CN206410203U - Reflective warmer and its thermal source component - Google Patents

Abstract

The utility model discloses a kind of reflective warmer and its thermal source component, the thermal source component of the reflective warmer includes insulating base (1) and heating element heater (2), the insulating base extends along trajectory to be formed and cross-sectional area is tapered into along the bearing of trend of the trajectory, and heating element heater is arranged on the side of insulating base.The utility model is tapered into by the way that insulating base is designed as along the bearing of trend cross-sectional area of trajectory, and heating element heater is arranged to the side of insulating base, so that Temperature Distribution of the heating element heater transmitting on reflector is more uniform, so that the energy that reflective warmer is outwards launched is also more uniform, the user for improving reflective warmer uses friendly.

Description

Reflective warmer and its thermal source component

Technical field

The utility model is related to heating heat source configurations, in particular it relates to a kind of reflective warmer and its thermal source component.

Background technology

Warmer is the most frequently used heating system in family life, and small solar warmer is using most in reflective warmer One of extensive kind.It uses radiation mechanism so that the energy of heat source emission focuses on needs by reflector reflection The space and surface of heating.Coordinated by rational light source design and reflector, preferable heating effect can be obtained, had simultaneously There is important energy-saving significance.

In the prior art, referring to Fig. 1, warmer thermal source component mainly includes shell 3 ', mounting seat 1 ' and heater strip 2 '. The shell of mounting seat 1 ' 3 ' is the box like structure of a disc format, and mounting seat 1 ' is generally ceramic material, and its structure is annular in shape simultaneously It is fixed in the middle of shell 3 ', heater strip 2 ' is coiled into cylinder form and is arranged on the annular end face of mounting seat 1 ', is similarly formed One cyclic structure.Referring to Fig. 2, mounting seat 1 ' is installed with the compartment of terrain of reflector 10 in warmer thermal source component, and causes cloth The annular end face for being equipped with the mounting seat 1 ' of heater strip 2 ' is set towards reflector 10 so that the heat that heater strip 2 ' is distributed is concentrated on On reflector 10, and heat is outwards dissipated by reflector 10.Have a disadvantage in that, the heating zone of the heating surface formation of reflector 10 Domain is ring-type so that temperature distributing disproportionation is even, so that the energy that warmer is outwards launched is also uneven, influence warmer User uses friendly.

Utility model content

The purpose of this utility model is to provide a kind of reflective warmer and its thermal source component, the heat of the reflective warmer Source component enables to Temperature Distribution more uniform so that the energy that reflective warmer is outwards launched is also more uniform, improves The user of reflective warmer uses friendly.

To achieve these goals, according to one side of the present utility model, there is provided a kind of thermal source group of reflective warmer Part, the thermal source component of the reflective warmer includes insulating base and heating element heater, and the insulating base extends to be formed and horizontal along trajectory Area of section is tapered into along the bearing of trend of the trajectory, and the heating element heater is arranged at the side of the insulating base On.

Preferably, the insulating base includes the first end face and second end face positioned at the trajectory two ends, the side Between the first end face and the second end face, the area of the first end face is less than the area of the second end face, The heating element heater is arranged on the side.

Preferably, the insulating base is frustum of a pyramid shape, and the insulating base includes being located at the first end face and described second Multiple sides between end face, the heating element heater is arranged on multiple sides.

Preferably, the insulating base is truncated cone, and the side is circular conical surface, the first end face and second end Face is circle, and the heating element heater is arranged on the circular conical surface.

Preferably, the heating element heater is distributed in institute using fold-line-shaped or by axle spirality of the central shaft of the insulating base State on side.

Preferably, the heating element heater include multiple first paragraphs and multiple second segments, multiple first paragraphs along it is described absolutely The even circumferential distribution of edge seat, the adjacent first paragraph is end to end by the second segment.

Preferably, on the side area ratio between heating element heater and the side is 1:3-1:5.

Preferably, the heating element heater is additionally arranged in the first end face.

Preferably, the heating element heater is distributed in institute using fold-line-shaped or by axle spirality of the central shaft of the insulating base State in first end face.

Preferably, the area ratio between the heating element heater and the first end face in the first end face is 1:3-1:5.

Preferably, the first end face is formed with the axial direction extension along the insulating base away from the first end face Axial ledge.

Preferably, the first end face is provided with the heating element heater and the side in through hole, the first end face Heating element heater is electrically connected by the through hole.

Preferably, the heating element heater is not arranged in the second end face.

Preferably, the heating element heater is heater strip, and the two ends of the heating element heater are respectively from the first end face along institute The axial direction for stating insulating base stretches out.

Preferably, the first end face is provided with two outlet ports, and the two ends of the heating element heater pass through two respectively The outlet port is stretched out.

Preferably, two outlet ports have been also respectively connected with support bar, and the two ends of the heating element heater are sequentially passed through The outlet port and the support bar stretch out.

In addition, according to another aspect of the present utility model, there is provided a kind of reflective warmer, the reflective warmer bag Netted front shroud, reflector and back cover are included, the reflector is arranged on the inner surface of the back cover, the periphery of the netted front shroud It is connected with the periphery of the back cover, the reflective warmer also includes above-mentioned reflective warmer provided by the utility model Thermal source component, the thermal source component of the reflective warmer is arranged between the netted front shroud and the reflector, described The maximum one end of the cross-sectional area of insulating base is set towards the netted front shroud, one end of the cross-sectional area minimum of the insulating base It is arranged at intervals towards the reflector and with the reflector, on the same longitudinal cross-section of the reflector, the insulating base Edge it is equal with the spacing between the edge of the reflector.

By above-mentioned technical proposal, the utility model is by the way that insulating base to be designed as to the bearing of trend cross section along trajectory Product is tapered into, and heating element heater is arranged to the side of insulating base so that when the heating element heats production on side After raw energy, it can launch simultaneously on reflector so that the face compared with annular outer heating zone in the prior art is formed on reflector The larger heating region of product, and make it that Temperature Distribution of the transmitting on reflector is more uniform, so that reflection-type is warmed oneself The energy that device is outwards launched is also more uniform, and the user for improving reflective warmer uses friendly.

Other features and advantages of the utility model will be described in detail in subsequent embodiment part.

Brief description of the drawings

Accompanying drawing is to be further understood for providing to of the present utility model, and constitutes a part for specification, and following Embodiment be used to explain the utility model together, but do not constitute to limitation of the present utility model.In the accompanying drawings：

Fig. 1 is the structural representation of the thermal source component of reflective warmer in the prior art；

Fig. 2 is the longitdinal cross-section diagram of reflective warmer in the prior art；

Fig. 3 is the stereogram of the thermal source component according to the reflective warmer of preferred embodiment of the present utility model；

Fig. 4 is the top perspective of the thermal source component according to the reflective warmer of preferred embodiment of the present utility model Figure；

Fig. 5 is the side view of the thermal source component according to the reflective warmer of preferred embodiment of the present utility model；

Fig. 6 is the longitudinal sectional view of the reflective warmer according to preferred embodiment of the present utility model.

Description of reference numerals

The heater strip of 1 ' mounting seat 2 '

The reflector of 3 ' shell 10

The heating element heater of 1 insulating base 2

The first end face of 11 circular conical surface 12

The outlet port of 13 second end face 14

The first paragraph of 15 support bar 21

The axial ledge of 22 second segment 121

122 through holes

Embodiment

Embodiment of the present utility model is described in detail below in conjunction with accompanying drawing.It should be appreciated that herein Described embodiment is merely to illustrate and explained the utility model, is not limited to the utility model.

In the utility model, in the case where not making opposite explanation, the noun of locality used such as " transverse direction " refers to reflection-type When warmer is normally placed, towards the direction of the plane of user；When " longitudinal direction " refers to that reflective warmer is normally placed, reflection The short transverse of type warmer.

Referring to Fig. 3 to Fig. 5, there is provided a kind of thermal source component of reflective warmer, the thermal source group of the reflective warmer Part includes insulating base 1 and heating element heater 2, and the insulating base 1 extends to be formed and cross-sectional area prolonging along the trajectory along trajectory Stretch direction and taper into, heating element heater 2 is arranged on the side of insulating base 1.Wherein it should be noted that the trajectory Two-dimensional curve or three-dimensional curve can be alternatively for straight line.

In the prior art, referring to Fig. 1 and Fig. 2, warmer thermal source component mainly includes shell 3 ', mounting seat 1 ' and heating Silk 2 '.The shell of mounting seat 1 ' 3 ' is the box like structure of a disc format, and mounting seat 1 ' is generally ceramic material, and its structure is in ring Shape is simultaneously fixed in the middle of shell 3 ', and heater strip 2 ' is coiled into cylinder form and is arranged on the annular end face of mounting seat 1 ', equally Form a cyclic structure.Referring specifically to Fig. 3, mounting seat 1 ' is installed with the compartment of terrain of reflector 10 in warmer thermal source component, and And the annular end face for the mounting seat 1 ' for being disposed with heater strip 2 ' is set towards reflector 10 so that the heat that heater strip 2 ' is distributed Amount is concentrated on reflector 10, and outwards dissipates heat by reflector 10.What the heating surface of reflector 10 therein was formed adds Thermal region is ring-type so that temperature distributing disproportionation is even, so that the energy that warmer is outwards launched is also uneven, influence heating The user of device uses friendly.

Therefore insulating base 1 is innovatively designed as gradually becoming along the bearing of trend cross-sectional area of trajectory by the utility model It is small, and heating element heater 2 at least is arranged on to the side of insulating base 1 so that when the heating of heating element heater 2 on side produces energy Afterwards, it can be transmitted into simultaneously on reflector 10 so that the area compared with annular outer heating zone in the prior art is formed on reflector 10 Bigger heating region.And make it that Temperature Distribution of the transmitting on reflector 10 is more uniform, so that reflection-type is warmed oneself The energy that device is outwards launched is also more uniform, and the user for improving reflective warmer uses friendly.

Wherein it is preferred to, insulating base 1 includes the first end face 12 and second end face 13 positioned at trajectory two ends, side position Between first end face 12 and second end face 13, the area of first end face 12 is less than the area of second end face 13, heating element heater 2 to It is arranged on less on side.So that the energy of the heating element heater 2 on the varying cross-section of side can be reflexed on reflector 10, with Form uniformity of temperature profile and the larger energy acceptance region of area.But the utility model is not limited thereto, insulating base 1 also may be used To only include an end face, i.e. second end face 13, the area of first end face 12 can be 0 or only one point, such as insulating base 1 For hemispherical.

Wherein, insulating base 1 can be regular space geometric from or irregular space geometric from.For the ease of shaping and Processing, insulating base 1 is preferably the space geometric from of rule.It is highly preferred that in a kind of embodiment of the present utility model, absolutely Edge seat 1 can be frustum of a pyramid shape, and insulating base 1 includes first end face 12, second end face 13 and positioned at first end face 12 and second Multiple sides between end face 13, the area of first end face 12 is less than the area of second end face 13, and heating element heater 2 is arranged at On multiple sides.Because the area of first end face 12 is less than the area of second end face 13 so that in first end face 12 along the frustum of a pyramid Central shaft direction observation, the cross-sectional area of the insulating base 1 of frustum of a pyramid shape gradually increases, so that the side of the frustum of a pyramid Heating element heater 2 can also form the heating region of larger area and uniformity of temperature profile on reflector 10 on face.Wherein, first End face 12 and second end face 13 are polygon, and the side of the frustum of a pyramid is the correspondence of connection first end face 12 and second end face 13 respectively The face that side is formed.Wherein, it is further preferred that heating element heater 2 can be positioned only on side, first end face can be also arranged on simultaneously 12 and side on, can also set simultaneously on second end face 13, first end face 12 and side.

But the utility model is not limited thereto, in preferred embodiment of the present utility model, particularly preferably, insulation Seat 1 is truncated cone, and the side is circular conical surface 11, and the insulating base 1 includes circular first end face 12, the second circular end Face 13 and the circular conical surface 11 between first end face 12 and second end face 13, the area of first end face 12 are less than second end face 13 area, heating element heater 2 is arranged on circular conical surface 11.By being truncated cone, truncated cone insulating base by insulating base 1 1 side is circular conical surface 11 so that the spacing between heating element heater 2 and reflector 10 on the circular conical surface 11 of arrangement insulating base 1 Uniformly, so that the energy launched to reflector 10 of heating element heater 2 is more uniform.

The arrangement form on the side of insulating base 1 of heating element heater 2 has a variety of.For example, in a kind of implementation of the present utility model In mode, heating element heater 2 is distributed on side with fold-line-shaped.Specifically, heating element heater 2 includes multiple first paragraphs 21 and second segment 22, even circumferential distribution of multiple first paragraphs 21 along insulating base 1, adjacent first paragraph 21 is end to end by second segment 22.Cloth The shape for putting the heating element heater 2 to be formed is similar to waveform or fold-line-shaped.Preferably, referring to Fig. 3 to Fig. 5, insulating base 1 is circular cone Platform shape, generatrix direction of multiple first paragraphs 21 along circular conical surface 11 is set.But the utility model is not limited thereto, first paragraph 21 On the side that insulating base 1 can be angularly disposed at.In another embodiment of the present utility model, heating element heater 2 is with exhausted The central shaft of edge seat 1 is distributed for axle spirality.But the utility model is not limited thereto, as long as enabling to heating element heater 2 On the side for being distributed evenly in insulating base 1, for example, heating element heater 2 first is coiled into multiple discs, by multiple circles Dish type is evenly distributed on the side of insulating base 1.Wherein, heating element heater 2 can be an entirety, can also be by multiple heating Element segment connects to be formed.

Designer can set the heating element heater of different area size according to specific operating mode on the side of insulating base 1 2, to adapt to different operating modes, increase versatility, be also convenient for the design of thermal source component heating effect.Of the present utility model preferred In embodiment, it is preferable that the area ratio between heating element heater 2 and side on side is 1:3-1:5.

In order that reflector 10 the temperature that receives of heating surface it is more uniform, it is preferable that heating element heater 2 is additionally arranged at the On end face 12.So that to the emitted energy of reflector 10, to be formed, area is larger and temperature is uniform except the side of insulating base 1 Outside annular outer heating zone, by the way that further heating element heater 2 is arranged in first end face 12 so that in first end face 12 Heating element heater 2 has filled up the core of the annular outer heating zone formed on reflector 10, that is, causes the whole interior of reflector 10 Surface is all formed as the uniform heating region of temperature.Again by the reflex of reflector 10, the energy that heating region is received Outwards reflex to the space or surface for needing to heat.

Wherein, arrangement form of the heating element heater 2 in first end face 12 can also be a variety of.For example, in the utility model A kind of embodiment in, referring to Fig. 3 to Fig. 5, heating element heater 2 is distributed in first end face 12 with fold-line-shaped.And for example, in this reality With in a kind of new embodiment, heating element heater 2 is distributed in first end face 12 by axle spirality of the central shaft of insulating base 1 On.But the utility model is not limited thereto, as long as enabling to heating element heater 2 to be distributed evenly in the first end of insulating base 1 On face 12, for example, heating element heater 2 first is coiled into multiple discs, multiple discs are being evenly distributed in insulation In the first end face 12 of seat 1.

Similarly, designer can set different area size according to specific operating mode in the first end face 12 of insulating base 1 Heating element heater 2, to adapt to different operating modes, increase versatility, be also convenient for the design of thermal source component heating effect.In this practicality In new preferred embodiment, it is preferable that the area ratio between heating element heater 2 and first end face 12 in first end face 12 is 1:3-1:5。

Referring to Fig. 6, because first end face 12 and the reflector 10 of insulating base 1 are arranged at intervals, therefore in order that first end is obtained The energy of heating element heater 2 on face 12 is all launched to the inner surface of reflector 10 as far as possible, it is preferable that the shape of first end face 12 Into the axially extending flange 121 of axial direction having along the insulating base 1 away from first end face 13.I.e. so that the first of insulating base 1 End face 12 is formed as groove, and heating element heater 2 is arranged on the inner side of axial ledge 121 (i.e. on the bottom wall of groove), so that plus Thermal element 2 is hidden in groove, and the one side of axial ledge 121 plays a part of protecting heating element heater 2, on the other hand plays and gathers The heat of heating element heater 2 in first end face 12 so that the energy of the heating element heater 2 in first end face 12 is all launched as far as possible To the inner surface of reflector 10.

Heating element heater 2 is arranged on first end face 12 and side for convenience, can be enterprising by first end face 12 and side Row electrical connection.In order to further protect heating element heater 2, it is preferable that be provided with through hole 122 in first end face 12 so that first end The heating element heater 2 on heating element heater 2 and side on face 12 is electrically connected by through hole 122.In preferred reality of the present utility model Apply in mode, two through holes 122 are opened up on the position of axial ledge 121 in first end face 12 so that adding on side Two ends of the two ends of thermal element 2 respectively with the heating element heater 2 in first end face are electrically connected.

Referring to Fig. 6, the second end face 13 of insulating base 1 is set towards netted front shroud, i.e. the second end face 13 of insulating base 1 is direct Towards user, therefore from the point of view of the security reliability and the service life of part used, it is preferable that heating element heater 2 are not arranged in second end face 13.

Wherein, heating element heater 2 can be diversified forms.For example, heating element heater 2 can be luminous heating tube etc..In this reality With in a kind of new embodiment, heating element heater 2 is heater strip, it is preferable that heating element heater 2 is a continuous heater strip. Realize that heating element heater 2 is electrically connected with dependent control element for convenience, it is preferable that the two ends of heating element heater 2 are respectively from first end Axial direction of the face 12 along insulating base 1 stretches out, and first end face 12 is provided with two outlet ports 14, the two ends point of heating element heater 2 Do not stretched out by two outlet ports 14.Preferably, referring to Fig. 5, insulating base 1 is truncated cone, and first end face 12 is circle, two Radial arrangement of the individual outlet port 14 along first end face 12.The two ends of certain heating element heater 2 can also be stretched out by side.

Referring to Fig. 6, it is arranged at intervals for the ease of insulating base 1 with reflector 10, it is preferable that also distinguish two outlet ports 14 Support bar 15 is connected with, the two ends of heating element heater 2 sequentially pass through outlet port 14 and support bar 15 stretches out.Made by support bar 15 It is arranged at intervals between the first end face 12 and reflector 10 that obtain insulating base 1.Wherein, support bar 15 is preferably what insulating materials was made Sleeve pipe, for example, the insulating materials ceramic material.But the utility model is not limited thereto, other connectors also can be individually used So that being arranged at intervals between the first end face 12 and reflector 10 of insulating base 1.

Finally, referring to Fig. 6 there is provided a kind of reflective warmer, reflective warmer includes netted front shroud, reflector 10 And back cover, reflector 10 is arranged on the inner surface of back cover, and the periphery of the netted front shroud is connected with the periphery of the back cover, institute Stating reflective warmer also includes the thermal source component of above-mentioned reflective warmer provided by the utility model, and the reflection-type takes The thermal source component of warmer is arranged between netted front shroud and reflector 10, maximum one end of the cross-sectional area of insulating base 1 (that is, the Biend 13) set towards netted front shroud, one end (that is, first end face 12) direction that the cross-sectional area of insulating base 1 is minimum reflects Cover 10 and be arranged at intervals with reflector 10, on the same longitudinal cross-section of reflector 10, edge and the reflector 10 of insulating base 1 Spacing between edge is equal.Enable reflective warmer thermal source component heating element heater 2 equably to reflector 10 Inner surface emitted energy, and by the reflex of reflector 10, the energy that the inner surface of reflector 10 is received is to needing The space to be heated or surface non-uniform reflection, are used friendly with the temperature distribution evenness and user that improve reflective warmer Property.

Preferred embodiment of the present utility model is described in detail above in association with accompanying drawing, still, the utility model is not limited Detail in above-mentioned embodiment, can be to skill of the present utility model in range of the technology design of the present utility model Art scheme carries out a variety of simple variants, and these simple variants belong to protection domain of the present utility model.

It is further to note that each particular technique feature described in above-mentioned embodiment, in not lance In the case of shield, it can be combined by any suitable means, in order to avoid unnecessary repetition, the utility model is to each Possible combination is planted no longer separately to illustrate.

In addition, can also be combined between a variety of embodiments of the present utility model, as long as it is not disobeyed Thought of the present utility model is carried on the back, it should equally be considered as content disclosed in the utility model.

Claims (17)

1. the thermal source component of reflective warmer, it is characterised in that the thermal source component of the reflective warmer includes insulating base (1) With heating element heater (2), the insulating base (1) extend along trajectory to be formed and bearing of trend of the cross-sectional area along the trajectory and by Gradual change is small, and the heating element heater (2) is arranged on the side of the insulating base (1).

2. the thermal source component of reflective warmer according to claim 1, it is characterised in that the insulating base (1) includes First end face (12) and second end face (13) positioned at the trajectory two ends, the side be located at the first end face (12) and Between the second end face (13), the area of the first end face (12) is less than the area of the second end face (13), described to add Thermal element (2) is arranged on the side.

3. the thermal source component of reflective warmer according to claim 2, it is characterised in that the insulating base (1) is rib Taper type, the insulating base (1) includes the multiple sides being located between the first end face (12) and the second end face (13), The heating element heater (2) is arranged on multiple sides.

4. the thermal source component of reflective warmer according to claim 2, it is characterised in that the insulating base (1) is circle Taper type, the side is circular conical surface (11), and the first end face (12) and the second end face (13) are circle, described to add Thermal element (2) is arranged on the circular conical surface (11).

5. the thermal source component of reflective warmer as claimed in any of claims 1 to 4, it is characterised in that described Heating element heater (2) is distributed on the side using fold-line-shaped or using the central shaft of the insulating base (1) as axle spirality.

6. the thermal source component of reflective warmer according to claim 5, it is characterised in that heating element heater (2) bag Multiple first paragraphs (21) and multiple second segments (22) are included, multiple first paragraphs (21) are uniform along the circumference of the insulating base (1) It is distributed on the side, the adjacent first paragraph (21) is end to end by the second segment (22).

7. the thermal source component of reflective warmer as claimed in any of claims 1 to 4, it is characterised in that described The area ratio between heating element heater (2) and the side on side is 1:3-1:5.

8. the thermal source component of reflective warmer as claimed in any of claims 2 to 4, it is characterised in that described Heating element heater (2) is additionally arranged in the first end face (12).

9. the thermal source component of reflective warmer according to claim 8, it is characterised in that the heating element heater (2) with Fold-line-shaped is distributed in the first end face (12) by axle spirality of the central shaft of the insulating base (1).

10. the thermal source component of reflective warmer according to claim 8, it is characterised in that the first end face (12) On heating element heater (2) and the first end face (12) between area ratio be 1:3-1:5.

11. the thermal source component of reflective warmer according to claim 8, it is characterised in that the first end face (12) It is formed with the axially extending flange of axial direction (121) along the insulating base (1) away from the first end face (13).

12. the thermal source component of reflective warmer according to claim 8, it is characterised in that the first end face (12) Provided with through hole (122), the heating element heater (2) on heating element heater (2) and the side on the first end face (12) passes through Through hole (122) electrical connection.

13. the thermal source component of reflective warmer as claimed in any of claims 2 to 4, it is characterised in that described Heating element heater (2) is not arranged in the second end face (13).

14. the thermal source component of reflective warmer as claimed in any of claims 2 to 4, it is characterised in that described Heating element heater (2) is heater strip, and the two ends of the heating element heater (2) are respectively from the first end face (12) along the insulating base (1) axial direction stretches out.

15. the thermal source component of reflective warmer according to claim 14, it is characterised in that the first end face (12) Provided with two outlet ports (14), the two ends of the heating element heater (2) are stretched out by two outlet ports (14) respectively.

16. the thermal source component of reflective warmer according to claim 15, it is characterised in that two outlet ports (14) support bar (15) has been also respectively connected with, the two ends of the heating element heater (2) sequentially pass through the outlet port (14) and institute State support bar (15) stretching.

17. a kind of reflective warmer, the reflective warmer includes netted front shroud, reflector (10) and back cover, described anti- Penetrate cover (10) to be arranged on the inner surface of the back cover, the periphery of the netted front shroud is connected with the periphery of the back cover, it is special Levy and be, the reflective warmer also includes the reflective warmer according to any one in claim 1 to 16 Thermal source component, the thermal source component of the reflective warmer is arranged between the netted front shroud and the reflector (10), institute The one end for stating the cross-sectional area maximum of insulating base (1) is set towards the netted front shroud, and the cross-sectional area of the insulating base (1) is most Small one end is arranged at intervals towards the reflector (10) and with the reflector (10), in the same vertical of the reflector (10) To on section, the edge of the insulating base (1) is equal with the spacing between the edge of the reflector (10).