CN205079875U - Separate heat insulation suspension type temperature sensor - Google Patents

Abstract

The utility model discloses a separation heat insulation suspension type temperature sensor, which comprises a temperature sensing cap, a thermocouple, a supporting structure, a heat insulation jacket supporting rod, an elastic connecting structure and a heat insulation structure, wherein the upper end of the elastic connecting structure is penetrated and connected in the temperature sensing cap; the heat insulation structure comprises a shell and a heat insulation jacket, the shell is wrapped by a temperature sensing cap and an elastic connection structure, the upper end of the temperature sensing cap protrudes out of the upper end face of the shell, the lower end of the shell is fixedly connected with the top of the supporting structure, the heat insulation jacket is arranged on the outer side of the shell, the upper end of the heat insulation jacket is hermetically connected with the upper end of the shell, the lower end of the heat insulation jacket is slidably sleeved on the upper end of a supporting rod of the heat insulation jacket, a heat insulation cavity is arranged between the heat insulation jacket and the shell, and the front end. The utility model discloses reducible outside heat is through the interference of horizontal heat transfer and vertical heat transfer, and the temperature measurement deviation is little, improves the temperature measurement accuracy, and intelligent control can be realized in signal switch's setting moreover.

Description

The heat insulation floated temperature sensor of a kind of separation

Technical field

The utility model relates to a kind of temperature sensor, specifically the heat insulation floated temperature sensor of a kind of separation.

Background technology

In order to improve the safety in utilization of gas-cooker, current gas-cooker starts to adopt safety precautions, wherein arranging the temperature sensor for detecting the temperature bottom cooking pot tool, avoiding the generation of security incident.

But infrared acquisition temperature techniques is applied on gas kitchen ranges, there is certain limitation: one is the limitation of point for measuring temperature; Two is limitation that pan is put; Three is limitation of environment for use; These 3 all can be caused temperature deviation to alter a great deal, and cause the automatic erroneous judgement of electric-control system.

In existing domestic gas kitchen range, also adopt the temperature sensor at the bottom of a kind of direct contact pot in addition, it can temperature at the bottom of direct detection to pot.But this sensor also has certain limitation: affect very greatly by burner flame is photothermal, the particularly burner of multi-turn flame, due to the impact of inner ring flame, the temperature deviation causing sensor to detect is large, can cause the automatic erroneous judgement of electric-control system.

Application number is the self-adapted temperature sensor of the gas-cooker of 200810143480.1, its structure adopting parts such as comprising sensing cap, thermopair, sliding sleeve, orienting sleeve, guide rod, fire collar, spring to form, self-adaptation cookware base shape and putting position and close contact, the temperature signal of sensing cap detection cookware base, and be supplied to controller and automatically control.Its sliding sleeve, orienting sleeve and guide rod form three layers of heat insulation structural protection thermocouple wire; and fire collar forms single layer structure protection sensing cap; but still existing defects: the individual layer fire proof construction of upper end and three layers of heat insulation structural of lower end still can not avoid amount of heat conduct and pass to sensing cap; it is still poor to the effect of heat insulation of the upper end of sensing cap and thermocouple wire, affects the accurate measurement of sensing cap.

Utility model content

For overcoming the existing technological deficiency that effect of heat insulation is poor, temperature measurement accuracy is low being applied to the temperature sensor of gas-cooker, the utility model provides a kind of double thermal insulation floated temperature sensor, and its good heat-insulation effect to temperature-sensitive cap, temperature measurement accuracy are high.For realizing above-mentioned technical purpose, the technical solution of the utility model is as follows:

The heat insulation floated temperature sensor of a kind of separation, comprise temperature-sensitive cap, thermopair, supporting construction, insulated sheath support bar, elastic connection structure, heat insulation structural, the upper end of described elastic connection structure is connected to the inside of described temperature-sensitive cap, described heat insulation structural comprises shell and insulated sheath, the coated described temperature-sensitive cap of described shell and elastic connection structure, the upper surface of described shell is protruded in the upper end of described temperature-sensitive cap, the bottom of described shell is fixedly connected with the top of described supporting construction, described insulated sheath is arranged at the outside of described shell, the upper end of described insulated sheath and the upper end of described shell are tightly connected, the lower slide socket of described insulated sheath is arranged at the upper end of described insulated sheath support bar, insulated cavity is provided with between described insulated sheath and described shell, insulated sheath Compress Spring is provided with in described insulated cavity, described insulated sheath Compress Spring is sheathed on described shell, the upper end of described insulated sheath Compress Spring abuts with the upper end of described insulated sheath, the lower end of described insulated sheath Compress Spring abuts with the upper end of described insulated sheath support bar, described temperature-sensitive cap is close in the leading section of described thermopair.

More preferably, the lower end of described insulated sheath is provided with sealing cap under the insulated sheath bent inwards, the top of described insulated sheath support bar is outwards provided with the insulated sheath support bar flanging coordinating with sealing cap under insulated sheath and move up for limiting sealing cap under insulated sheath, under described insulated sheath, sealing cap is sheathed on the outside of described insulated sheath support bar, and the lower end of described insulated sheath Compress Spring abuts with described insulated sheath support bar flanging.

More preferably, described elastic connection structure comprises temperature-sensitive cap Compress Spring, spring guide pillar, spring guide pillar push rod; The lower end of described spring guide pillar push rod is fixedly connected with described supporting construction, the lower end of described spring guide pillar is fixedly connected with the upper end of described spring guide pillar push rod, described temperature-sensitive cap is slidably socketed the upper end in described spring guide pillar, described temperature-sensitive cap Compress Spring is located in the cavity that described spring guide pillar and described temperature-sensitive cap formed, and upper end abuts with described temperature-sensitive cap, lower end abuts with described spring guide pillar.

More preferably, described supporting construction comprises support bar overcoat, support bar overcoat Compress Spring, support bar and lower sealing cap, the bottom of shell is fixed by caulking to lower sealing cap, the lower end of described spring guide pillar push rod is stretched out described lower sealing cap and is abutted with described support bar Compress Spring, the bottom of described lower sealing cap is fixedly connected with described support bar overcoat, described support bar overcoat is sheathed on described support bar overcoat Compress Spring, and bottom and the described support bar of described support bar overcoat are slidably socketed.

More preferably, the lower end of described support bar overcoat is inwardly shunk and is provided with boss, and the top of described support bar is outwards provided with the flanging coordinating with boss and form retaining structure.

More preferably, described temperature sensor also comprises signaling switch, and described signaling switch comprises Hall switch, magnet and magnet groove; Described Hall switch is fixed on the wire of described thermopair, described magnet groove is fixed on described support bar, the mobile of wire of described thermopair drives described magnet moving axially along described support bar in described magnet groove, the mobile on off state changing described Hall switch of described magnet.

More preferably, described temperature sensor also comprises two quick couplings be electrically connected with wire and the Hall switch of described thermopair respectively.

More preferably, described temperature sensor also comprises thermocouple wire pressing plate, and the inwall of described temperature-sensitive cap is fixed in the leading section of described thermopair by described thermocouple wire pressing plate.

More preferably, described temperature sensor also comprises support bar fixation kit, and described support bar fixation kit comprises fixed code, fixed mount and pan head screw, and described support bar is fixed on described fixed mount by described pan head screw by described fixed code.

Compared with prior art, the beneficial effects of the utility model are: the bottom of a pan is close to by temperature-sensitive cap, and the inside of shell is pressed into completely by the bottom of a pan, and disengage with shell and insulated sheath, heat longitudinally conducts to temperature-sensitive cap by minimizing shell and insulated sheath well; And the double thermal insulation structure of shell and insulated sheath formation separate type, and the insulated cavity formed in the middle of shell and insulated sheath is as insulated cavity, further reduce heat lateral transport to temperature-sensitive cap, thus ensure that thermopair can accurately detect the temperature at the bottom of pot; The signaling switch that Hall switch etc. are formed, with thermopair mating reaction, can realize the Based Intelligent Control of gas-cooker; Sealing cap under temperature-sensitive cap, shell, lower sealing cap, support bar overcoat, insulated sheath, insulated sheath, it is by suitably regulating, and can have different angles of inclination, therefore temperature sensor can better be adjacent at the bottom of pot, accurate detection cooking bottom temperature.

Accompanying drawing explanation

Fig. 1 is perspective view of the present utility model;

Fig. 2 is diagrammatic cross-section of the present utility model.

Reference numeral: 1-temperature-sensitive cap, 2-thermocouple wire pressing plate, 3-temperature-sensitive cap Compress Spring, 4-spring guide pillar, 5-spring guide pillar push rod, 6-shell, sealing cap under 7-, 8-support bar overcoat, 9-support bar overcoat Compress Spring, 10-support bar, 11-thermopair, 12-insulated sheath, 13-insulated sheath Compress Spring, sealing cap under 14-insulated sheath, 15-insulated sheath support bar, 16-fixed code, 17-fixed mount, 18-magnet, 19-magnet groove, 20-Hall switch, 21-clip, 22-quick coupling, 23-pan head screw.

Embodiment

In order to make the purpose of this utility model, technical scheme and advantage clearly understand, below in conjunction with drawings and Examples, the utility model is further elaborated.Should be appreciated that specific embodiment described herein only in order to explain the utility model, and be not used in restriction the utility model.

The utility model provides a kind of separation for gas-cooker heat insulation floated temperature sensor, it is fixed on gas-cooker, comprise temperature sensing component, supporting construction, insulated sheath support bar 15, elastic connection structure, heat insulation structural, signaling switch, wherein the tubulose of the inside of supporting construction, elastic connection structure and heat insulation structural all in hollow.

Below all as shown in Figure 1, 2, temperature sensing component comprises temperature-sensitive cap 1, thermopair 11, thermocouple wire pressing plate 2, thermocouple wire pressing plate 2 leading section of thermopair 11 is fixed and the inwall being close to temperature-sensitive cap 1 to avoid coming off easily, the wire of thermopair 11 passes the inside of elastic connection structure and supporting construction successively, and extends away as the external terminal of temperature sensor.Wherein the wire of thermopair 11 moves the on off state that can trigger and change signaling switch.

When temperature-sensitive cap 1 is subject to the downward pressure in the bottom of a pan, it can move down along temperature-sensitive cap Compress Spring 3, and the thermopair 11 be now fixed on temperature-sensitive cap 1 also can move down, thus the wire of the thermopair 11 mobile on off state triggering change signaling switch thereupon.As when signaling switch is connected with the controller of gas-cooker, the fuel gas pipeline of gas-cooker is automatically opened and can be implemented ignition, realizes the Based Intelligent Control of gas-cooker.

The upper end of elastic connection structure is arranged in temperature-sensitive cap, and abuts with the upper end inside surface of temperature-sensitive cap 1, and lower end is fixedly connected with supporting construction.Wherein, elastic connection structure comprises temperature-sensitive cap Compress Spring 3, spring guide pillar 4, spring guide pillar push rod 5.The lower end of spring guide pillar push rod 5 is fixedly connected with lower sealing cap 7, and can compress support bar overcoat Compress Spring 9 downwards.The lower end of spring guide pillar 4 is fixedly connected with the upper end of spring guide pillar push rod 5, and its upper end open.Temperature-sensitive cap 1 is slidably socketed the upper end in spring guide pillar 4, and temperature-sensitive cap Compress Spring 3 is located in the cavity that spring guide pillar 4 and temperature-sensitive cap 1 formed, and upper end abuts with temperature-sensitive cap 1, and lower end abuts with spring guide pillar 4.

When temperature-sensitive cap 1 is subject to the downward pressure in the bottom of a pan, it can move down along temperature-sensitive cap Compress Spring 3, and the thermopair 11 be now fixed on temperature-sensitive cap 1 also can move down, thus the wire of the thermopair 11 mobile on off state triggering change signaling switch thereupon.As when signaling switch is connected with the controller of gas-cooker, the fuel gas pipeline of gas-cooker is automatically opened and can be implemented ignition.

Heat insulation structural comprises shell 6 and insulated sheath 12, the coated temperature-sensitive cap 1 of shell 6 and elastic connection structure, the upper surface of shell 6 is protruded in the upper end of temperature-sensitive cap 1, the bottom of shell 6 is fixedly connected with the top of supporting construction, insulated sheath 12 is arranged at the outside of shell 6, the upper end of insulated sheath 12 and the upper end of shell 6 are tightly connected, the lower slide socket of insulated sheath 12 is arranged at the upper end of insulated sheath support bar 15, insulated cavity is provided with between insulated sheath 12 and shell 6, insulated sheath Compress Spring 13 is provided with in insulated cavity, insulated sheath Compress Spring 13 is sheathed on shell 6, the upper end of insulated sheath Compress Spring 13 abuts with the upper end of insulated sheath 12, the lower end of insulated sheath Compress Spring 13 abuts with the upper end of insulated sheath support bar 15.

The lower end of insulated sheath 12 is provided with sealing cap 14 under the insulated sheath bent inwards, the top of insulated sheath support bar 15 is outwards provided with and coordinates with sealing cap under insulated sheath 14 and for limiting the insulated sheath support bar flanging that sealing cap 14 under insulated sheath moves up, under insulated sheath, sealing cap 14 is sheathed on the outside of insulated sheath support bar 15, and the lower end of insulated sheath Compress Spring 13 abuts with insulated sheath support bar flanging.

When temperature-sensitive cap 1 is stressed press down time, it is separated with the upper end of shell 6 and insulated sheath 12 gradually and forms gap, reduces shell 6 and insulated sheath 12 to temperature-sensitive cap 1 longitudinally heat transfer, improves the degree of accuracy that temperature-sensitive cap 1 detects cooking bottom temperature.Therefore form the double thermal insulation structure of separate type and the insulated cavity of its inside, available protecting temperature-sensitive cap 1 and thermopair 11, reduce heat lateral transport to temperature-sensitive cap 1 and thermopair 11, avoid environmental impact thus the temperature detecting precision of raising temperature-sensitive cap 1.

Supporting construction comprises support bar overcoat 8, support bar overcoat Compress Spring 9, support bar 10 and lower sealing cap 7.The bottom of shell 6 is fixed by caulking to lower sealing cap 7, the lower end of spring guide pillar push rod 5 is stretched out lower sealing cap 7 and is abutted with support bar overcoat Compress Spring 9, the bottom of lower sealing cap 7 is fixedly connected with support bar overcoat 8, support bar overcoat 8 is sheathed on support bar overcoat Compress Spring 9, and bottom and the support bar 10 of support bar overcoat 8 are slidably socketed.Support bar 10 is circular tube structure, and the wire being convenient to thermopair 11 wears wiring, thus the wire improving thermopair 11 moves the sensitivity with signaling switch.

The lower end of support bar overcoat 8 is inwardly shunk and is provided with boss, and the top of support bar 10 is outwards provided with the flanging coordinating with boss and form retaining structure, and this retaining structure can be used for keeping out support bar overcoat 8 and upwards skids off support bar 10.Support bar overcoat Compress Spring 9 is located at the inside of support bar overcoat 8, and lower end is supported by the flanging of support bar 10.Being positioned on gas-cooker when cooker and applying downward pressure to temperature-sensitive cap 1, when the end face of temperature-sensitive cap 1 flushes with the end face of shell 6, shell 6 is simultaneously stressed with temperature-sensitive cap 1.Downward pressure suffered by shell 6 passes to lower sealing cap 7 and support bar overcoat 8 successively, makes support bar overcoat 8 along the upper end slide downward of support bar 10.When removing cooker, the force of compression suffered by support bar overcoat Compress Spring 9 drives support bar overcoat 8 along support bar 10 upward sliding and turns back to original position.

In addition; the elastic force of support bar overcoat Compress Spring 9 is greater than the elastic force of temperature-sensitive cap Compress Spring 3; temperature-sensitive cap 1 is stressed reach certain numerical value time; it is delivered to support bar overcoat Compress Spring 9 by stressed; thus support bar overcoat Compress Spring 9 can available protecting temperature-sensitive cap Compress Spring 3, avoid it because of stressed excessive and damage.And, the height of support bar overcoat Compress Spring 9 also adjustable shell 6, and insulated sheath Compress Spring 13 can regulate the height of insulated sheath 12, the end face of shell 6 and insulated sheath 12 and temperature-sensitive cap 1 is made to form certain angle to coordinate the various shape requirements at the bottom of cooker pan, temperature-sensitive cap 1 is made to be adjacent at the bottom of pot, accurate detection cooking bottom temperature.

Temperature-sensitive cap 1 is stressed and separate with the upper end of shell 6 and form space, therefore its certain angle that can tilt within the specific limits.And support bar overcoat 8 also can need to arrange certain interval according to design with the place of being slidably socketed of support bar 10, the shell 6 be convenient to support bar overcoat 8, being fixedly connected with support bar overcoat 8 and spring guide pillar push rod 5 and the temperature-sensitive cap 1 abutted by elastic connection structure all can tilt certain angle.In addition, insulated sheath 12 also can need to arrange certain interval according to design with the place of being slidably socketed of insulated sheath support bar 15, and being convenient to insulated sheath 12 can tilt to certain angle.Therefore temperature-sensitive cap 1 and shell 6 and the inclination every overcoat, can adapt to the bottom of a pan of various shape, make temperature-sensitive cap 1 can be adjacent to the bottom of a pan of various shape, thus accurate detection cooking bottom temperature.

Floated temperature sensor in the utility model also comprises support bar fixation kit, and support bar fixation kit comprises fixed code 16, fixed mount 17 and pan head screw 23.Fixed mount 17 is fixed on gas-cooker, and then support bar 10 is fixed on fixed mount 17 by pan head screw 23 by fixed code 16, thus is fixed on gas-cooker by support bar 10; In addition, the lower end of insulated sheath support bar 15 is also provided with fixed sturcture, for insulated sheath support bar 15 is fixed on gas-cooker.Thus, be convenient to the temperature of temperature sensor detection at the bottom of pot.

Signaling switch comprises Hall switch 20, magnet 18 and magnet groove 19; Hall switch 20 is fixed on the wire of thermopair 11 by clip 21, magnet groove 19 is fixed on support bar 10, mobile drive magnet 18 the moving axially along support bar 10 in magnet groove 19 of the wire of thermopair 11, the mobile on off state changing Hall switch 20 of magnet 18.

In addition, the external terminal as temperature sensor that the wire of thermopair 11 is extended away, is electrically connected with a quick coupling 22; The output terminal of Hall switch 20 is also electrically connected with a quick coupling 22.The wire that two quick couplings 22 are convenient to thermopair 11 can be connected with external unit fast and stably with Hall switch 20.

In the present embodiment, between spring guide pillar 4 and spring guide pillar push rod 5, between lower sealing cap 7 and spring guide pillar push rod 5, between lower sealing cap 7 and shell 6, between lower sealing cap 7 and support bar overcoat 8, all adopt to be welded and fixed connection, wild phase connects the strength of joint between parts, improves the quality of floated temperature sensor.

The above; be only the utility model preferably embodiment; but protection domain of the present utility model is not limited thereto; anyly be familiar with those skilled in the art in the technical scope that the utility model discloses; the change that can expect easily or replacement, all should be encompassed within protection domain of the present utility model.Therefore, protection domain of the present utility model should be as the criterion with the protection domain of claim.

Claims (9)

1. be separated a heat insulation floated temperature sensor, it is characterized in that: comprise temperature-sensitive cap, thermopair, supporting construction, insulated sheath support bar, elastic connection structure, heat insulation structural, the upper end of described elastic connection structure is connected to the inside of described temperature-sensitive cap, described heat insulation structural comprises shell and insulated sheath, the coated described temperature-sensitive cap of described shell and elastic connection structure, the upper surface of described shell is protruded in the upper end of described temperature-sensitive cap, the bottom of described shell is fixedly connected with the top of described supporting construction, described insulated sheath is arranged at the outside of described shell, the upper end of described insulated sheath and the upper end of described shell are tightly connected, the lower slide socket of described insulated sheath is arranged at the upper end of described insulated sheath support bar, insulated cavity is provided with between described insulated sheath and described shell, insulated sheath Compress Spring is provided with in described insulated cavity, described insulated sheath Compress Spring is sheathed on described shell, the upper end of described insulated sheath Compress Spring abuts with the upper end of described insulated sheath, the lower end of described insulated sheath Compress Spring abuts with the upper end of described insulated sheath support bar, described temperature-sensitive cap is close in the leading section of described thermopair.

2. the heat insulation floated temperature sensor of separation according to claim 1, it is characterized in that: the lower end of described insulated sheath is provided with sealing cap under the insulated sheath bent inwards, the top of described insulated sheath support bar is outwards provided with the insulated sheath support bar flanging coordinating with sealing cap under insulated sheath and move up for limiting sealing cap under insulated sheath, under described insulated sheath, sealing cap is sheathed on the outside of described insulated sheath support bar, and the lower end of described insulated sheath Compress Spring abuts with described insulated sheath support bar flanging.

3. the heat insulation floated temperature sensor of separation according to claim 1, is characterized in that: described elastic connection structure comprises temperature-sensitive cap Compress Spring, spring guide pillar, spring guide pillar push rod; The lower end of described spring guide pillar push rod is fixedly connected with described supporting construction, the lower end of described spring guide pillar is fixedly connected with the upper end of described spring guide pillar push rod, described temperature-sensitive cap is slidably socketed the upper end in described spring guide pillar, described temperature-sensitive cap Compress Spring is located in the cavity that described spring guide pillar and described temperature-sensitive cap formed, and upper end abuts with described temperature-sensitive cap, lower end abuts with described spring guide pillar.

4. the heat insulation floated temperature sensor of separation according to claim 3, it is characterized in that: described supporting construction comprises support bar overcoat, support bar overcoat Compress Spring, support bar and lower sealing cap, the bottom of shell is fixed by caulking to lower sealing cap, the lower end of described spring guide pillar push rod is stretched out described lower sealing cap and is abutted with described support bar Compress Spring, the bottom of described lower sealing cap is fixedly connected with described support bar overcoat, described support bar overcoat is sheathed on described support bar overcoat Compress Spring, and bottom and the described support bar of described support bar overcoat are slidably socketed.

5. the heat insulation floated temperature sensor of separation according to claim 4, it is characterized in that: the lower end of described support bar overcoat is inwardly shunk and is provided with boss, the top of described support bar is outwards provided with the flanging coordinating with boss and form retaining structure.

6. the heat insulation floated temperature sensor of the separation according to claim 1 to 5 any one, is characterized in that: also comprise signaling switch, described signaling switch comprises Hall switch, magnet and magnet groove; Described Hall switch is fixed on the wire of described thermopair, described magnet groove is fixed on described support bar, the mobile of wire of described thermopair drives described magnet moving axially along described support bar in described magnet groove, the mobile on off state changing described Hall switch of described magnet.

7. the heat insulation floated temperature sensor of separation according to claim 6, is characterized in that: also comprise two quick couplings be electrically connected with wire and the Hall switch of described thermopair respectively.

8. the heat insulation floated temperature sensor of the separation according to claim 1 to 5 any one, is characterized in that: also comprise thermocouple wire pressing plate, and the inwall of described temperature-sensitive cap is fixed in the leading section of described thermopair by described thermocouple wire pressing plate.

9. the heat insulation floated temperature sensor of separation according to claim 4, it is characterized in that: also comprise support bar fixation kit, described support bar fixation kit comprises fixed code, fixed mount and pan head screw, and described support bar is fixed on described fixed mount by described pan head screw by described fixed code.