CN216244536U - Reflector assembly and heating device - Google Patents

Abstract

An embodiment of the present invention provides a reflex housing assembly and a heating appliance, wherein the reflex housing assembly includes: the mask body is provided with an opening at one end and an installation opening at the other end; the heating component comprises a heating piece and a supporting plate, the supporting plate is arranged inside the cover body around the mounting opening, and the heating piece is sleeved outside the supporting plate; and the heat insulation plate is arranged between the cover body and the supporting plate. According to the technical scheme, under the action of the heat insulation plate, heat generated by the heating part can be separated, the heat collection is effectively blocked, the overall heating uniformity of the reflector component is improved, and the use experience of a user is improved.

Description

Reflector assembly and heating device

Technical Field

The utility model relates to the technical field of heating equipment, in particular to a reflector assembly and heating equipment.

Background

In the daily life process, under the weather that the temperature is lower such as winter, people often improve ambient temperature through adopting heating installation, especially to under the office environment, different people's adaptation temperature is different, often can adopt small-size heating installation such as little sun with local raising the temperature, improves crowd's environmental comfort level in the specific area. The existing small heating equipment is electrified to generate heat, the heat source is concentrated at the upper end, and in addition, heat and air are convected, the heat flow rises, so that the temperature rise at the top of the reflecting cover is easily overhigh, and potential safety hazards are brought to users.

SUMMERY OF THE UTILITY MODEL

The present invention is directed to solving at least one of the problems of the prior art or the related art.

In view of this, embodiments of the first aspect of the present invention provide a bowl assembly.

Embodiments of a second aspect of the utility model provide a heating appliance.

To achieve the above object, an embodiment of a first aspect of the present invention provides a bowl assembly, comprising: the mask body is provided with an opening at one end and an installation opening at the other end; the heating component comprises a heating piece and a supporting plate, the supporting plate is arranged inside the cover body around the mounting opening, and the heating piece is sleeved outside the supporting plate; and the heat insulation plate is arranged between the cover body and the supporting plate.

According to the first aspect of the present invention, the reflector assembly mainly includes a cover body, a heating assembly and a heat insulation board, the cover body is used as a main structure for reflecting heat, and the heat generated by the heating element is reflected forward under the action of the cover body, so as to improve the heating effect on air. Wherein, the both ends of the cover body are equipped with opening and installing port respectively, and through set up the installing port on the cover body, the accessible installing port will cover the body and install on support or other bearing structure, and the heat can be followed the opening part and outwards radiated under the reflex action of the cover body to improve the temperature of environment. Need complement, through setting up heating element, can be under the effect of the piece that generates heat to the cover body radiation heat, so that under the effect of the cover body, go out the heat reflection, specifically, the backup pad is fixed on the cover body, and the piece cover that generates heat is established outside the backup pad, so that provide certain support for the piece that generates heat under the effect of backup pad, thereby be convenient for when the piece that generates heat produces the heat that radiates to the cover body, the heat is under the effect of the inner wall of the cover body, can reflect, in order to merge with the heat that the piece that generates heat directly radiates forward, strengthen the heat that radiates forward.

It should be emphasized that, in the embodiment, a heat insulation board for separating the heat generated by the heat generating component is further arranged in the cover body, the heat insulation plate is arranged between the cover body and the support plate, the heating element can generate a large amount of heat in the operation process, the heat flows into the air to form hot air, and the hot air can naturally flow upwards due to the low density of the hot air, the heat generated by the whole heating element can be accumulated upwards under the action of the cover body, one or more heat insulation plates are arranged between the cover body and the support plate along the circumferential direction, because the heating element is arranged in a way of being sleeved outside the support plate, under the effect of heat insulating board, can separate the heat that the piece that generates heat produced, effectively block thermal collection, cause local high temperature, bring the hidden danger for user's safety, improve the holistic homogeneity that generates heat of bowl subassembly, improve user's use and experience.

In addition, the reflection cover assembly in the above scheme provided by the utility model can also have the following additional technical characteristics:

in the technical scheme, two ends of the heat insulation plate are respectively connected with the opening end of the cover body and the mounting opening end of the cover body.

In the technical scheme, the two ends of the heat insulation plate are limited to be connected with the opening end and the mounting port end respectively, the path of upward flowing hot air can be cut off under the action of the heat insulation plate and the cover body, the heat generated by a part of heating elements can be ensured to flow only in a limited area, and the possibility of overhigh local temperature caused by heat collection is reduced.

It can be understood that the opening end of the cover body is the end face where the opening is located, and similarly, the mounting opening end is the end face where the mounting opening is located.

In the technical scheme, the cover body is a revolving body, and the heat insulation plate is arranged along the radial direction of the cover body.

In this technical scheme, on the whole basis that is the solid of revolution of the cover body, the accessible restriction heat insulating board is along the radial setting of the cover body to in under the effect of heat insulating board, cut apart into a plurality of subsections with the cover body, under the effect of the piece that generates heat, local heat only controls in the fan-shaped region that separates into by the heat insulating board that corresponds, reduces the condition that takes place steam and assemble.

Specifically, the revolving body includes, but is not limited to, a truncated cone-like shape, and a projection contour line of the cover body on an axial section may be a straight line, a curved line, or even a parabola.

In the above technical solution, further comprising: the air vent is arranged on the supporting plate.

In this technical scheme, through set up the air vent in the backup pad, can satisfy gaseous mobile demand to under the effect that the air flows, take away the heat, realize radiating effect. Meanwhile, under the combined action of the vent holes and the heat insulation plate, local heat dissipation of local areas can be achieved, and the possibility of uneven heating caused by overhigh local heat is reduced.

In the technical scheme, a flowing space for air to flow is formed between the cover body and the supporting plate, and the air can flow in the flowing space; wherein, at least two heat insulating boards are arranged in the gathering area of the flow space, and the gathering area is the tail end area of the air flowing in the flow space.

In the technical scheme, air can flow in the flowing space formed between the cover body and the supporting plate, under the balance action of air pressure, part of air can flow out of the flowing space, and the other part of air can flow into the flowing space, so that the dynamic balance of the air pressure is ensured. On this basis, in the dynamic process, can have a collection region in the flow space, it is the terminal region of flow in-process, also most air can flow to in the collection region in the flow space to only need set up the heat insulating board on the collection region, can effectively reduce thermal gathering, prevent that the bowl top temperature is too high, bring the hidden danger for user's safety, simultaneously, improve the holistic homogeneity that generates heat of bowl subassembly, improve user's use and experience.

It will of course be appreciated that not all of the air will flow out of the collection region, and that air will be diffusive and will inevitably flow directly out of the collection region as it flows into it.

Note that for general use, the collection region is typically located at the top of the structure.

In the above technical solution, further comprising: the outer cover is detachably connected with the cover body, and a grid is arranged on the outer cover; wherein, the lateral wall of heat insulating board links to each other with dustcoat, the cover body and backup pad respectively.

In this technical scheme, can dismantle the dustcoat of connection through the setting, can play certain guard action for the cover body, can understand, cover inner wall is used for the reflection of heat, so its inner wall can be equipped with special coating or special reflection configuration, if expose outside, can receive the influence of outside debris on the one hand, destroy inner structure, on the other hand when not setting up the dustcoat, the user can touch the piece that generates heat of working carelessly, so under the effect of dustcoat, improve the safety in utilization of whole product.

Need supplementarily, on the basis that sets up the dustcoat, after the dustcoat links to each other with the cover body, the heat insulating board can link to each other with dustcoat, the cover body and backup pad respectively for divide into independent a plurality of spaces with the internal space of cover, with the homogeneity that improves the heating.

Among the above-mentioned technical scheme, in vertical direction, there are two heat insulating boards at least and locate the top of backup pad, and locate the heat insulating board at the top of backup pad and set up about vertical direction symmetry.

In this technical scheme, set up at the top of backup pad through restricting two or more heat insulating board symmetries, can effectively block thermal collection, prevent that bowl top temperature is too high, brings the hidden danger for user's safety, simultaneously, improves the holistic homogeneity that generates heat of bowl subassembly, improves user's use and experiences.

It can be understood that the top of the supporting plate can be defined as the part above the plane passing through the axis of the supporting plate and parallel to the horizontal plane, and the part above the horizontal line on the cross section of the supporting plate, and if an angular coordinate system is established on the cross section of the supporting plate, and the axis is the origin, the top can be between 0 and 270 degrees. Further, the angle can be set between 45 degrees and 315 degrees, and can also be set between 30 degrees and 300 degrees.

Among the above-mentioned technical scheme, the quantity of heat insulating board is a plurality of, and a plurality of heat insulating boards evenly set up along the circumference of the cover body.

In this technical scheme, through setting up a plurality of heat insulating boards to evenly setting up a plurality of heat insulating boards, can be so that the holistic more even that generates heat of bowl subassembly, can understand, under the effect of a plurality of heat insulating boards, can be with the equal independent separation that generates heat of the different parts of a piece that generates heat, thereby can improve the even degree that generates heat, prevent that the local high temperature potential safety hazard from appearing.

An embodiment of a second aspect of the utility model provides a heating appliance comprising: a supporting seat; as in the first aspect of the present invention, the reflective cover assembly is disposed on the supporting base.

According to a second aspect of the utility model, there is provided a heating appliance comprising a support base and a reflector assembly. The reflector assembly is mainly used for concentrating and reflecting heat outwards so as to ensure the temperature of the environment. In addition, because the bowl subassembly sets up on the support of supporting seat, still can realize rotating or fixed heating according to the supporting seat of difference, it needs to supply, be equipped with the bowl subassembly among the above-mentioned first aspect technical scheme in the heating installation, so have the beneficial effect of any bowl subassembly of above-mentioned, no longer describe here.

It is emphasized that the heating device includes, but is not limited to, a small sun, a small stove, etc. which can heat the environment.

Among the above-mentioned technical scheme, the heat insulating board of bowl subassembly is located one side that the backup pad of bowl subassembly is kept away from the supporting seat.

In this technical scheme, through restriction heat insulating board setting in the backup pad keep away from one side of supporting seat, promptly, locate the bottom at the supporting seat under the condition, set up the heat insulating board at the top to reduce the possibility that the condition that the heat was assembled takes place.

Additional aspects and advantages of the utility model will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the utility model.

Drawings

FIG. 1 illustrates a schematic structural view of a bowl assembly according to one embodiment of the present invention;

FIG. 2 illustrates a partial cross-sectional structural schematic view of a bowl assembly according to one embodiment of the present invention;

FIG. 3 illustrates a cross-sectional structural view of a bowl assembly according to one embodiment of the present invention;

fig. 4 illustrates a schematic structural view of a heat generating member according to an embodiment of the present invention;

FIG. 5 illustrates a schematic structural view of a bowl assembly according to one embodiment of the present invention;

fig. 6 shows a schematic view of a heating apparatus according to an embodiment of the present invention.

Wherein, the correspondence between the reference numbers and the part names in fig. 1 to 6 is:

100: a reflector assembly; 102: a cover body; 1022: an opening; 1024: an installation port; 104: a heating assembly; 1042: a heat generating member; 1043: a pipe body; 1044: a heating element; 1045: a wiring terminal; 1046: a support plate; 1048: a vent hole; 106: a heat insulation plate; 108: a housing; 200: a heating device; 202: a supporting seat; 204: and (4) a bracket.

Detailed Description

In order that the above objects, features and advantages of the embodiments of the present invention can be more clearly understood, embodiments of the present invention will be described in further detail below with reference to the accompanying drawings and detailed description. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present application, however, embodiments of the present invention may be practiced in other ways than those described herein, and therefore the scope of the present application is not limited to the specific embodiments disclosed below.

Some embodiments according to the utility model are described below with reference to fig. 1 to 6.

Example one

As shown in fig. 1, 3 and 4, the reflector assembly 100 of the present embodiment mainly includes a cover 102, a heating assembly 104 and a heat insulation board 106, the cover 102 is used as a main structure for reflecting heat, and heat generated by the heating element 1042 is reflected forward by the cover 102 to improve the heating effect on air. The two ends of the cover 102 are respectively provided with an opening 1022 and a mounting opening 1024, the cover 102 is mounted on a bracket or other supporting structures through the mounting opening 1024 by arranging the mounting opening 1024 on the cover 102, and heat is radiated outwards from the opening 1022 under the reflection action of the cover 102, so that the temperature of the environment is increased. It should be added that, by providing the heating assembly 104, heat can be radiated to the enclosure 102 by the heat generating member 1042, so that the heat can be reflected by the enclosure 102. Specifically, the supporting plate 1046 is fixed on the cover 102, and the heating element 1042 is sleeved outside the supporting plate 1046, so as to provide a certain support for the heating element 1042 under the action of the supporting plate 1046, so that when the heating element 1042 generates heat radiated onto the cover 102, the heat is reflected under the action of the inner wall of the cover 102 to be combined with the heat directly radiated forward by the heating element 1042, thereby enhancing the heat radiated forward.

It is emphasized that the heat insulating plate 106 for separating heat generated from the heat generating member 1042 is further provided in the housing 102 in this embodiment, by disposing the heat insulating plate 106 between the housing 102 and the supporting plate 1046. The heat generating member 1042 generates a large amount of heat during operation, and the heat flows into the air to form hot air. Because the density of hot-air is less, can be natural upwards flow, under the effect of the cover body 102, the heat that whole piece 1042 that generates heat can upwards pile up, through be equipped with one or more heat insulating board 106 along circumference between the cover body 102 and backup pad 1046, because the mode of setting up of the piece 1042 that generates heat is for the cover establishes outside backup pad 1046, under the effect of heat insulating board 106, can separate the heat that the piece 1042 that generates heat produced, effectively block thermal collection, prevent that the bowl top temperature is too high, bring the hidden danger for user's safety. Meanwhile, the overall heating uniformity of the reflector assembly 100 is improved, and the use experience of a user is improved.

In a specific embodiment, two ends of the heat insulation board 106 are respectively connected with the end of the opening 1022 and the end of the mounting opening 1024, so that the upward flowing path of the hot air can be cut off under the action of the heat insulation board 106 and the cover 102, and the heat generated by part of the heat generating members 1042 can only flow in a limited area, thereby reducing the possibility of local over-temperature caused by heat collection.

It can be understood that the end of the opening 1022 of the cover 102 is the end surface where the opening 1022 is located, and similarly, the end of the mounting opening 1024 is the end surface where the mounting opening 1024 is located.

Example two

As shown in fig. 1, the reflector assembly 100 according to the embodiment mainly includes a cover 102 in a revolving body, a heating assembly 104, and a heat insulation board 106 disposed along a radial direction of the cover 102, where the cover 102 is a main structure for reflecting heat, and heat generated by the heating element 1042 is reflected forward by the cover 102 to improve an air heating effect. The two ends of the cover 102 are respectively provided with an opening 1022 and a mounting opening 1024, the cover 102 is mounted on a bracket or other supporting structures through the mounting opening 1024 by arranging the mounting opening 1024 on the cover 102, and heat is radiated outwards from the opening 1022 under the reflection action of the cover 102, so that the temperature of the environment is increased. It should be added that, by providing the heating assembly 104, heat can be radiated to the cover 102 under the action of the heating element 1042, so that the heat is reflected under the action of the cover 102, specifically, the supporting plate 1046 is fixed on the cover 102, and the heating element 1042 is sleeved outside the supporting plate 1046, so that a certain support is provided for the heating element 1042 under the action of the supporting plate 1046, so that when the heating element 1042 generates heat radiated onto the cover 102, the heat is reflected under the action of the inner wall of the cover 102 to be combined with the heat directly radiated forward by the heating element 1042, thereby enhancing the heat radiated forward.

On the basis that the whole cover body 102 is a revolving body, the cover body 102 can be conveniently divided into a plurality of subsections by limiting the heat insulation plate 106 along the radial direction of the cover body 102 under the action of the heat insulation plate 106, and under the action of the heating element 1042, local heat is only controlled in the corresponding sector area separated by the heat insulation plate 106, so that the condition of hot gas convergence is reduced.

Specifically, the revolving body includes, but is not limited to, a truncated cone-like shape, and the projected contour line of the cover 102 on the axial section may be a straight line, a curved line, or even a parabola.

It should be emphasized that, in this embodiment, the heat insulation board 106 for separating heat generated by the heat generating element 1042 is further disposed in the cover 102, by disposing the heat insulation board 106 between the cover 102 and the supporting plate 1046, the heat generating element 1042 generates a large amount of heat during operation, heat flows into air to form hot air, the hot air naturally flows upwards due to its low density, the heat generated by the whole heat generating element 1042 is accumulated upwards under the action of the cover 102, by disposing one or more heat insulation boards 106 between the cover 102 and the supporting plate 1046 along the circumferential direction, because the heat generating element 1042 is disposed in a manner of being sleeved outside the supporting plate 1046, the heat generated by the heat generating element 1042 can be separated under the action of the heat insulation boards 106, thereby effectively blocking heat collection, preventing the temperature at the top of the reflector from being too high, bringing about a safety hazard to a user, and simultaneously, improving the overall heat generation uniformity of the reflector assembly 100, the use experience of the user is improved.

EXAMPLE III

As shown in fig. 1, the reflector assembly 100 of the present embodiment mainly includes a cover 102, a heating assembly 104 and a heat insulation board 106, the cover 102 is used as a main structure for reflecting heat, and heat generated by the heating element 1042 is reflected forward by the cover 102 to improve the heating effect on air. The two ends of the cover 102 are respectively provided with an opening 1022 and a mounting opening 1024, the cover 102 is mounted on a bracket or other supporting structures through the mounting opening 1024 by arranging the mounting opening 1024 on the cover 102, and heat is radiated outwards from the opening 1022 under the reflection action of the cover 102, so that the temperature of the environment is increased. It should be added that, by providing the heating assembly 104, heat can be radiated to the cover 102 under the action of the heating element 1042, so that the heat is reflected under the action of the cover 102, specifically, the supporting plate 1046 is fixed on the cover 102, and the heating element 1042 is sleeved outside the supporting plate 1046, so that a certain support is provided for the heating element 1042 under the action of the supporting plate 1046, so that when the heating element 1042 generates heat radiated onto the cover 102, the heat is reflected under the action of the inner wall of the cover 102 to be combined with the heat directly radiated forward by the heating element 1042, thereby enhancing the heat radiated forward.

Furthermore, the support plate 1046 is further provided with a vent hole 1048, which can meet the flow requirement of air, so that an air flow channel is formed under the action of air flow, heat is taken away, and the heat dissipation effect is realized. Meanwhile, under the combined action of the vent holes 1048 and the heat insulation plate, local heat dissipation of local areas can be realized, so that the possibility of uneven heating caused by overhigh local heat is reduced.

As shown in fig. 4, the heat generating member 1042 mainly includes a tube 1043 and a heating element 1044 disposed inside the tube 1043. Wherein, body 1043 is as the structure of protection heating element 1044, can prevent that external force from directly contacting with heating element 1044 to take place to damage, and heating element 1044 is as main heat-generating body, is located body 1043, and heating element 1044 all can be through outside release light energy and heat energy of body 1043, can guarantee the stability of luminous generate heat.

Further, terminals 1045 are provided at both ends of the heating element 1044. As can be appreciated. One of the connection terminals 1045 is a positive electrode, and the other is a negative electrode, so as to supply power to the heating element 1044 by an external power supply, and ensure normal use of the heating element 1044.

It should be emphasized that, in this embodiment, the heat insulation board 106 for separating heat generated by the heat generating element 1042 is further disposed in the cover 102, by disposing the heat insulation board 106 between the cover 102 and the supporting plate 1046, the heat generating element 1042 generates a large amount of heat during operation, heat flows into air to form hot air, the hot air naturally flows upwards due to its low density, the heat generated by the whole heat generating element 1042 is accumulated upwards under the action of the cover 102, by disposing one or more heat insulation boards 106 between the cover 102 and the supporting plate 1046 along the circumferential direction, because the heat generating element 1042 is disposed in a manner of being sleeved outside the supporting plate 1046, the heat generated by the heat generating element 1042 can be separated under the action of the heat insulation boards 106, thereby effectively blocking heat collection, preventing the temperature at the top of the reflector from being too high, bringing about a safety hazard to a user, and simultaneously, improving the overall heat generation uniformity of the reflector assembly 100, the use experience of the user is improved.

Example four

As shown in fig. 1 and fig. 2, the reflector assembly 100 of the present embodiment mainly includes a cover 102, a heating assembly 104, and a heat insulation board 106, where the cover 102 is a main structure for reflecting heat, and heat generated by the heating element 1042 is reflected forward by the cover 102 to improve the heating effect on air. The two ends of the cover 102 are respectively provided with an opening 1022 and a mounting opening 1024, the cover 102 is mounted on a bracket or other supporting structures through the mounting opening 1024 by arranging the mounting opening 1024 on the cover 102, and heat is radiated outwards from the opening 1022 under the reflection action of the cover 102, so that the temperature of the environment is increased. It should be added that, by providing the heating assembly 104, heat can be radiated to the cover 102 under the action of the heating element 1042, so that the heat is reflected under the action of the cover 102, specifically, the supporting plate 1046 is fixed on the cover 102, and the heating element 1042 is sleeved outside the supporting plate 1046, so that a certain support is provided for the heating element 1042 under the action of the supporting plate 1046, so that when the heating element 1042 generates heat radiated onto the cover 102, the heat is reflected under the action of the inner wall of the cover 102 to be combined with the heat directly radiated forward by the heating element 1042, thereby enhancing the heat radiated forward.

The cover body 102 is further provided with an outer cover 108, the outer cover 108 is detachably connected with the cover body 102, and can protect the cover body 102 to a certain extent, it can be understood that the inner wall of the cover body 102 is used for reflecting heat, so that the inner wall of the cover body 102 is provided with a special coating or a special reflection structure, if the inner wall is exposed outside, the inner structure is damaged by the influence of external sundries, and on the other hand, when the outer cover 108 is not arranged, a user may touch the working heating element 1042 carelessly, so that the use safety of the whole product is improved under the action of the outer cover 108.

Additionally, on the basis of the arrangement of the outer cover 108, after the outer cover 108 is connected to the cover body 102, the heat insulation board 106 is connected to the outer cover 108, the cover body 102 and the support plate 1046 respectively, so that the space in the cover body 102 is divided into a plurality of independent spaces to improve the uniformity of heating.

It should be emphasized that, in this embodiment, the heat insulation board 106 for separating heat generated by the heat generating element 1042 is further disposed in the cover 102, by disposing the heat insulation board 106 between the cover 102 and the supporting plate 1046, the heat generating element 1042 generates a large amount of heat during operation, heat flows into air to form hot air, the hot air naturally flows upwards due to its low density, the heat generated by the whole heat generating element 1042 is accumulated upwards under the action of the cover 102, by disposing one or more heat insulation boards 106 between the cover 102 and the supporting plate 1046 along the circumferential direction, because the heat generating element 1042 is disposed in a manner of being sleeved outside the supporting plate 1046, the heat generated by the heat generating element 1042 can be separated under the action of the heat insulation boards 106, thereby effectively blocking heat collection, preventing the temperature at the top of the reflector from being too high, bringing about a safety hazard to a user, and simultaneously, improving the overall heat generation uniformity of the reflector assembly 100, the use experience of the user is improved.

On the basis of any of the above embodiments, air flows in the flowing space formed between the cover 102 and the supporting plate 1046, and under the balance action of the air pressure, a part of air flows out from the flowing space, and another part of air flows into the flowing space, so that the dynamic balance of the air pressure is ensured. On this basis, in the dynamic process, can have a collection region in the flow space, and it is the terminal region of flow in-process, and also most air can flow to in the collection region in the flow space to only need set up heat insulating board 106 on the collection region, can effectively reduce thermal gathering, prevent that the bowl top temperature is too high, bring the hidden danger for user's safety, simultaneously, improve the holistic homogeneity that generates heat of bowl subassembly 100, improve user's use and experience.

It will of course be appreciated that not all of the air will flow out of the collection region, and that air will be diffusive and will inevitably flow directly out of the collection region as it flows into it.

In a specific embodiment, the collection region is located at the top of the structure.

In a more specific embodiment, as shown in fig. 1, two or more heat insulation boards 106 are symmetrically disposed on the top of the supporting board 1046, which can effectively block the heat collection, improve the heat generation uniformity of the whole reflector assembly 100, and improve the user experience.

It is understood that the top of the support plate 1046 may be defined as a portion above a plane passing through the axis of the support plate 1046 and parallel to the horizontal plane, and a portion above the horizontal plane on the cross section of the support plate 1046, and if an angular coordinate system is established on the cross section of the support plate 1046, and the axis is the origin, the top may be between 0 ° and 270 °. Further, the angle can be set between 45 degrees and 315 degrees, and can also be set between 30 degrees and 300 degrees.

In another specific embodiment, as shown in fig. 5, the heat insulation plates 106 are uniformly disposed, so that the heat generated by the whole reflector assembly 100 is more uniform, and it can be understood that the heat generated by different parts of the heat generating member 1042 can be independently separated under the action of the heat insulation plates 106, so as to improve the uniformity of the heat generated and prevent the occurrence of safety hazard due to over-high local temperature.

EXAMPLE five

As shown in fig. 6, the heating apparatus 200 of the present embodiment includes a support base 202 and a reflective cover assembly 100. The reflective hood assembly 100 is mainly used to concentrate heat and reflect the heat outward to ensure the temperature of the environment. In addition, since the reflective cover assembly 100 is disposed on the bracket 204 of the supporting base 202, and can rotate or fix for heating according to different supporting bases 202, it is necessary to supplement that the reflective cover assembly 100 of any of the above embodiments is disposed in the heating device 200, so that the beneficial effects of the embodiments of the reflective cover assembly 100 are achieved, and no further description is provided herein.

It is emphasized that the heating device 200 includes, but is not limited to, a small sun, a small stove, etc. which can heat up the environment.

The application also provides a specific little sun product, increases heat shield (heat insulating board promptly) in the bowl subassembly, makes the hot gas flow not in the middle gathering, reduces bowl top temperature rise to avoid the top temperature rise too high, make little warm sun product safer.

Through increasing thermal baffle, on the one hand with little sun product part of generating heat carry out the subregion and handle for top zone temperature descends, and other zone temperature rise, thereby make the generating heat of little sun room heater even, on the other hand can make directly over the heating tube under thermal baffle's effect, also the temperature at bowl top descends, thereby can make little sun shell's temperature resistant demand reduce, can adopt the lower material of temperature resistant, thereby reduce cost.

According to the reflector component and the heating equipment provided by the utility model, under the action of the heat insulation plate, heat generated by the heating part can be separated, the collection of heat is effectively blocked, the phenomenon that the temperature at the top of the reflector is overhigh and hidden danger is brought to the safety of a user is prevented, meanwhile, the integral heating uniformity of the reflector component is improved, and the use experience of the user is improved.

In the present invention, the terms "first", "second", and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance; the term "plurality" means two or more unless expressly limited otherwise. The terms "mounted," "connected," "fixed," and the like are to be construed broadly, and for example, "connected" may be a fixed connection, a removable connection, or an integral connection; "coupled" may be direct or indirect through an intermediary. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "left", "right", "front", "rear", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the referred device or unit must have a specific direction, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention.

In the description herein, the description of the terms "one embodiment," "some embodiments," "specific embodiments," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the utility model. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes will occur to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A bowl assembly, comprising:

the mask comprises a mask body, wherein one end of the mask body is provided with an opening, and the other end of the mask body is provided with an installation opening;

the heating assembly comprises a heating piece and a supporting plate, the supporting plate is arranged inside the cover body around the mounting opening, and the heating piece is sleeved outside the supporting plate;

and the heat insulation plate is arranged between the cover body and the supporting plate.

2. The bowl assembly of claim 1 wherein the heat shield has ends connected to the open end of the bowl body and the mounting mouth end of the bowl body, respectively.

3. The bowl assembly of claim 2 wherein the bowl is a body of revolution and the heat shield is disposed radially of the bowl.

4. The bowl assembly of claim 1, further comprising:

the vent hole is arranged on the supporting plate.

5. The reflex housing assembly according to claim 2, wherein a flow space in which air can flow is formed between the housing body and the support plate;

at least two heat insulation plates are arranged in a gathering area of the flowing space, and the gathering area is an end area where air flows in the flowing space.

6. The bowl assembly of claim 1, further comprising:

the outer cover is detachably connected with the cover body, and a grating is arranged on the outer cover;

the side wall of the heat insulation plate is connected with the outer cover, the cover body and the supporting plate respectively.

7. The bowl assembly of claim 1, wherein there are at least two of the heat shields disposed on top of the support plate in a vertical direction, and the heat shields disposed on top of the support plate are symmetrically disposed about the vertical direction.

8. The bowl assembly of claim 1 wherein the heat shield is provided in a plurality, and the plurality of heat shields are disposed uniformly around the circumference of the bowl body.

9. A heating appliance, comprising:

the supporting seat is provided with a bracket;

the bowl assembly of any one of claims 1 to 8, connected to the support.

10. The heating installation according to claim 9, wherein the heat insulating panel of the reflector assembly is provided on a side of the support plate of the reflector assembly remote from the support base.

Images