CN217978926U - Gas kitchen ranges - Google Patents

Abstract

The utility model provides a gas cooking utensils, including base and control by temperature change probe, the control by temperature change probe specifically includes: spacing subassembly, temperature measuring component and elastic component, spacing subassembly sets up in the inside of base, and temperature measuring component includes downwardly extending's connecting rod, wears to locate spacing subassembly and relative spacing subassembly and movable along vertical direction, and elastic component sets up in the inside of spacing subassembly to one end butt in temperature measuring component, the other end butt in spacing subassembly. When the object to be measured placed on the combustion part presses down the temperature control probe, the temperature measuring component is driven by the elastic component to abut against the object to be measured, and the temperature of the object to be measured is measured. Meanwhile, the limiting assembly is placed in the base, the elastic assembly is placed in the limiting assembly, damage to the limiting assembly and the elastic assembly due to overhigh temperature of the combustion part can be avoided, and therefore the elastic assembly can effectively drive the temperature measuring assembly to move up and down, and the utilization rate is improved.

Description

Gas kitchen ranges

Technical Field

The utility model relates to a gas-cooker makes technical field, in particular to gas cooking utensils.

Background

The gas stove is a kitchen utensil which is directly heated by gas fuel such as liquefied petroleum gas, artificial gas, natural gas and the like. At present, a temperature measuring component is generally arranged at a combustion part of a gas stove in the market and used for detecting the temperature at the bottom of a pot, the temperature measuring component is driven to move up and down by utilizing the elasticity of an elastic component, the head part of the temperature measuring component directly and firmly abuts against a heat collecting plate which is in direct contact with the pot, the temperature at the bottom of the pot is measured in the using process of the pot on the heat collecting plate, and the power supply of the gas stove is switched on or off according to the measured temperature.

However, in the process of implementing the technical solution in the embodiment of the present application, the applicant finds that the above-mentioned technology has the following technical problems: the temperature measuring component is positioned at the inner side of the combustion part of the gas stove, and the heat collecting plate arranged at the upper part of the temperature measuring component is directly contacted with the cooker in use, so that the temperature at the bottom of the cooker is measured. The elastic component that drive temperature measurement subassembly reciprocated also sets up on the upper portion of gas-cooker, and in the in-service use process, elastic component and fire hole distance are nearer, and the temperature is higher, the condition that the elastic component was burnt out by high temperature appears easily to make elastic component can not drive temperature measurement subassembly and reciprocate, the rate of utilization reduces.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to provide a gas cooking utensils in order to overcome the defect that elastic component receives gas cooking utensils fire hole department high temperature influence easily among the prior art.

The utility model discloses an above-mentioned technical problem is solved through following technical scheme:

the utility model provides a gas cooking utensils, includes base and temperature control probe, its characterized in that, the temperature control probe includes: the limiting assembly is arranged inside the base; the temperature measuring assembly comprises a connecting rod extending downwards and penetrates through the limiting assembly, and the temperature measuring assembly can move vertically relative to the limiting assembly; the elastic assembly is arranged inside the limiting assembly, one end of the elastic assembly abuts against the temperature measuring assembly, and the other end of the elastic assembly abuts against the limiting assembly.

In this scheme, adopt above-mentioned structural style, gas cooking utensils include base and control by temperature change probe, and the base is located gas cooking utensils's bottom, and specific control by temperature change probe includes spacing subassembly, temperature measurement component and elastic component, and spacing subassembly sets up in the inside of base, and spacing subassembly sets up in gas cooking utensils's bottom equally promptly. The temperature measurement component comprises a connecting rod extending downwards and penetrates through the limiting component, the temperature measurement component is movable along the vertical direction relative to the limiting component, the elastic component is also arranged inside the limiting component, one end of the elastic component abuts against the temperature measurement component, and the other end of the elastic component abuts against the limiting component. When the combustion part of cooking utensils was in operating condition, place the pan of combustion part top and push down temperature measurement component, temperature measurement component can firmly support the pan under elastic component's drive, measures the temperature of pan bottom. Place spacing subassembly in the base simultaneously, elastic component places in spacing subassembly, prevents that elastic component from removing about producing, sets up spacing subassembly and elastic component in the position of keeping away from the combustion portion simultaneously, can avoid the high temperature of combustion portion to cause destruction to spacing subassembly and elastic component to make elastic component can effectual drive temperature measurement subassembly reciprocate, improve the rate of utilization.

Preferably, the temperature measuring component further comprises a positioning mechanism, the positioning mechanism is arranged on the connecting rod in a protruding mode, and one end of the elastic component abuts against the temperature measuring component through the positioning mechanism.

In this scheme, be provided with positioning mechanism on the temperature measurement subassembly, the positioning mechanism evagination sets up on the connecting rod, and positioning mechanism butt in temperature measurement subassembly is passed through to the one end of elastic component, adopts above-mentioned structural style, can be so that the butt that the upper end of elastic component can be better on temperature measurement subassembly to make temperature measurement subassembly under the gravity of the object that awaits measuring, compress elastomeric element, thereby make the top of temperature measurement subassembly can firmly support the object that awaits measuring.

Preferably, the limiting assembly comprises two limiting sleeves, the limiting sleeves are semicircular cylinders, and the two limiting sleeves are detachably connected to form the limiting assembly.

In this scheme, adopt above-mentioned structural style, spacing subassembly is formed by two stop collar combinations, and the shape of stop collar is the semicircle ring cylinder body, and two stop collars can be dismantled to connect and form spacing subassembly, adopt above-mentioned structural style, and the spacing subassembly that two stop collar combinations formed is more convenient in the processing installation, through dismantling two stop collars and connect for spacing subassembly is dismantled as required, and it is more convenient to operate.

Preferably, the limiting assembly further comprises a first fastener, connecting portions extending outwards are arranged on two sides of the plane of the limiting sleeve along the vertical direction, positioning holes are formed in the connecting portions, and the first fastener is connected with the positioning holes, so that the two limiting sleeves are fixedly connected.

In this scheme, the stop collar is provided with outside extension's connecting portion along the plane both sides of vertical direction, has seted up the locating hole on the connecting portion, is connected with the locating hole through first fastener, adopts above-mentioned structural style, can make up two stop collars and form spacing subassembly, and the spacing subassembly that has both made the combination is firm, easy to assemble again and dismantle.

Preferably, the positioning hole is a threaded hole, and the first fastener is a screw.

In the scheme, the positioning holes are threaded holes, and the first fastening pieces are screws, so that the best option for detachable connection is provided.

Preferably, the stop collar further comprises a fixing portion, the fixing portion is horizontally arranged on the outer side wall of the stop collar, and the stop assembly is detachably connected with the base through the fixing portion.

In this scheme, the stop collar still includes the fixed part, and the fixed part level sets up on the lateral wall of stop collar, and spacing subassembly and base pass through the fixed part and can dismantle the connection, adopt above-mentioned structural style, can carry out the built-up connection with spacing subassembly and base for spacing subassembly is fixed on the base, further makes elastic component keep away from the combustion portion.

Preferably, the limiting assembly further comprises a second fastening piece, the fixing portion is provided with a fixing hole, and the second fastening piece is connected with the fixing hole, so that the limiting assembly is detachably connected with the base.

In this scheme, seted up the fixed orifices on the fixed part, be connected through second fastener and fixed orifices, adopt above-mentioned structural style, can dismantle the preferred selection of connection for realizing spacing subassembly and base.

Preferably, the limiting sleeve extends inwards along a non-vertical direction to form an abutting part, and the surface of the abutting part is in contact with the temperature measuring assembly.

In this scheme, the stop collar inwards extends along non-vertical direction and forms butt portion, and the surface and the temperature measurement subassembly contact of butt portion adopt above-mentioned structural style, can prevent that the object that awaits measuring from being taken off the back suddenly, can cause elastic component to bounce back suddenly and make temperature measurement subassembly shift up fast, influence the user and use experience.

Preferably, the upper surface of the base is flush with the upper surface of the limiting assembly.

In this scheme, the upper surface of base flushes with the upper surface of spacing subassembly, adopts above-mentioned structural style, can make spacing subassembly and elastic mechanism set up in the below of base completely, and the heat that can effectual shelves upper portion burning portion produce separates, and is located easier cleanness on the coplanar.

Preferably, the side wall and/or the bottom of the limiting component is/are provided with a through hole.

In this scheme, adopt above-mentioned structural style, help the heat dissipation of spacing subassembly and elastic mechanism part, prevent to receive too high temperature's influence, lead to not having exerted its due function.

Preferably, the temperature control probe further comprises a heat collecting plate and a heat-sensitive element, the heat collecting plate is arranged at the top end of the temperature measuring component, a groove is formed in the bottom of the heat collecting plate, and the heat-sensitive element is arranged inside the groove.

In this scheme, the control by temperature change probe still includes thermal-arrest board and temperature sensing piece, and the thermal-arrest board sets up in temperature measuring component's top, and the bottom is equipped with the recess, and temperature sensing piece sets up in the inside of recess, adopts above-mentioned structural style, and the area of contact of thermal-arrest board and the object that awaits measuring can be increased and the object that awaits measuring, and the thermal-arrest board transmits the temperature of the object that awaits measuring to temperature sensing piece, the better temperature of measuring the object that awaits measuring.

Preferably, the temperature control probe further comprises a shell, and the top end of the shell is connected with the heat collecting plate in a tapered shape, is arranged around the temperature measuring component and extends downwards.

In this scheme, adopt above-mentioned structural style, the protection temperature control probe that the setting of casing can be better utilizes the casing further to keep apart with the temperature control probe the temperature of combustion portion simultaneously, avoids influencing the measurement accuracy of temperature control probe to the object temperature that awaits measuring.

The utility model discloses an actively advance the effect and lie in:

the utility model provides a gas cooking utensils, including base and control by temperature change probe, the control by temperature change probe specifically includes: spacing subassembly, temperature measuring component and elastic component, spacing subassembly sets up in the inside of base, and the temperature measuring component includes downwardly extending's connecting rod to wear to locate spacing subassembly, the relative spacing subassembly of temperature measuring component is portable along vertical direction, and the elastic component sets up in the inside of spacing subassembly, and one end butt in temperature measuring component, other end butt in spacing subassembly. When the object to be measured placed on the combustion part presses down the temperature measuring component, the temperature measuring component is pressed against the object to be measured under the driving of the elastic component, and the temperature of the object to be measured is measured. Meanwhile, the limiting assembly is placed in the base, the elastic assembly is placed in the limiting assembly, damage to the limiting assembly and the elastic assembly due to the overhigh temperature of the combustion part can be avoided, and therefore the elastic assembly can effectively drive the temperature measuring assembly to move up and down, and the utilization rate is improved.

Drawings

Fig. 1 is a schematic view of the overall structure of a gas cooker according to an embodiment of the present invention.

Fig. 2 is an assembly diagram of the temperature control probe, the combustion portion inner ring and the base according to an embodiment of the present invention.

Fig. 3 is a schematic cross-sectional view of the temperature control probe and the inner ring of the combustion portion according to an embodiment of the present invention.

Fig. 4 is another schematic cross-sectional view of a temperature control probe according to an embodiment of the present invention.

Fig. 5 is an assembly diagram of the temperature control probe and the combustion portion inner ring according to an embodiment of the present invention.

Fig. 6 is a schematic structural view of a stop collar according to an embodiment of the present invention.

Fig. 7 is an assembly diagram of a temperature control probe, a combustion portion inner ring and a base according to another embodiment of the present invention.

Fig. 8 is a schematic structural view of a stop collar according to another embodiment of the present invention.

Description of reference numerals:

gas kitchen ranges 100

Base 200

Kitchen range support 300

Combustion part 400

Outer ring 410

Inner ring 420

Fire hole 430

Temperature control probe 500

Connecting rod 510

Positioning sheet 520

Temperature measuring component 530

Limit assembly 600

Stop collar 610

Bottom plate 620

Connecting part 630

Positioning hole 640

Fixed part 650

Fixing hole 660

Abutment 670

Through hole 680

Compression spring 700

Heat collecting plate 800

Shell 900

Detailed Description

The present invention will be more clearly and completely described below with reference to the accompanying drawings.

Example 1

As shown in fig. 1 and fig. 2, the embodiment discloses a gas cooker 100, which specifically includes a base 200, a cooker support 300, a combustion portion 400, and a temperature control probe 500, wherein the base 200 is disposed at the bottom of the gas cooker 100, and serves as a bottom supporting mechanism of the gas cooker 100, and also serves as a foundation for disposing other components of the gas cooker 100. The hob support 300 is placed outside the combustion part 400 for supporting a pot placed above the gas hob 100. The combustion part 400 includes an outer ring 410 and an inner ring 420, both the outer ring 410 and the inner ring 420 are provided with fire holes 430, and the pot is heated by flames at the fire holes 430. The temperature controlled probe 500 is disposed within the inner ring 420, and the temperature controlled probe 500 is movable up and down relative to the inner ring 420 and the outer ring 410. When the combustion part 400 of cooking utensils was in operating condition, the pan of placing above combustion part 400 pushed down temperature control probe 500, and the pan can be supported at temperature control probe 500's top, sets up temperature-sensitive sensor (not shown in the figure) in temperature control probe 500's inside for measure the temperature of pan bottom.

As shown in fig. 1, 2 and 3, a fire hole 430 is arranged on an inner ring 420 of the gas cooker 100, the shape of the fire hole is a circular column, a temperature control probe 500 penetrates through a through hole which is through from top to bottom at the middle position of the inner ring 420, the temperature control probe 500 specifically comprises a temperature measurement component 530, and the temperature measurement component 530 is a cylinder and is overlapped with the central axis of the inner ring 420. The temperature measuring assembly 530 has a connecting rod 510 extending downward to the bottom of the gas cooker 100, and a heat sensitive sensor (not shown) is disposed inside the top of the cylinder for measuring the temperature of the bottom of the pan. This gas cooking utensils 100 still includes spacing subassembly 600, and spacing subassembly 600 runs through the inside of setting at base 200, and the position of spacing subassembly 600 corresponds with the position of base 200 promptly, all sets up in the bottom of gas cooking utensils 100. The temperature measuring assembly 530 penetrates the position limiting assembly 600 through the connecting rod 510 extending downwards, and is movable in the vertical direction relative to the position limiting assembly 600.

As shown in fig. 3, an elastic member is disposed inside the position limiting member 600, one end of the elastic member abuts against the temperature measuring member 530, and the other end abuts against the position limiting member 600. In this embodiment, the elastic member is a compression spring 700. When the combustion part 400 of the cooker is in a working state, the temperature control probe 500 is pressed down by the cooker placed above the combustion part 400, and the temperature control probe 500 can be firmly propped against the cooker under the driving of the compression spring 700 to measure the temperature at the bottom of the cooker. Place spacing subassembly 600 in base 200 simultaneously, compression spring 700 is placed in spacing subassembly 600, prevents that compression spring 700 from moving about producing, sets up spacing subassembly 600 and compression spring 700 in the position of keeping away from combustion portion 400 simultaneously, can avoid the too high temperature of combustion portion 400 to lead to the fact destruction to spacing subassembly 600 and compression spring 700, guarantees that compression spring 700 can effectual drive temperature measurement subassembly 530 reciprocate, improves the rate of utilization. Of course, in other embodiments, the elastic component may also adopt other resilient components to drive the temperature measuring component 530 to return upward.

As shown in fig. 3 and 4, a positioning mechanism is disposed on the connecting rod 510 extending downward from the temperature measuring component 530, the positioning mechanism protrudes out of the connecting rod 510, and one end of the compression spring 700 abuts against the temperature measuring component 530 through the positioning mechanism. Specifically, the connecting rod 510 extends downward to penetrate through the limiting assembly 600, a positioning plate 520 is mounted on the outer side of the connecting rod 510 inside the limiting assembly 600, the connecting rod 510 is annularly arranged on the positioning plate 520, the connecting rod 510 protrudes outward relative to the connecting rod 510, and one end of the compression spring 700 abuts against the positioning plate 520. As shown in FIG. 4, during the downward movement of the thermometric assembly 530, the compression spring 700 can move downward under the depression of the positioning plate 520. Also in other embodiments, the upper end of the compression spring 700 may be positioned in other manners, for example, a convex structure may be directly machined at the position of the connecting rod 510, as long as the upper end of the compression spring 700 can abut against the convex structure.

As shown in fig. 5 and 6, the stop assembly 600 is formed by detachably combining two stop sleeves 610, and the stop sleeves 610 are in the shape of semicircular cylinders. Specifically, there is the ring cylinder of through-hole for inside the overall structure of spacing subassembly 600, specifically be formed by two stop collar 610 combinations, the structure of stop collar 610 is the semicircle ring cylinder, the lower part trompil of stop collar 610 can satisfy the butt in compression spring 700, inwards extend the bottom of stop collar 610 in this embodiment, form semicircle ring platelike structure, through making up two stop collar 610 at the ascending plane of vertical side, thereby it has the inside spacing subassembly 600 that has the through-hole to reach, make compression spring 700 and connecting rod 510 all can set up in the inside of spacing subassembly 600, the bottom of spacing subassembly 600 can be worn out downwards to connecting rod 510 simultaneously, the semicircle platelike structure that utilizes two stop collar 610 bottoms to set up forms the ring shape bottom plate 620 of spacing subassembly 600, a lower extreme for butt compression spring 700. The limiting assembly 600 formed by combining the two limiting sleeves 610 is more convenient to process and install, and the two limiting sleeves 610 can be detachably connected, so that the limiting assembly 600 can be detached as required, and the operation is more convenient.

As shown in fig. 6, the position limiting assembly 600 includes a first fastening member (not shown), two sides of the position limiting sleeve 610 along the vertical plane are provided with connecting portions 630 extending outward, the connecting portions 630 are provided with positioning holes 640, and the first fastening member is connected with the positioning holes 640, so that the two position limiting sleeves 610 are connected and fixed. Specifically, the vertical inside of placing at base 200 of spacing subassembly 600, spacing subassembly 600 is formed by two stop collar 610 combinations, outwards extends in the middle part of the plane both sides of the vertical direction of stop collar 610 and forms connecting portion 630, and connecting portion 630 extends to curved surface department by the plane of the vertical direction of stop collar 610, forms certain thickness to locating hole 640 has been seted up in thickness direction. The connecting portions 630 of the two position limiting sleeves 610 are matched with each other, and the first fastening piece penetrates through the positioning hole 640, so that the two position limiting sleeves 610 can be fixedly connected. The fixing mode is adopted in the embodiment that the connecting portion 630 is provided with a threaded hole, the two limiting sleeves 610 are matched in position, and the threaded hole is penetrated through by a screw thread, so that the two limiting sleeves 610 are connected in a combined mode. In other embodiments, other fixing methods, such as snap-fit fixing, or fixing of the light pillar with the nut, may be adopted.

As shown in fig. 5 and 6, the position-limiting sleeve 610 further comprises a fixing part 650 horizontally disposed on an outer side wall of the position-limiting sleeve 610, and the position-limiting assembly 600 and the base 200 are detachably connected through the fixing part 650. Specifically, the position of the fixing portion 650 and the position of the connecting portion 630 are vertically arranged with the limiting component 600 as an axis, that is, the fixing portion 650 is formed by protruding outward on the curved surface of the limiting sleeve 610, after the two limiting sleeves 610 are combined and connected to form the limiting component 600, the limiting component 600 is provided with two fixing portions 650, and the upper and lower planes of the fixing portions 650 are parallel to the plane of the base 200. The upper plane of the fixing portion 650 is abutted against the lower plane of the base 200, or the lower plane of the abutment portion 670 is abutted against the upper plane of the base 200, so that the position limiting assembly 600 can be fixed to the base 200. Similarly, the fixing portion 650 is provided with a fixing hole 660, and is connected and matched with the fixing hole 660 through a second fastening member (not shown), so that the limiting assembly 600 is connected and fixed with the base 200. What still adopts in this embodiment is that the fixed part 650 is last to set up the screw hole, and then wear to locate the screw hole through screw thread to carry out the built-up connection with spacing subassembly 600 and base 200. The manner of attachment and fixation in other embodiments is not limited to this manner.

As shown in fig. 3, 4 and 6, the stop collar 610 is provided with an abutting portion 670, the abutting portion 670 extends inward along the non-vertical direction of the stop collar 610, and the surface of the abutting portion 670 contacts the temperature measuring unit 530. Specifically, there is an inwardly extending abutment 670 at the top of the stop collar 610 such that the stop collar 610 forms a "dogbone" configuration in a vertical plane. After the two limiting sleeves 610 are combined and connected to form the limiting assembly 600, the size of the through hole formed by the abutting portion 670 of the limiting assembly 600 enables the connecting rod 510 to penetrate through the limiting assembly 600, and the through hole located below the abutting portion 670 is used for placing the compression spring 700. The butt portion 670 is used for butt temperature measurement component 530, in this embodiment specifically, butt portion 670 is used for butt spacer 520, when temperature measurement component 530 is pushed down by the pan, compression spring 700 is compressed, spacer 520 also moves down along with temperature measurement component 530, when the pan is taken away, compression spring 700 can resume its original state, through setting up butt portion 670, can prevent that the pan from being taken away the back suddenly, can cause compression spring 700 bounce-back to make temperature measurement component 530 shift up fast, influence the user and use experience. The structure of butt joint portion 670 in this embodiment is that the level is inwards extended, and sets up the top at stop collar 610, and in other embodiments, the extending direction of butt joint portion 670 only need be non-vertical direction can, as long as can make butt joint portion 670 and base 200 can the butt can, also can not set up the top at stop collar 610 simultaneously, and the structure of spacing piece is that the level is inwards extended and set up the top at stop collar 610 and be the optimum setting according to specific structure in this embodiment.

As shown in fig. 3 and 4, the temperature control probe 500 includes a heat collecting plate 800 and a heat sensitive sensor, the heat collecting plate 800 is disposed at the top end of the temperature measuring component 530, and a groove is disposed at the bottom of the heat collecting plate, and the heat sensitive sensor is disposed inside the groove. Specifically, the heat collecting plate 800 is circular and is placed on the upper surface of the temperature control probe 500, a groove is formed in the bottom of the heat collecting plate, the thermosensitive sensor is placed inside the groove, the contact area with the bottom of the pot can be increased through the contact between the heat collecting plate 800 and the bottom of the pot, and the temperature of the bottom of the pot is transmitted to the thermosensitive sensor through the heat collecting plate 800, so that the temperature of the bottom of the pot can be better measured. Specifically, this heat collection plate 800 adopts the heat conduction material to make, can be better with the temperature transfer of pan bottom for temperature sensor to improve pan bottom temperature measurement's accuracy nature.

As shown in FIGS. 3 and 4, the temperature control probe 500 further includes a housing 900, and the top end of the housing 900 is connected to the heat collecting plate 800 in a tapered shape, surrounds the temperature measuring unit 530, and extends downward. Specifically, a gap is formed between the side wall of the casing 900 and the temperature control probe 500, the casing 900 can better protect the temperature control probe 500, and the casing 900 can further isolate the temperature of the combustion part 400 from the temperature control probe 500, so that the temperature of the pot bottom can be prevented from being influenced by the temperature control probe 500.

Example 2

As shown in fig. 7, the upper surface of the base 200 in this embodiment is flush with the upper surface of the stop assembly 600. Specifically, the limiting assembly 600 is also formed by combining two limiting sleeves 610, a fixing portion 650 is arranged on each limiting sleeve 610, the fixing portion 650 is located at the upper end of each limiting sleeve 610, the distance between the upper end face of each limiting sleeve 610 and the thickness of the base 200 is equal to the distance between the upper end face of each limiting sleeve 610 and the thickness of the base 200, the upper end face of each fixing portion 650 is connected with the lower end face of the base 200, after the limiting assembly 600 is connected with the base 200 through the fixing portion 650, the upper end face of the limiting assembly 600 and the upper end face of the base 200 can be located on the same plane, the limiting assembly 600 and the compression spring 700 are completely arranged below the base 200, heat generated by the upper combustion portion 400 can be effectively isolated, and the limiting assembly 600 and the compression spring 700 are located on the same plane and are easier to clean.

As shown in fig. 8, the sidewall and/or bottom of the limiting assembly 600 is provided with a through hole 680. Specifically, both the side wall of the position limiting sleeve 610 and the base can be provided with a plurality of through holes 680, which is more beneficial to heat dissipation of the position limiting assembly 600 and the compression spring 700, and prevents from being affected by too high temperature, so that the due function of the position limiting assembly cannot be exerted.

Although specific embodiments of the present invention have been described above, it will be understood by those skilled in the art that this is by way of example only and that the scope of the invention is defined by the appended claims. Various changes and modifications to these embodiments may be made by those skilled in the art without departing from the spirit and the principles of the present invention, and these changes and modifications are all within the scope of the present invention.

Claims (12)

1. The utility model provides a gas cooking utensils, includes base and temperature control probe, its characterized in that, the temperature control probe includes:

the limiting assembly is arranged inside the base;

the temperature measuring assembly comprises a connecting rod extending downwards and penetrates through the limiting assembly, and the temperature measuring assembly can move vertically relative to the limiting assembly;

the elastic assembly is arranged inside the limiting assembly, one end of the elastic assembly abuts against the temperature measuring assembly, and the other end of the elastic assembly abuts against the limiting assembly.

2. The gas cooker of claim 1, wherein the temperature measuring component further comprises a positioning mechanism, the positioning mechanism is convexly arranged on the connecting rod, and one end of the elastic component abuts against the temperature measuring component through the positioning mechanism.

3. The gas cooker as set forth in claim 1, wherein said stop assembly comprises two stop sleeves, said two stop sleeves being shaped as a semi-circular cylinder, said two stop sleeves being detachably connected to form said stop assembly.

4. The gas cooker as set forth in claim 3, wherein said stop assembly further comprises a first fastening member, wherein said stop collar is provided with a connecting portion extending outward along both sides of a vertical plane, said connecting portion is provided with a positioning hole, and said first fastening member is connected with said positioning hole, so that said two stop collars are connected and fixed.

5. A gas cooking appliance as claimed in claim 4, wherein the locating hole is a threaded hole and the first fastener is a screw.

6. The gas cooking appliance of claim 3, wherein the stop collar further comprises a fixing portion, the fixing portion is horizontally disposed on an outer side wall of the stop collar, and the stop assembly and the base are detachably connected through the fixing portion.

7. The gas cooking appliance of claim 6, wherein the limit assembly further comprises a second fastener, the fixing portion is provided with a fixing hole, and the second fastener is connected with the fixing hole, so that the limit assembly is detachably connected with the base.

8. A gas cooking appliance as claimed in claim 3, wherein the stop collar extends inwardly in a non-vertical direction to form an abutment, the surface of which is in contact with the temperature measurement component.

9. A gas hob according to claim 1 wherein the upper surface of the base is flush with the upper surface of the stop assembly.

10. The gas cooker of claim 1, wherein the sidewall and/or bottom of the restriction assembly is perforated with a through hole.

11. The gas cooker as claimed in claim 1, wherein the temperature control probe further comprises a heat collection plate and a heat sensitive member, the heat collection plate is disposed at the top end of the temperature measurement component, a groove is disposed at the bottom of the heat collection plate, and the heat sensitive member is disposed inside the groove.

12. A gas range as set forth in claim 11, wherein said temperature control probe further comprises a housing, a top end of said housing being conically connected to said heat collecting plate, being circumferentially disposed on said temperature measuring module and extending downward.

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