CN208504390U - Burner, gas-cooker and the heat insulation loop of gas-cooker - Google Patents

Abstract

The utility model relates to kitchen range fields, disclose the burner, gas-cooker and heat insulation loop of a kind of gas-cooker.The burner includes: fire cover, and the fire cover has central through hole；Temperature sensor in the central through hole of the fire cover, and is higher than the fire cover at the top of the temperature sensor；Heat insulation loop is located in the fire cover, is configured as being arranged around the temperature sensor, and be not bonded with the temperature sensor；Wherein, the heat insulation loop includes oversheath and inner sheath, and the oversheath is connected with the inner sheath by snap, the oversheath and the inner sheath can relative motion in the vertical direction so that the heat insulation loop can stretch in the vertical direction.Temperature sensor is separated with flame by increasing a heat insulation loop on interior ring fire cover, improves the precision of temperature sensor detection cooking bottom temperature, so that actual temperature value of the temperature value of detection closer to the bottom of a pan.

Description

Burner, gas-cooker and the heat insulation loop of gas-cooker

Technical field

The utility model relates to kitchen range fields, and in particular, to a kind of burner of gas-cooker, gas-cooker and heat insulation loop.

Background technique

As shown in Figure 1, all a temperature sensor can be arranged in its burner center to detect pot in many gas-cookers at present Bottom temperature.However, temperature sensor will receive flame radiation influence in gas-cooker work, lead to the temperature value meeting measured Higher than actual temperature value, measurement accuracy is poor.Especially when flame is influenced by extraneous beam wind, flame can be blown to temperature sensing Device, this temperature that may cause temperature sensor is more than preset value, generates erroneous judgement.In the related art, some temperature sensors On will be installed heat shield, to reduce the error of temperature value that temperature sensor measures and the bottom of a pan actual temperature value, but due to every Heat cover is mounted on temperature sensor, heat shield when by Fire Radiation, heat can by thermally conductive form reach inside On temperature sensor, the measurement accuracy of temperature sensor equally also will affect.

Utility model content

In order at least be partially solved the above-mentioned problems in the prior art, the purpose of the utility model is to provide one kind Burner, gas-cooker and the heat insulation loop of gas-cooker.

To achieve the goals above, the utility model provides a kind of burner of gas-cooker, and the burner includes: fire Lid, the fire cover have central through hole；Temperature sensor, in the central through hole of the fire cover, and the temperature sensor Top is higher than the fire cover；Heat insulation loop, be located at the fire cover on, be configured as around the temperature sensor be arranged, and with institute Temperature sensor is stated not to be bonded；Wherein, the heat insulation loop includes oversheath and inner sheath, and the oversheath and the inner sheath are logical Cross snap connection, the oversheath and the inner sheath can relative motion in the vertical direction so that it is described every Hot ring can stretch in the vertical direction.

Optionally, the heat insulation loop further includes elastomeric element, and the elastomeric element is for elastic connection in the vertical direction The oversheath and the inner sheath, the oversheath have at least one limiting slot, and the outer wall of the inner sheath has and institute The corresponding spacer pin of limiting slot is stated, the limiting slot can limit the vertical scope of activities of the spacer pin.

Optionally, the heat insulation loop further includes elastomeric element, and the elastomeric element is for elastic connection in the vertical direction The oversheath and the inner sheath, the inner sheath have at least one limiting slot, and the inner wall of the oversheath has and institute The corresponding spacer pin of limiting slot is stated, the limiting slot can limit the vertical scope of activities of the spacer pin.

Optionally, the limiting slot includes with the extension being open straight up, lateral turning point and vertical limit Position portion, the extension downside are connected to the turning point, and the turning point is connected to the limiting section；Wherein, the limit Pin can be caught in along the extension into the limiting slot, and after being rotated via the turning point, enter the limit In the portion of position.

Optionally, the top of the heat insulation loop is higher than the temperature sensing when the heat insulation loop is in the collapsing length upper limit The top of device.

Optionally, the fire cover upper surface includes circular groove, and the bottom of the heat insulation loop can be embedded in the groove In.

Optionally, the fire cover upper surface has inner arc structure, to limit the shifting of the heat insulation loop in the horizontal direction It is dynamic.

Optionally, the fire cover upper surface is rough surface.

Optionally, the fire cover upper surface includes symmetrically arranged at least a pair of of block piece, and the block piece is for limiting The movement of the heat insulation loop in the horizontal direction.

On the other hand, the utility model also provides a kind of gas-cooker, and the gas-cooker includes above-mentioned burner.

On the other hand, the utility model also provides a kind of heat insulation loop, and the heat insulation loop includes oversheath and inner sheath, described Oversheath is connected with the inner sheath by snap, and the oversheath and the inner sheath can be opposite in the vertical direction Movement, so that the heat insulation loop can stretch in the vertical direction.

Optionally, the heat insulation loop further includes elastomeric element, the elastomeric element for oversheath described in elastic connection and The inner sheath, the oversheath have at least one limiting slot, and the outer wall of the inner sheath has opposite with the limiting slot The spacer pin answered, the limiting slot can limit the vertical scope of activities of the spacer pin.

Optionally, the heat insulation loop further includes elastomeric element, the elastomeric element for oversheath described in elastic connection and The inner sheath, the inner sheath have at least one limiting slot, and the inner wall of the oversheath has opposite with the limiting slot The spacer pin answered, the limiting slot can limit the vertical scope of activities of the spacer pin.

Optionally, the limiting slot includes with the extension being open straight up, lateral turning point and vertical limit Position portion, the extension downside are connected to the turning point, and the turning point is connected to the limiting section；Wherein, the limit Pin can be caught in along the extension into the limiting slot, and after being rotated via the turning point, enter the limit In the portion of position.

The utility model above-mentioned technical proposal by interior ring fire cover increase a heat insulation loop by temperature sensor with Flame separates, and making flame radiation heat, largely partition improves the temperature sensor detection the bottom of a pan in newly-increased heat insulation loop The precision of temperature, so that actual temperature value of the temperature value of detection closer to the bottom of a pan.

Other features and advantages of the utility model will the following detailed description will be given in the detailed implementation section.

Detailed description of the invention

Attached drawing is to be used to provide a further understanding of the present invention, and constitute part of specification, and following Specific embodiment be used to explain the utility model together, but do not constitute limitations of the present invention.In the accompanying drawings:

Fig. 1 is the schematic diagram of the burner of gas-cooker in the related technology；

Fig. 2 is the schematic diagram for the gas-cooker that a kind of embodiment of the utility model provides；

Fig. 3 is the schematic diagram for the burner that a kind of embodiment of the utility model provides；

Fig. 4 to fig. 6 is the schematic diagram for the heat insulation loop that the utility model optional embodiment provides；And

Fig. 7 to Fig. 9 is the plane of the interior ring fire cover that the utility model optional embodiment provides and heat-insulated relationship ofloops Schematic diagram.

Description of symbols

1 burner, 2 operation panel

3 cooker racks, 4 rotary switch

5 temperature sensor, 6 heat insulation loop

61 oversheath, 62 inner sheath

63 elastomeric element, 611 limiting slot

621 spacer pin, 622 circumferential part

6111 extension, 6112 turning point

Ring fire cover in 6113 limiting sections 7

71 groove, 72 block piece

8 external ring fire covers

Specific embodiment

Specific embodiment of the present utility model is described in detail below in conjunction with attached drawing.It should be understood that herein Described specific embodiment is only used for describing and explaining the present invention, and is not intended to limit the utility model.

Fig. 2 is the schematic diagram for the gas-cooker that a kind of embodiment of the utility model provides, and Fig. 3 is a kind of reality of the utility model The schematic diagram for the burner that the mode of applying provides.Referring to figure 2. and Fig. 3, the utility model embodiment provides a kind of gas-cooker Burner, the burner 1 may include temperature sensor 5, interior ring fire cover 7, external ring fire cover 8 and heat insulation loop 6.Wherein, interior ring fire Lid 7 has central through hole, and temperature sensor 5 is located in the central through hole of interior ring fire cover 7, and is higher than at the top of temperature sensor 5 interior Ring fire cover 7, heat insulation loop 6 are located on interior ring fire cover 7, which is configured as surrounding the setting of temperature sensor 5, and with temperature Degree sensor 5 is not bonded.Wherein, heat insulation loop 6 may include oversheath 61 and inner sheath 62, and oversheath 61 and inner sheath 62 can be with Connected by snap, and oversheath 61 and inner sheath 62 can relative motion in the vertical direction so that heat-insulated Ring 6 can stretch in the vertical direction.The burner 1 can be located on the operation panel 2 of gas-cooker, in addition to burner 1, combustion gas Stove can also include operation panel 2, cooker racks 3 and rotary switch 4 etc..

It should be noted that this is practical for including the gas-cooker of 8 two fire covers of interior ring fire cover 7 and external ring fire cover The novel fire cover refers to interior ring fire cover 7.

In this way, the utility model on interior ring fire cover 7 by increasing a heat insulation loop 6 for temperature sensor 5 and flame It separates, making flame radiation heat, largely partition improves temperature sensor 5 and detect the bottom of a pan temperature in newly-increased heat insulation loop 6 The precision of degree, so that actual temperature value of the temperature value of detection closer to the bottom of a pan.In addition, when extraneous beam wind causes flame to blow to When temperature sensor 5, the heat insulation loop 6 that can be increased newly is sheltered from, thus when carrying out anti-dry judgement using temperature sensor 5, The probability of dry combustion method erroneous judgement can be reduced.And newly-increased heat insulation loop 6 has also flexible feature, can be suitable for having not With the cookware in the bottom of a pan.

Specifically, as shown in figure 3, temperature sensor 5 stretches out upwards from the central through hole of interior ring fire cover 7, to detect cookware The temperature of (not shown) bottom can be equipped with heat shield (not shown) on the temperature sensor 5.It is provided on interior ring fire cover Heat insulation loop 6, the heat insulation loop 6 may include oversheath 61 and inner sheath 62, and 6 lower part of heat insulation loop is oversheath 61, heat insulation loop top For inner sheath 62, inner sheath 62 can be nested in oversheath 61, and be connect by the connection type of buckle with oversheath 61, interior Sheath 62 can be moved up and down along 61 inner wall of oversheath, and oversheath 61 and inner sheath 62 are cylinder up and down, oversheath 61 drum diameter is greater than the drum diameter of inner sheath 62, and the drum diameter of inner sheath 62 is greater than temperature sensor 5 positioned at heat-insulated The width of part in ring 6, so that inner sheath 62 is not pasted with temperature sensor 5 when heat insulation loop 6 entangles temperature sensor 5 It closes.The sum of height of oversheath 61 and inner sheath 62 can be greater than the height that temperature sensor 5 is higher by interior ring fire cover part, thus When placing cooker in cooker racks 3, heat insulation loop 6 can completely be closed temperature sensor 5, so that temperature sensor 5 and the external world are complete Full isolation.

Fig. 4 to fig. 6 is the schematic diagram for the heat insulation loop that the utility model optional embodiment provides.As shown in Figures 4 to 6, In a kind of optional embodiment of the utility model, heat insulation loop 6 further includes elastomeric element 63, which is used for vertical Elastic connection oversheath 61 and inner sheath 62 on direction, oversheath 61 have at least one limiting slot 611, the outer wall of inner sheath 62 With spacer pin 621 corresponding with limiting slot 611, limiting slot 611 can limit the vertical scope of activities of spacer pin 621.

In this way, can make oversheath 61 and inner sheath 62 in a manner of snapping connection by limiting slot 611 and spacer pin 621 It is attached, stretches since heat insulation loop 6 is limited in scope of activities defined by limiting slot 611, thus shield in guaranteeing Set 62 and oversheath 61 are not readily separated, and elastomeric element 63 can make between inner sheath 61 and oversheath 62 in vertical direction It is upper that there is elastic force, the flexible flexibility of heat insulation loop 6 is increased, it is user-friendly.

Wherein, a limiting slot 611 is at least arranged on the barrel of oversheath 61 in the preferred embodiment can be outside It is symmetrical arranged two limiting slots 611 on the barrel of sheath, or is symmetrically arranged four for interval, two-by-two on barrel with 90 ° Limiting slot 611.

Specifically, if Fig. 4 and Fig. 5, elastomeric element 63 can be, for example, compression spring, when in use, which can To be located at the bottom side position inside oversheath 61, after inner sheath 62 is inserted in oversheath 62, bottom is contacted with compression spring.Inside When the pressure downward by cookware of sheath 62, inner sheath 62 is pressed down against compression spring, disappears in the pressure that inner sheath 62 is subject to Afterwards, the inner sheath 62 be under pressure spring force effect move up.In this way, can be by 62 He of inner sheath by elastomeric element 63 61 elastic connection of oversheath, so that heat insulation loop 6 can flexibly stretch in the vertical direction, relative to not including elastic portion For the case where part 63, with elastomeric element 63 heat insulation loop 6 in the vertical direction can elastic telescopic, thus the user that is more convenient for It uses.In addition, heat insulation loop 6, in telescopic process, when it is in the collapsing length upper limit, top is higher than temperature sensor 5 Top, to guarantee when placing cooker in cooker racks 3, heat insulation loop 6 can be close to cookware bottom, and temperature sensor 5 is complete It is isolated from the outside.

It will be appreciated by persons skilled in the art that elastomeric element 63 is not limited to above-mentioned compression spring, it is any can will be outer Sheath 61 and inner sheath 62 can be used as elastomeric element, such as spring leaf, dish in the element that vertical direction carries out elastic connection Shape spring and air spring etc..

As shown in fig. 6, the limiting slot 611 may include having vertically in a kind of preferred embodiment of the utility model The extension 6111 of upward opening, lateral turning point 6112 and vertical limiting section 6113, wherein 6111 downside of extension with Turning point 6112 is connected to, and turning point 6112 is connected to limiting section 6113, and spacer pin 621 can be caught in along extension 6111 to limit In slot 611, and after being rotated at turning point 6113, enter in limiting section 6113.Spacer pin 621 can be limited as a result, System is movable in the length range of limiting section 6113, and oversheath 61 and inner sheath 62 can be stably connected with.In addition, inner sheath 62 tops can also include the circumferential part 622 of circular ring shape, which forms the prominent of a circular ring shape at the top of inner sheath 62 Edge out is limited with cooperating limiting slot 611 and spacer pin 621 between oversheath 61 and inner sheath 62, and the circle Circumference 622 can also increase the contact area of inner sheath 62 Yu cookware bottom.

It is understood that limiting slot 611 also can be set on inner sheath 62 in some optional embodiments, and Corresponding with limiting slot 611 spacer pin 621 is set on the inner wall of oversheath 61, so can equally make oversheath 61 and interior Sheath 62 is stably connected with.

Fig. 7 to Fig. 9 is the plane of the interior ring fire cover that the utility model optional embodiment provides and heat-insulated relationship ofloops Schematic diagram.As shown in Figure 7 to 9, in order to limit the position for making heat insulation loop 6 on interior ring fire cover 7, without including making heat insulation loop 6 The upper surface of ring fire cover 7 is arbitrarily moved, and the utility model embodiment provides the interior ring fire cover with different structure.Specifically Ground, as shown in fig. 7, interior 7 upper surface of ring fire cover includes circular groove 71 in a kind of optional embodiment of the utility model, The groove 71 is corresponding with the size at 61 bottom circular edge of oversheath, allows the bottom of the oversheath 61 of heat insulation loop 6 embedding Enter into the groove 71, to guarantee that heat insulation loop 6 will not move in parallel on interior ring fire cover 7.As shown in figure 8, practical new at this In type another kind optional embodiment, interior 7 upper surface of ring fire cover has inner arc structure, and heat insulation loop 6 can be placed in inner arc In structure, thus the inner arc structure can limit the movement of heat insulation loop 6 in the horizontal direction.As shown in figure 9, interior ring fire cover 7 Upper surface includes symmetrically arranged at least a pair of of block piece 72, and the distance between each pair of block piece 72 is straight slightly larger than oversheath 61 Diameter, heat insulation loop 6 can be placed between pairs of block piece 72, so that heat insulation loop 6 will not be moved arbitrarily in the horizontal direction It is dynamic.Preferably, two pairs of block pieces can be symmetrically arranged for interval, two-by-two with 90 ° on interior ring fire cover 7.In addition, practical at this In novel another kind optional embodiment, interior 7 upper surface of ring fire cover can be configured as with salient point or protrude the coarse of texture Surface, thus the frictional force in increasing between ring fire cover 7 and oversheath 61, so that heat insulation loop 6 is not easy to move on interior ring fire cover 7 It is dynamic.

The utility model embodiment also provides a kind of gas-cooker, and the gas-cooker includes above-mentioned burner.

As shown in Figures 4 to 6, the utility model embodiment also provides a kind of heat insulation loop, which includes oversheath 61 and inner sheath 62, oversheath 61 connected with inner sheath 62 by snap, and oversheath 61 and inner sheath 62 can be Relative motion on vertical direction, so that heat insulation loop 6 can stretch in the vertical direction.

In a kind of optional embodiment of the utility model, heat insulation loop 6 further includes elastomeric element 63, which uses In elastic connection oversheath 61 and inner sheath 62.Wherein, oversheath 61 has at least one limiting slot 611, inner sheath 62 it is outer Wall has spacer pin 621 corresponding with limiting slot 611, which can limit the vertical movable model of spacer pin 621 It encloses.

It is understood that limiting slot 611 also can be set on inner sheath 62 in some optional embodiments, and Corresponding with limiting slot 611 spacer pin 621 is set on the inner wall of oversheath 61, so can equally make oversheath 61 and interior Sheath 62 is stably connected with.

In a kind of optional embodiment of the utility model, limiting slot 611 may include prolonging with what is be open straight up Extending portion 6111, lateral turning point 6112 and vertical limiting section 6113,6111 downside of extension are connected to turning point 6112, turn Folding part 6112 is connected to wherein with limiting section 6113, and spacer pin 621 can be caught in along extension 6111 into limiting slot 611, and be passed through After being rotated by turning point 6112, enter in limiting section 6113.

By the utility model above-mentioned technical proposal, heat insulation loop can effectively block the heat radiation from flame, to subtract Influence of the small heat radiation to temperature sensor, makes temperature sensor measurement value be more nearly the actual temperature in the bottom of a pan.When there is horizontal side When carrying out wind makes flame float towards temperature sensor, heat insulation loop can effectively stop flame heat regulating, reduce its shadow to temperature sensor It rings；And set elastomeric element in heat insulation loop, enable heat insulation loop elastic telescopic, so as to adapt to different cookwares, make every Hot ring can be close to cookware bottom.

The embodiments of the present invention is described in detail in conjunction with attached drawing above, still, the utility model embodiment is simultaneously The detail being not limited in above embodiment can be to this in the range of the technology design of the utility model embodiment The technical solution of utility model embodiment carries out a variety of simple variants, these simple variants belong to the utility model embodiment party The protection scope of formula.

It is further to note that specific technical features described in the above specific embodiments, in not lance In the case where shield, it can be combined in any appropriate way.In order to avoid unnecessary repetition, the utility model is implemented No further explanation will be given to various combinations of possible ways for mode.

In addition, any combination can also be carried out between a variety of different embodiments of the utility model embodiment, only It wants it without prejudice to the thought of the utility model embodiment, equally should be considered as interior disclosed in the utility model embodiment Hold.

Claims (14)

1. a kind of burner of gas-cooker, which is characterized in that the burner includes:

Fire cover, the fire cover have central through hole；

Temperature sensor in the central through hole of the fire cover, and is higher than the fire cover at the top of the temperature sensor；

Heat insulation loop is located in the fire cover, is configured as being arranged around the temperature sensor, and not with the temperature sensor Fitting；

Wherein, the heat insulation loop includes oversheath and inner sheath, and the oversheath is connected with the inner sheath by snap, The oversheath and the inner sheath can relative motion in the vertical direction so that the heat insulation loop can be in vertical side It is flexible upwards.

2. burner according to claim 1, which is characterized in that the heat insulation loop further includes elastomeric element, the elasticity Component is for oversheath and the inner sheath described in elastic connection in the vertical direction, and the oversheath is at least one limit The outer wall of slot, the inner sheath has spacer pin corresponding with the limiting slot, and the limiting slot can limit the limit The vertical scope of activities of pin.

3. burner according to claim 1, which is characterized in that the heat insulation loop further includes elastomeric element, the elasticity Component is for oversheath and the inner sheath described in elastic connection in the vertical direction, and the inner sheath is at least one limit The inner wall of slot, the oversheath has spacer pin corresponding with the limiting slot, and the limiting slot can limit the limit The vertical scope of activities of pin.

4. burner according to claim 2 or 3, which is characterized in that the limiting slot includes having to be open straight up Extension, lateral turning point and vertical limiting section, be connected to the turning point on the downside of the extension, the turning point It is connected to the limiting section；

Wherein, the spacer pin can be caught in along the extension into the limiting slot, and be revolved via the turning point After turning, enter in the limiting section.

5. according to claim 1 to burner described in 3 any one, which is characterized in that the top of the heat insulation loop this every When hot ring is in the collapsing length upper limit, higher than the top of the temperature sensor.

6. burner according to claim 1, which is characterized in that the fire cover upper surface includes circular groove, described The bottom of heat insulation loop can be embedded in the groove.

7. burner according to claim 1, which is characterized in that the fire cover upper surface has inner arc structure, with limit Make the movement of the heat insulation loop in the horizontal direction.

8. burner according to claim 1, which is characterized in that the fire cover upper surface is rough surface.

9. burner according to claim 1, which is characterized in that the fire cover upper surface includes symmetrically arranged at least one To block piece, the block piece is for limiting the movement of the heat insulation loop in the horizontal direction.

10. a kind of gas-cooker, which is characterized in that the gas-cooker includes according to claim 1 to 9 any one claim institutes The burner stated.

11. a kind of heat insulation loop, which is characterized in that the heat insulation loop includes oversheath and inner sheath, the oversheath and described interior Sheath is connected by snap, the oversheath and the inner sheath can relative motion in the vertical direction so that The heat insulation loop can stretch in the vertical direction.

12. heat insulation loop according to claim 11, which is characterized in that the heat insulation loop further includes elastomeric element, the bullet Property component for oversheath and the inner sheath described in elastic connection, the oversheath has at least one limiting slot, it is described in The outer wall of sheath has spacer pin corresponding with the limiting slot, and the limiting slot can limit the vertical work of the spacer pin Dynamic range.

13. heat insulation loop according to claim 11, which is characterized in that the heat insulation loop further includes elastomeric element, the bullet Property component for oversheath and the inner sheath described in elastic connection, the inner sheath has at least one limiting slot, described outer The inner wall of sheath has spacer pin corresponding with the limiting slot, and the limiting slot can limit the vertical work of the spacer pin Dynamic range.

14. heat insulation loop according to claim 12 or 13, which is characterized in that the limiting slot includes having to open straight up The extension of mouth, lateral turning point and vertical limiting section, the extension downside are connected to the turning point, the turnover Portion is connected to the limiting section；

Wherein, the spacer pin can be caught in along the extension into the limiting slot, and be revolved via the turning point After turning, enter in the limiting section.