frame (1) comprises two first frame edges (1a) and two second frame edges (1b) which are oppositely arranged in pairs and connecting pieces (1c) which are positioned at four corners, two ends of each connecting piece (1c) are respectively fixed with the end parts of the adjacent first frame edge (1a) and the second frame edge (1b), and the hooks (3) are four and are respectively fixed with the corresponding connecting pieces (1c) after the corresponding frame edges.

5. The far infrared bath heater as set forth in claim 4, wherein: the first frame edge (1a) and the second frame edge (1b) are both made of section bars with the same section structure, a first cavity (11) which extends to the end part along the length direction of the section bars and can be used for inserting the connecting piece and a second cavity (12) which is positioned below the first cavity (11) and has an opening facing the heating plate assembly are formed in the section bars, and the edge of the heating plate assembly (2) is restricted in the second cavity.

6. The far infrared bath heater as set forth in claim 5, wherein: the side wall of the first cavity of the first frame edge (1a) or/and the first cavity of the second frame edge (1b) is provided with a vent (111), the top of the frame (1) is provided with a back plate (4), an air inlet and outlet channel cavity (1d) communicated with the vent is formed between the back plate (4) and the heating plate component (2), and meanwhile, the back plate (4) is provided with a fan (5) communicated with the air inlet and outlet channel cavity.

7. The far infrared bath heater according to claim 1, 2 or 3, wherein: the heating plate component (2) comprises a heating plate (21), a middle plate (22) positioned above the heating plate and a heat insulation layer (23) clamped between the middle plate and the heating plate.

8. The far infrared bath heater as set forth in claim 7, wherein: the heating plate is characterized by further comprising auxiliary strips (7) arranged on the periphery of the upper surface of the heating plate (21), the heat insulation layer (23) is located in a space surrounded by the auxiliary strips (7), and the edge of the middle plate (22) is placed on the corresponding auxiliary strips (7).

9. The far infrared bath heater as set forth in claim 7, wherein: a metal plate (216) is embedded in the heating plate (21) in an insulating manner.

10. The far infrared bath heater as set forth in claim 9, wherein: the heating plate (21) sequentially comprises a first insulating layer (211), a second insulating layer (212), a third insulating layer (213) and a fourth insulating layer (214) from top to bottom, a heating area (215) is arranged between the first insulating layer and the second insulating layer, and the metal plate (216) is located between the third insulating layer (213) and the fourth insulating layer (214).

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