CN206565757U - The elastic fit pot induction structure and heating kettle of heat-generating disc - Google Patents

Abstract

This application discloses the elastic fit pot induction structure and heating kettle of heat-generating disc, it is related to electrical heating product scope, the elastic fit pot induction structure of wherein described heat-generating disc includes heating disc main body, the heating disc main body, which is provided with, runs through through hole, the lower section through through hole is provided with supporting plate, the supporting plate is provided with sensor unit, provided with elastic top-pressure part between the sensor unit and the supporting plate, the bottom of the heating disc main body is provided with locating dowel, the supporting plate is provided with connecting hole, locating dowel is moved through the connecting hole and supporting plate in supporting plate along the locating dowel, one end of the locating dowel is provided with gear part, the locating dowel is provided with the first top pressure spring for supporting plate described in top pressure.Supporting plate can be moved along locating dowel in the application, while moving down sensor unit, top pressure supporting plate can be continued to move down downwards, be added the resilient movement stroke of sensor unit, satisfaction uses needs.

Description

The elastic fit pot induction structure and heating kettle of heat-generating disc

【Technical field】

The application is related to electrical heating product scope, elastic fit pot induction structure more particularly, to heat-generating disc and its should Heating kettle.

【Background technology】

From heat-generating disc as the heating kettle of pyrotoxin and other electrical heating products, in order to prevent heat-generating disc and pot Body because being recessed after long-term use, the bad phenomenon such as distortion, cause the sensor unit on heat-generating disc fitted with pot by Influence, so as to cause the temperature inductor on sensor unit to have larger difference to the temperature sensor of pot and the actual temperature of pot Sensor unit split, is typically arranged on heat-generating disc by different situation, and top pressure is provided between sensor unit and heat-generating disc Spring enables sensor unit resilient movement on heat-generating disc, when being placed with pot on heat-generating disc, and pot top pressure sensor is total Into making sensor unit move down compression top pressure spring, sensor unit elastic fit is realized in pot, accurately to sense The actual temperature of pot.But the sensor unit resilient movement stroke of the class formation is the amount of elastic deformation of top pressure spring, because The amount of elastic deformation of top pressure spring is confined to for the resilient movement stroke of sensor unit, so when the pot being placed on heat-generating disc When body is occurred compared with large deformation phenomenon, then pot top pressure sensor unit occurs to the compression limit of top pressure spring, pot is still The phenomenon that can not be completely attached to heat-generating disc, makes heating kettle cisco unity malfunction.

【The content of the invention】

In order to solve the above problems, increase the resilient movement stroke of sensor unit, this application provides the bullet of heat-generating disc Property laminating pot induction structure.

The application is realized by following technical scheme：

The elastic fit pot induction structure of heat-generating disc, including heating disc main body, the heating disc main body, which is provided with, to be run through Through hole, the lower section through through hole is provided with the supporting plate being connected with the heating disc main body, and the supporting plate is provided with sensing Device assembly, provided with elastic top-pressure part between the sensor unit and the supporting plate, the bottom of the heating disc main body is provided with Several are secured to the locating dowel of connection, and the supporting plate is provided with the connection corresponding with the locating dowel of quantity and position Hole, each locating dowel is through corresponding connecting hole in supporting plate and supporting plate can be moved up and down along the locating dowel, the positioning The one end of post away from heating disc main body be provided with the gear part that be connected with the locating dowel, the locating dowel in the supporting plate and The first top pressure spring for supporting plate described in top pressure is arranged between the gear part.

The elastic fit pot induction structure of heat-generating disc as described above, the bottom of the heating disc main body is provided with several Downward opening screwed hole, and the quantity of the screwed hole and position are corresponding with the locating dowel, the upper end of each locating dowel Provided with the external screw thread coordinated with corresponding screwed hole screw thread.

The elastic fit pot induction structure of heat-generating disc as described above, the bottom of the sensor unit is provided with several Pin, the supporting plate is described provided with the spliced eye that quantity and position are corresponding with the pin and supply the pin to plug Elastic top-pressure part is the second top pressure spring, and the pin is plugged to the spliced eye through second top pressure spring.

The elastic fit pot induction structure of heat-generating disc as described above, the sensor unit is provided with and heat-generating disc The microswitch of electrical connection, the microswitch is provided with the temperature inductor for being used for sensing temperature of boiler, and when the temperature When inductor senses that the temperature of pot is too high, the microswitch controls the heat-generating disc to stop heating.

The elastic fit pot induction structure of heat-generating disc as described above, the microswitch is provided with touching portion, works as hair When being placed with pot in hot plate, pot top pressure sensor unit is moved down to be opened with compressing the second top pressure spring, and touching fine motion The touching portion shut makes microswitch control heat-generating disc to enter working condition；After the pot on heat-generating disc is withdrawn, compressed Second top pressure spring top pressure sensor unit is moved up, and microswitch touching portion recover to touchless state to make it is described micro- Dynamic switch control heat-generating disc enters holding state.

The elastic fit pot induction structure of heat-generating disc as described above, the temperature inductor is to be opened located at the fine motion The temperature and resistance shut.

The elastic fit pot induction structure of heat-generating disc as described above, the supporting plate and first top pressure spring it Between be provided with U-shaped pad.

The elastic fit pot induction structure of heat-generating disc as described above, first top pressure spring is volute spring, and Its wider one end is close to the supporting plate.

The elastic fit pot induction structure of heat-generating disc as described above, the quantity of the screwed hole is two, and this two The individual screwed hole axis through through hole relatively is symmetrical.

Disclosed herein as well is heating kettle, including pot and heat-generating disc, the heat-generating disc is provided with heat-generating disc as described above Elastic fit pot induction structure.

Compared with prior art, the application has the following advantages：

In the elastic fit pot induction structure of the application heat-generating disc, the bottom of heating disc main body is provided with locating dowel, and sets The supporting plate for having sensor unit can be moved up and down along locating dowel, and provided with upward between supporting plate and the gear part of locating dowel First top pressure spring of top pressure supporting plate, makes pot top pressure sensor unit move down and while elasticity of compression top-pressure part, Also can top pressure supporting plate move down and compress the first top pressure spring, so as to add the resilient movement stroke of sensor unit, Enable sensor unit elastic fit that there is bigger depression or the pot of twisted shape variable.

【Brief description of the drawings】

In order to illustrate more clearly of the technical scheme in the embodiment of the present application, make required in being described below to embodiment Accompanying drawing is briefly described.

Fig. 1 is that heat-generating disc separates schematic diagram with pot；

Fig. 2 is the close-up schematic view in A portions in Fig. 1；

Fig. 3 is the schematic diagram that pot is placed with heat-generating disc；

Fig. 4 is the close-up schematic view in B portions in Fig. 3.

【Embodiment】

Shown heating kettle, including pot 1 and heat-generating disc 2 referring to the drawings, elasticity patch of the heat-generating disc 2 provided with heat-generating disc Pot induction structure is closed, the elastic fit pot induction structure of the heat-generating disc includes heating disc main body 201, the heat-generating disc master Body 201, which is provided with, runs through through hole 202, and the lower section through through hole 202 is provided with the support being connected with the heating disc main body 201 Plate 3, the supporting plate 3 is provided with sensor unit 4, provided with elastic top pressure between the sensor unit 4 and the supporting plate 3 Part 5, it is preferred that elastic top-pressure part 5 is is capable of the second top pressure spring of top pressure sensor unit 4 upwards, when placement on heat-generating disc 2 When having pot 1, the top pressure sensor unit 4 of pot 1 moves down and compresses the second top pressure spring, when removing pot on heat-generating disc 2 When, the upward top pressure sensor unit 4 of the second top pressure spring moves up sensor unit 4, and sensor unit 4 passes through the second top Pressing spring realizes the resilient movement on heat-generating disc 2, and can realize elastic fit of the sensor unit 4 to pot 1.

The bottom of the sensor unit 4 is provided with several pins 401, the supporting plate 3 provided with quantity and position with The pin 401 is corresponding and the spliced eye 301 that plugs for the pin, and the pin 401 passes through the second top pressure bullet Spring is plugged to the spliced eye 301, and the inserting foot 401 of sensor unit 4 is plugged to the spliced eye 301 in supporting plate 3, energy Limited position limitation is carried out to sensor unit 4, it is ensured that sensor unit 4 is only moved in the vertical direction of supporting plate, is met Use needs.

The bottom of the heating disc main body 201 is provided with several locating dowels 203, and the supporting plate 3 is provided with quantity and position Put the connecting hole 302 corresponding with the locating dowel, and each connecting hole 302 in the supporting plate 3 is through corresponding positioning Post 203 enables supporting plate 3 to be moved along the locating dowel 203, and the one end of the locating dowel 203 away from heating disc main body 201 is provided with In the gear part 204 being connected with the locating dowel 203, the locating dowel 203 in the supporting plate 3 and the gear part 204 it Between be arranged with the first top pressure spring 6 for supporting plate described in top pressure 3.It is preferred that, the heating disc main body 201 is provided with several Downward opening screwed hole 205, the quantity of connecting hole 302 of the supporting plate 3 and position are corresponding with the screwed hole 205, institute Quantity and the position for stating screwed hole 205 are corresponding with the locating dowel 203, and each positioning, 203 upper end is provided with and corresponding spiral shell The external screw thread that the screw thread of pit 205 coordinates.Locating dowel is coordinated by screw thread to be connected with heating disc main body, and connective stability is good, and dress With convenient, it is easy to user installation and dismounting supporting plate and sensor unit etc..

It is preferred that, the quantity of the screwed hole 205 is two, and two screwed holes 205 are relatively described through through hole 202 axis is symmetrical, and first top pressure spring 6 is volute spring, and its wider one end is close to the supporting plate 3, U-shaped pad 7 is provided between first top pressure spring 6 and the supporting plate 3.It is provided between first top pressure spring and supporting plate U-shaped pad, can make the average top pressure of the elastic force of the first top pressure spring on the supporting plate, realize to the more preferable top pressure of supporting plate.

The sensor unit 4 is provided with the microswitch 8 electrically connected with heat-generating disc 2, and the microswitch 8 is provided with use In the temperature inductor (not shown) of the sensing temperature of pot 1, and when the temperature inductor senses the temperature mistake of pot 1 Gao Shi, the microswitch 8 controls the heat-generating disc 2 to stop heating, it is preferred that the temperature inductor is to be located at microswitch Temperature and resistance on 8；The microswitch 8 is provided with touching portion, when being placed with pot 1 on heat-generating disc 2, and the top pressure of pot 1 is passed Sensor assembly 4 is moved down to compress the second top pressure spring, and touching the touching portion on microswitch 8 controls microswitch 4 Heat-generating disc 2 enters working condition；After the pot 1 on heat-generating disc 2 is withdrawn, the second top pressure spring top pressure sensor compressed is total Into moving up, and microswitch 8 touching portion recover to touchless state to make microswitch 8 control heat-generating disc 2 to enter it is standby State.Microswitch senses the state of temperature of pot to control heat-generating disc by the temperature inductor being located on microswitch Working condition, and pot to perceive is whether there is so as to controlling the work of heat-generating disc by the touching portion being provided thereon on heat-generating disc Shape body, enables the more intelligentized work of heat-generating disc, user-friendly.

The present embodiment operation principle is as follows：

Pot is placed on heat-generating disc：Pot is placed on heat-generating disc, pot top pressure sensor unit is moved down and pressed The second top pressure spring under contracting sensor unit, when sensor unit is moved downward against to supporting plate, sensor unit Can also top pressure supporting plate move down and press the first top pressure spring under institute's supporting plate, sensor unit is continued to moving down It is dynamic.When sensor unit moves down the second top pressure spring of compression, the touching portion on pot touching microswitch opens fine motion Close control heat-generating disc and enter working condition, and microswitch senses temperature of boiler by the temperature and resistance being provided thereon, and works as temperature Resistance senses the heated heating of pot and when temperature exceedes the temperature value limited, the microswitch control heat-generating disc stop plus Heat.

Pot is withdrawn on heat-generating disc：Pot on heat-generating disc is withdrawn, the first top pressure spring compressed and the second top pressure Spring is distinguished the touching portion that upward top pressure supporting plate and sensor unit recover to poised state, and microswitch and recovered to nothing Touching state makes microswitch control heat-generating disc to enter holding state.

It is to combine a kind of embodiment that particular content is provided as described above, does not assert the specific implementation office of the application It is limited to these explanations.It is all approximate with the present processes, structure etc., identical, if or for being made under the application concept thereof Dry technology deduction or replace, should all be considered as the protection domain of the application.

Claims (10)

1. the elastic fit pot induction structure of heat-generating disc, including heating disc main body, the heating disc main body are provided with through logical Hole, the lower section through through hole is provided with the supporting plate being connected with the heating disc main body, and the supporting plate is provided with sensor Assembly, provided with elastic top-pressure part between the sensor unit and the supporting plate, it is characterised in that：The heating disc main body Bottom is secured to the locating dowel of connection provided with several, and the supporting plate is relative with the locating dowel provided with quantity and position The connecting hole answered, each locating dowel is through corresponding connecting hole in supporting plate and supporting plate can be moved up and down along the locating dowel, The one end of the locating dowel away from heating disc main body is provided with the gear part being connected with the locating dowel, the locating dowel in described The first top pressure spring for supporting plate described in top pressure is arranged between supporting plate and the gear part.

2. the elastic fit pot induction structure of heat-generating disc according to claim 1, it is characterised in that：The heat-generating disc master The bottom of body is provided with several downward opening screwed holes, and the quantity of the screwed hole and position are relative with the locating dowel Should, the upper end of each locating dowel is provided with the external screw thread coordinated with corresponding screwed hole screw thread.

3. the elastic fit pot induction structure of heat-generating disc according to claim 1, it is characterised in that：The sensor is total Into bottom be provided with several pins, the supporting plate provided with quantity and position it is corresponding with the pin and confession the pin The spliced eye plugged, the elastic top-pressure part be the second top pressure spring, the pin through second top pressure spring plug to In the spliced eye.

4. the elastic fit pot induction structure of heat-generating disc according to claim 3, it is characterised in that：The sensor is total Into provided with the microswitch electrically connected with heat-generating disc, the microswitch is provided with the temperature sense for being used for sensing temperature of boiler Device, and when the temperature inductor senses that the temperature of pot is too high, the microswitch controls the heat-generating disc to stop adding Heat.

5. the elastic fit pot induction structure of heat-generating disc according to claim 4, it is characterised in that：The microswitch Touching portion is provided with, when being placed with pot on heat-generating disc, pot top pressure sensor unit moves down to compress the second top pressure Spring, and touching the touching portion on microswitch makes microswitch control heat-generating disc to enter working condition；When the pot on heat-generating disc After body is withdrawn, the second top pressure spring top pressure sensor unit compressed is moved up, and microswitch touching portion recover to Touchless state makes the microswitch control heat-generating disc enter holding state.

6. the elastic fit pot induction structure of heat-generating disc according to claim 4, it is characterised in that：The temperature sense Device is the temperature and resistance on the microswitch.

7. the elastic fit pot induction structure of heat-generating disc according to claim 1, it is characterised in that：The supporting plate with U-shaped pad is provided between first top pressure spring.

8. the elastic fit pot induction structure of heat-generating disc according to claim 1, it is characterised in that：First top pressure Spring is volute spring, and its wider one end is close to the supporting plate.

9. the elastic fit pot induction structure of heat-generating disc according to claim 2, it is characterised in that：The screwed hole Quantity is two, and two screwed holes axis through through hole relatively is symmetrical.

10. heating kettle, including pot and heat-generating disc, it is characterised in that：The heat-generating disc is provided with such as any one of claim 1-9 The elastic fit pot induction structure of described heat-generating disc.