CN207831429U - Gas furnace temperature sensor - Google Patents

Abstract

The utility model is related to sensor technical fields,It is related to gas furnace temperature sensor,It is arranged on the pedestal of stove,When user uses gas furnace,Temperature sensor ontology can be in direct contact with cookware,And cookware can oppress temperature sensor ontology,Then temperature sensor ontology can move down,Temperature sensor ontology is connect with electrode,Controller for controlling gas furnace can receive the data that temperature sensor ontology measures,To which controller can control the output of gas furnace,To realize gas furnace intelligent cooking,When cookware is lifted in user's cooking completion,The external force pressure of temperature sensor ontology disappears at this time,Temperature sensor ontology can reset under the action of the elastic member,Temperature sensor can also be disconnected with electrode simultaneously,The controller of gas furnace can not receive the information of temperature sensor ontology at this time,Controller meeting intelligent control gas stove is flame-out,Reduce the waste and avoid dangerous generation that combustion gas sky is burnt.

Description

Gas furnace temperature sensor

Technical field

The utility model is related to sensor technical fields, in particular to gas furnace temperature sensor.

Background technology

Gas-cooker means and carries out for kitchen use of straight fire heating with gaseous fuels such as liquefied petroleum gas, artificial coal gas, natural gases Tool.Gas-cooker is called stone or metal plate for standing a stove on as a precaution against fire, and popular degree is known to all, but is difficult to see a current concept.Just like firewood stove, Kerosene stove, coal dust ball stove etc..It is said by air source, gas-cooker is broadly divided into liquefied gas cooker, gas stove, natural gas range.It is said by stove eye, point For single stove, double stoves and multi-hole kitchen range.

As the improvement of people's living standards, more stringent requirements are proposed for everybody quality to material life.But work as people When steaming dish or heating up water, sometimes because other thing forgets the container being placed on gas burning hood (stove), the article in container by by Gradually dryout, but it is fierce when the firepower on gas burning hood (stove) or such as beginning, and less serious case burns out the bottom of container, severe one even meeting Occur fire situations such as, moreover, user cook placing cookware lift when, gas-cooker also will continue to burn, cause combustion gas sky burn Waste and security risk, these have seriously affected pursuit of the people to living standard；

Therefore it provides a kind of gas furnace temperature sensor of intelligent control gas stove becomes those skilled in the art institute The important technological problems to be solved.

Utility model content

The purpose of this utility model is to provide a kind of gas furnace temperature sensors, in the prior art can not intelligence with alleviation The technical issues of gas furnace can be controlled.

In a first aspect, the utility model embodiment provides a kind of gas furnace temperature sensor, it is arranged at the bottom of stove On seat, including fixes electrode body, the temperature sensor ontology that can be in direct contact with cookware and be fixed at the fixation Electrode in electrode body；

The temperature sensor ontology is slidably socketed with the fixed electrode body；

It is provided with the elastic component for being used to support the temperature sensor ontology on the fixed electrode body, in the elasticity When both part and the temperature sensor ontology are generally in external force pressure, the temperature sensor ontology connects with the electrode Connect, both the elastic component and the temperature sensor ontology it is whole it is non-be in external force pressure when, the temperature sensor sheet Body is disconnected with the electrode.

With reference to first aspect, the utility model embodiment provides the first possible embodiment of first aspect, In, above-mentioned temperature sensor ontology includes sensor outer housing, the temperature-sensing element that is arranged in the sensor outer housing and setting exist The interior electrode reed with the temperature-sensing element of the sensor outer housing；

The temperature-sensing element is arranged on the inner wall at the top of the sensor outer housing；

When both the elastic component and the temperature sensor ontology are generally in external force pressure, the electrode reed with The electrode connection.

With reference to first aspect, the utility model embodiment provides second of possible embodiment of first aspect, In, the sensor inner sleeve for being used to support the temperature-sensing element, the sensor inner sleeve and institute are provided in the sensor shell Sensor outer housing is stated to be detachably connected.

With reference to first aspect, the utility model embodiment provides the third possible embodiment of first aspect, In, the sensor outer casing bottom is provided with the block being connect with the elastic component.

With reference to first aspect, the utility model embodiment provides the 4th kind of possible embodiment of first aspect, In, above-mentioned electrode reed includes short contact reed and long contact spring；

The short contact reed and the long contact spring are connected to the temperature-sensing element both ends.

With reference to first aspect, the utility model embodiment provides the 5th kind of possible embodiment of first aspect, In, above-mentioned electrode includes the first electrode being connect with the short contact reed and the second electricity being connect with the long contact spring Pole.

With reference to first aspect, the utility model embodiment provides the 6th kind of possible embodiment of first aspect, In, there are gaps between above-mentioned long contact spring and the first electrode.

With reference to first aspect, the utility model embodiment provides the 7th kind of possible embodiment of first aspect, In, above-mentioned fixed electrode body includes the electrode fixed seat for fixing the electrode, and is provided in the electrode fixed seat One round platform and the second round platform being installed at the top of first round platform, first round platform and second round platform are in integrally " convex " Font；

The first electrode is located on second round platform, and the second electrode is located on first round platform.

With reference to first aspect, the utility model embodiment provides the 8th kind of possible embodiment of first aspect, In, further include sensor sliding sleeve on above-mentioned fixed electrode body, the maximum gauge of the sensor sliding sleeve is more than the sensor The maximum gauge of shell；

The elastic component includes spring, and the spring is located in the sensor sliding sleeve.

With reference to first aspect, the utility model embodiment provides the 9th kind of possible embodiment of first aspect, In, the sensor sliding sleeve bottom and the fixed electrode body are affixed, are provided with and the gear at the top of the sensor sliding sleeve The baffle of block cooperation.

Advantageous effect：

The utility model embodiment provides a kind of gas furnace temperature sensor, is arranged on the pedestal of stove, including Fixed electrode body, the temperature sensor ontology that can be in direct contact with cookware and the electricity being fixed in fixed electrode body Pole；Temperature sensor ontology is slidably socketed with fixed electrode body；It is provided on fixed electrode body and is used to support temperature biography The elastic component of sensor ontology, specifically, when user uses gas furnace, temperature sensor ontology can directly connect with cookware It touches, and cookware can oppress temperature sensor ontology, temperature sensor ontology compression at this time can oppress support temperature sensor sheet The elastic component of body, then temperature sensor ontology can move down, i.e., at both elastic component and temperature sensor ontology entirety When external force pressure, temperature sensor ontology is connect with electrode, and the controller for controlling gas furnace can receive temperature biography The data that sensor ontology measures, to which controller can control the output of gas furnace, to the fire of intelligent control gas stove Power realizes gas furnace intelligent cooking, after the completion of user cooks, such as lifts cookware, and temperature sensor ontology is outer at this time Power compressing disappears, and temperature sensor ontology can reset under the action of the elastic member, while temperature sensor can also be disconnected with electrode Connection, i.e., both elastic component and temperature sensor ontology it is whole it is non-be in external force pressure when, temperature sensor ontology and electrode It disconnects, the controller of gas furnace can not receive the information of temperature sensor ontology at this time, and controller can intelligent control Gas furnace is flame-out, had not only reduced sky and has combusted the waste of gas, but also can avoid danger.

Other feature and advantage of the utility model will illustrate in the following description, also, partly from specification In become apparent, or understood by implementing the utility model.The purpose of this utility model and other advantages are illustrating Specifically noted structure is realized and is obtained in book, claims and attached drawing.

To enable the above objects, features, and advantages of the utility model to be clearer and more comprehensible, preferred embodiment cited below particularly, and The appended attached drawing of cooperation, is described in detail below.

Description of the drawings

It, below will be right in order to illustrate more clearly of specific embodiment of the present invention or technical solution in the prior art Specific implementation mode or attached drawing needed to be used in the description of the prior art are briefly described, it should be apparent that, it is described below In attached drawing be that some embodiments of the utility model are not paying creativeness for those of ordinary skill in the art Under the premise of labour, other drawings may also be obtained based on these drawings.

Fig. 1 is the gas furnace arrangement of temperature sensor schematic diagram that the utility model embodiment provides；

Fig. 2 is the partial enlarged view of A in Fig. 1；

Fig. 3 is the partial enlarged view of B in Fig. 1；

Fig. 4 is the partial enlarged view of first electrode in Fig. 1；

Fig. 5 is the partial enlarged view of second electrode in Fig. 1；

Fig. 6 is the structural schematic diagram that the gas furnace temperature sensor that the utility model embodiment provides puts cookware.

Icon：100- fixes electrode body；110- electrode fixed seats；The first round platforms of 111-；The second round platforms of 112-； 120- sensor sliding sleeves；121- baffles；200- temperature sensor ontologies；210- sensor outer housings；211- blocks；220- Temperature-sensing element；230- electrode reeds；231- short contact reeds；232- long contact springs；240- sensor inner sleeves；300- Electrode；310- first electrodes；320- second electrodes；400- elastic components；500- cookwares；600- pedestals；700- grates； 800- burners.

Specific implementation mode

The technical solution of the utility model is clearly and completely described below in conjunction with attached drawing, it is clear that described Embodiment is the utility model a part of the embodiment, instead of all the embodiments.Based on the embodiments of the present invention, originally The every other embodiment that field those of ordinary skill is obtained without making creative work, belongs to this practicality Novel protected range.

It is in the description of the present invention, it should be noted that term "center", "upper", "lower", "left", "right", " perpendicular Directly ", the orientation or positional relationship of the instructions such as "horizontal", "inner", "outside" is to be based on the orientation or positional relationship shown in the drawings, and is only The utility model and simplifying describes for ease of description, do not indicate or imply the indicated device or element must have it is specific Orientation, with specific azimuth configuration and operation, therefore should not be understood as limiting the present invention.In addition, term " the One ", " second ", " third " are used for description purposes only, and are not understood to indicate or imply relative importance.

In the description of the present invention, it should be noted that unless otherwise clearly defined and limited, term " is pacified Dress ", " connected ", " connection " shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or integrally Connection；It can be mechanical connection, can also be electrical connection；Can be directly connected, can also indirectly connected through an intermediary, It can be the connection inside two elements.For the ordinary skill in the art, it can understand above-mentioned art with concrete condition The concrete meaning of language in the present invention.

The utility model is further described in detail below through specific implementation examples and in conjunction with the accompanying drawings.

With reference to shown in figure 1- Fig. 6：

The utility model embodiment provides a kind of gas furnace temperature sensor, is arranged on the pedestal 600 of stove, packet It includes fixed electrode body 100, the temperature sensor ontology 200 that can be in direct contact with cookware 500 and is fixed at fixed electricity Electrode 300 in pole ontology 100；Temperature sensor ontology 200 is slidably socketed with fixed electrode body 100；Fixed electrode sheet The elastic component 400 for being used to support temperature sensor ontology 200 is provided on body 100, in elastic component 400 and temperature sensor ontology When 200 the two are generally in external force pressure, temperature sensor ontology 200 is connect with electrode 300, is passed in elastic component 400 and temperature Both sensor ontologies 200 are whole non-when being in external force pressure, and temperature sensor ontology 200 is disconnected with electrode 300.

The utility model embodiment provides a kind of gas furnace temperature sensor, is arranged on the pedestal 600 of stove, packet It includes fixed electrode body 100, the temperature sensor ontology 200 that can be in direct contact with cookware 500 and is fixed at fixed electricity Electrode 300 in pole ontology 100；Temperature sensor ontology 200 is slidably socketed with fixed electrode body 100；Fixed electrode sheet The elastic component 400 for being used to support temperature sensor ontology 200 is provided on body 100, specifically, using gas furnace in user When, temperature sensor ontology 200 can be in direct contact with cookware 500, and cookware 500 can oppress temperature sensor ontology 200, Temperature sensor ontology 200, which is pressurized, at this time can oppress the elastic component 400 of support temperature sensor body 200, then temperature sensing Device ontology 200 can move down, i.e., when both elastic component 400 and temperature sensor ontology 200 are generally in external force pressure, temperature Degree sensor body 200 is connect with electrode 300, and the controller for controlling gas furnace can receive temperature sensor ontology 200 data measured, it is real to the firepower of intelligent control gas stove to which controller can control the output of gas furnace Existing gas furnace intelligent cooking such as lifts cookware 500 after the completion of user cooks, and temperature sensor ontology 200 is outer at this time Power compressing disappears, and temperature sensor ontology 200 can reset under the action of elastic component 400, while temperature sensor also can be with electricity Pole 300 disconnects, i.e., both elastic component 400 and temperature sensor ontology 200 it is whole it is non-be in external force pressure when, temperature passes Sensor ontology 200 is disconnected with electrode 300, and the controller of gas furnace can not receive temperature sensor ontology 200 at this time Information, controller can intelligent control gas stove it is flame-out, not only reduced it is empty combust the waste of gas, but also can avoid danger.

Specifically, is arranged in burner 800 in gas furnace temperature sensor

Wherein, when being cooked using gas furnace, electrode 300 can link together with the control circuit of gas furnace, fire The information that the controller of heating stove can be transmitted according to electrode 300 controls gas furnace,

Specifically, user uses the gas furnace with temperature sensor provided in this embodiment, when user is by cookware 500 When being placed on grate 700, cookware 500 can oppress temperature sensor ontology 200, while can oppress support temperature sensor body 200 elastic component 400 can move down to temperature sensor ontology 200, i.e., when cookware 500 is by temperature sensor ontology 200 Temperature sensor ontology 200 will be under the compressing of cookware 500 to moving down when being placed on grate 700.

Specifically, 100 1 segment length of fixed electrode body can be stretched out when temperature sensor 200 normal condition of ontology, work as temperature When degree sensor body 200 moves down, temperature sensor ontology 200 can be to a segment length of retracting be fixed in electrode body 100, at this time Temperature sensor ontology 200 can be connect with the electrode 300 being arranged in fixed electrode body 100, and temperature sensor ontology 200 is real When 500 temperature data of cookware that monitors can be transferred in the controller of gas furnace through electrode 300, according to this information controller pair Gas furnace is adjusted control.

Moreover, during gas furnace use, temperature sensor ontology 200 can monitor the temperature of cookware 500 in real time, so Monitoring signals are transferred in the controller of gas furnace afterwards, controller controls the large and small fire of gas furnace according to this information, real Existing intelligent cooking, avoids that cooking is dryouied or other are endangered caused by dryouting.

Meanwhile when user's cooking completion takes the dish out of the pot and lifts cookware 500, cookware 500 acts on temperature sensor ontology 200 Pressure will disappear, temperature sensor ontology 200 will reset under the action of elastic component 400 at this time, to can make temperature Degree sensor body 200 is disconnected with electrode 300, and gas stove controller also can not just receive temperature sensor ontology again 200 monitoring signals, at this time gas stove controller will control gas furnace closing, avoid contingency.

In the alternative of the present embodiment, temperature sensor ontology 200 includes sensor outer housing 210, is arranged in sensor Temperature-sensing element 220 in shell 210 and the electrode reed 230 in sensor outer housing 210 with temperature-sensing element 220 is set；Temperature-sensitive Element 220 is arranged on the inner wall at 210 top of sensor outer housing；It is whole in both elastic component 400 and temperature sensor ontology 200 When in external force pressure, electrode reed 230 is connect with electrode 300.

Temperature sensor ontology 200 includes sensor outer housing 210, temperature-sensing element 220 and electrode reed 230, wherein electrode 230 one end of reed is connect with temperature-sensing element 220, and the other end can be with electricity during temperature sensor ontology 200 moves up and down Pole 300 connects, specifically, when cookware 500 oppresses temperature sensor ontology 200, electrode reed 230 can connect with electrode 300 It connects, when taking cookware 500 away, electrode reed 230 will be disconnected with electrode 300.

Wherein, temperature-sensing element 220 is arranged on 210 inner wall of sensor outer housing, and is located at the top of sensor outer housing 210, When cookware 500 contacts simultaneously force transducer shell 210 with sensor outer housing 210, temperature-sensing element 220 can monitor cookware in real time 500 temperature, and passed on the controller of gas furnace by the connection of electrode reed 230 and electrode 300 by signal is measured.

It should be pointed out that when cookware 500 is placed on cookware stove frame 700, it will force transducer shell 210 and elasticity Part 400 so that elastic component 400 is shunk, and sensor outer housing 210 moves down；When cookware 500 is put surely, electrode reed 230 complete with The connection of electrode 300.

When taking cookware 500 away, sensor outer housing 210, temperature-sensing element 220 and electrode reed 230 will be in elastic components 400 Effect is lower to be resetted, and electrode reed 230 will be disconnected with electrode 300 at this time.

In the alternative of the present embodiment, the sensor for being used to support temperature-sensing element 220 is provided in sensor outer housing 210 Inner sleeve 240, sensor inner sleeve 240 are detachably connected with sensor outer housing 210.

In the alternative of the present embodiment, 210 bottom of sensor outer housing is provided with the block 211 being connect with elastic component 400.

In the alternative of the present embodiment, fixed electrode body 100 includes sensor sliding sleeve 120, sensor sliding sleeve 120 Maximum gauge is more than the maximum gauge of sensor outer housing 210；

Elastic component 400 includes spring, and spring is located in sensor sliding sleeve 120.

In the alternative of the present embodiment, 120 bottom of sensor sliding sleeve and fixed electrode body 100 are affixed, and sensor is slided 120 top of set is provided with the baffle 121 coordinated with block 211.

Specifically, fixed electrode body 100 includes sensor sliding sleeve 120, temperature sensor ontology 200 and sensor sliding sleeve 120 sockets, and the two opposite can be slided, and temperature sensor ontology 200 can submerge sensor sliding sleeve 120 completely It is interior, but temperature sensor ontology 200 can not fully extended sensor sliding sleeve 120.

Specifically, 120 top of sensor sliding sleeve is provided with baffle 121,200 bottom of temperature sensor ontology is provided with block 211, and block 211 protrudes 200 outer wall of temperature sensor ontology, may insure to sense by the cooperation of baffle 121 and block 211 Device ontology will not fully slide out out of sensor sliding sleeve 120.

Wherein, block 211 is arranged in 210 outer wall of sensor outer housing, and 400 one end of elastic component is connect with block 211, separately One end is connect with sensor sliding sleeve 120, and 120 three of sensor outer housing 210- elastic component 400- sensors sliding sleeve is made to form one System；When temperature sensor ontology 200 (i.e. sensor outer housing 210), which receives cookware 500, oppresses, sensor outer housing 210 will It moves down, and then oppresses elastic component 400 and shrink；After cookware 500 is removed, elastic component 400 will discharge elastic potential energy, support Sensor outer housing 210 resets.

Wherein, the maximum gauge of sensor sliding sleeve 120 is more than the maximum gauge of sensor outer housing 210, i.e. temperature sensor Ontology 200 is set in inside sensor sliding sleeve 120.According to demand or specific condition, sensor sliding sleeve 120 can be set in temperature It spends in sensor body 200.

In the alternative of the present embodiment, electrode reed 230 includes short contact reed 231 and long contact spring 232；Short circuit It touches reed 231 and long contact spring 232 is connected to 220 both ends of temperature-sensing element.

In the alternative of the present embodiment, electrode 300 include the first electrode 310 being connect with short contact reed 231 and with The second electrode 320 that long contact spring 232 connects.

In the alternative of the present embodiment, there are gaps between long contact spring 232 and first electrode 310.

In the alternative of the present embodiment, fixed electrode body 100 includes the electrode fixed seat for fixing electrode 300 110, it is provided with the first round platform 111 in electrode fixed seat 110 and is installed in second round platform 112 at 111 top of the first round platform, first Round platform 111 and the second round platform 112 are whole in " convex " font；

First electrode 310 is located on the second round platform 112, and second electrode 320 is located on the first round platform 111.

Wherein, small copper sheathing (electrode 300) may be used in first electrode 310, and big copper sheathing (electricity may be used in second electrode 320 Pole 300).

Gas furnace temperature sensor provided in this embodiment, by sensor outer housing 210, temperature-sensing element 220 and sensor Inner sleeve 240 forms, and temperature-sensing element 220 is placed on the top of 210 the inside of sensor outer housing, and the setting of sensor inner sleeve 240 is sensing The fixed temperature-sensing element 220 in the inside of device shell 210,220 both ends of temperature-sensing element set flexible electrode reed 230, respectively with setting Make coupling in the small copper sheathing (electrode 300) and big copper sheathing (electrode 300) of electrode fixed seat 110 to be electrically connected.

Electrode fixed seat 110 is fixed on the pedestal 600 of stove, and small copper sheathing (electrode 300) and big copper sheathing (electrode 300) are solid It is scheduled in electrode fixed seat 110, mutual non-conductive contact.

A spring is equipped at 110 top shoulder of electrode fixed seat, spring is entangled and is fixed on electricity by sensor sliding sleeve 120 In pole fixed seat 110, spring top withstands sensor base and applies a upward thrust to sensor, when cooking pot tool 500 When being placed on grate 700 (1), gravity is by the downward compressed spring of sensor so that large and small copper sheathing and temperature-sensing element 220 Two electrode reeds, 230 efficient coupling is in electrical contact, plays the function of real time temperature measurement；After taking away cooking pot tool 500, spring pushes away Power will shift up sensor so that two electrode reeds 230 and the large and small copper sheathing of temperature-sensing element 220 disengage, in this way It can sense the signal whether cooking pot tool 500 is taken away or translated into, at once flame-out safety measure may be implemented by automatically controlled.

The art of this patent feature be temperature sensor two electrode reeds 230 be fixed on consolidating on base of gas stove 600 Two electrodes 300 in the electrode fixed seat 110 of fixed electrode ontology 100 are that coupling is electrically connected.By this characteristic, it can be achieved that working as Cooking pot tool 500 can close gas extinguishing fire in time when translating into, and play the role of safeguard protection.

Gas furnace can get the real time temperature of cooking apparatus by this temperature sensor, then is controlled and fired by intelligent controller The flow of air valve, to achieve the purpose that intelligent control firepower realizes intelligent cooking.

Finally it should be noted that：The above various embodiments is only to illustrate the technical solution of the utility model, rather than limits it System；Although the utility model has been described in detail with reference to the foregoing embodiments, those skilled in the art should Understand：It still can be with technical scheme described in the above embodiments is modified, either to which part or whole Technical characteristic carries out equivalent replacement；And these modifications or replacements, this practicality that it does not separate the essence of the corresponding technical solution are new The range of each embodiment technical solution of type.

Claims (10)

1. a kind of gas furnace temperature sensor, is arranged on the pedestal of stove, which is characterized in that including：Fixed electrode body, The temperature sensor ontology that can be in direct contact with cookware and the electrode being fixed in the fixed electrode body；

The temperature sensor ontology and the electrode that is fixed in the fixed electrode body on stove base are slidably Socket；

Be provided with the elastic component for being used to support the temperature sensor ontology on the fixed electrode body, in the elastic component and When both described temperature sensor ontologies are generally in external force pressure, the temperature sensor ontology is connect with the electrode, Both the elastic component and the temperature sensor ontology are whole non-when being in external force pressure, the temperature sensor ontology and institute Electrode is stated to disconnect.

2. gas furnace temperature sensor according to claim 1, which is characterized in that the temperature sensor ontology includes Sensor outer housing, the temperature-sensing element being arranged in the sensor outer housing and it is arranged in the sensor outer housing and the temperature-sensitive The electrode reed of element；

The temperature-sensing element is arranged on the inner wall at the top of the sensor outer housing；

When both the elastic component and the temperature sensor ontology are generally in external force pressure, the electrode reed with it is described Electrode connects.

3. gas furnace temperature sensor according to claim 2, which is characterized in that be provided in the sensor outer housing It is used to support the sensor inner sleeve of the temperature-sensing element, the sensor inner sleeve is detachably connected with the sensor outer housing.

4. gas furnace temperature sensor according to claim 3, which is characterized in that the sensor outer housing bottom setting There is the block being connect with the elastic component.

5. gas furnace temperature sensor according to claim 4, which is characterized in that the electrode reed includes short contact Reed and long contact spring；

The short contact reed and the long contact spring are connected to the temperature-sensing element both ends.

6. gas furnace temperature sensor according to claim 5, which is characterized in that the electrode includes and the short circuit The second electrode touched the first electrode of reed connection and connect with the long contact spring.

7. gas furnace temperature sensor according to claim 6, which is characterized in that the long contact spring and described the There are gaps between one electrode.

8. gas furnace temperature sensor according to claim 6, which is characterized in that the fixed electrode body includes using The first round platform and it is installed in first round platform in being provided in the electrode fixed seat of the fixation electrode, the electrode fixed seat Second round platform at top, first round platform and second round platform are in integrally " convex " font；

The first electrode is located on second round platform, and the second electrode is located on first round platform.

9. gas furnace temperature sensor according to claim 6, which is characterized in that the fixed electrode body further includes Sensor sliding sleeve, the maximum gauge of the sensor sliding sleeve are more than the maximum gauge of the sensor outer housing；

The elastic component includes spring, and the spring is located in the sensor sliding sleeve.

10. gas furnace temperature sensor according to claim 9, which is characterized in that sensor sliding sleeve bottom with The fixed electrode body is affixed, and the baffle coordinated with the block is provided at the top of the sensor sliding sleeve.