CN213662000U

CN213662000U - Electromagnetic cooking utensil

Info

Publication number: CN213662000U
Application number: CN202022586991.XU
Authority: CN
Inventors: 朱泽春; 田海峰
Original assignee: Hangzhou Joyoung Household Electrical Appliances Co Ltd
Current assignee: Hangzhou Jiuchuang Home Appliances Co ltd
Priority date: 2020-11-10
Filing date: 2020-11-10
Publication date: 2021-07-09
Anticipated expiration: 2030-11-10

Abstract

The utility model discloses an electromagnetic cooking utensil has solved the comparatively complicated technical problem of side temperature sensor equipment technology among the prior art, the utility model provides an electromagnetic cooking utensil, include the casing and locate electromagnetic drum and side temperature sensor in the casing, the casing is including the panel that is used for placing the pan, electromagnetic drum includes the drum support and is in around the dress electromagnetic induction coil on the drum support, side temperature sensor includes that thermistor and pressure equipment are in temperature measurement support on the electromagnetic induction coil, the outer end of temperature measurement support with the edge cartridge of drum support is fixed, the inner radial inward extension and the overlap joint of temperature measurement support are in on the electromagnetic induction coil, thermistor fixes the inner of temperature measurement support and with the panel offsets.

Description

Electromagnetic cooking utensil

[ technical field ] A method for producing a semiconductor device

The utility model relates to an electromagnetism cooking utensil technical field especially relates to an electromagnetism cooking utensil.

[ background of the invention ]

An electromagnetic cooking appliance is a cooking appliance which heats by utilizing electromagnetic induction, and the existing electromagnetic cooking appliance generally comprises a high-frequency induction coil panel, a wire coil bracket, a controller, a panel, a ferromagnetic material pot bottom cooker and the like. In the using process, alternating current is introduced into the coil panel, an alternating magnetic field is generated around the coil, and most of the magnetic lines of force of the alternating magnetic field pass through the metal pot body and generate a large amount of eddy currents in the pot bottom, so that heat required by cooking is generated. In order to achieve the purpose of intelligently controlling the cooking process by controlling the heating power, the temperature of the cookware needs to be detected. In the prior art, a temperature sensor is mostly adopted to measure the temperature of a pot.

In order to realize accurate temperature measurement, in the prior art, the temperature sensor is eccentrically installed on the wire coil support to form a side temperature sensor, the side temperature sensor comprises a temperature measurement support and a thermistor, the temperature measurement support comprises a mounting support and a connecting support which are detachably connected, the connecting support is fixed on the edge of the wire coil support through a buckle or a screw, and the thermistor is fixed on the mounting support and is abutted to the panel. In the prior art, the assembly process is complicated due to the adoption of a mode of fixing the connecting bracket by screws or buckles, so that the assembly efficiency is reduced; in addition, when the heating plate is fixed by the screws, the screws can absorb part of electromagnetic waves to influence the heating efficiency; when the clamping buckle is used for fixing, the high brittleness of the plastic part can also cause the clamping buckle to be easily broken, so that the side temperature sensor is scrapped.

[ Utility model ] content

The utility model aims to solve the technical problem that overcome prior art not enough and provide an electromagnetic cooking utensil, can effectively reduce the assembly process degree of difficulty of laterally placing temperature sensor.

In order to solve the technical problem, the utility model adopts the following technical scheme:

the utility model provides an electromagnetic cooking utensil, includes the casing and locates electromagnetic wire coil and side in the casing put temperature sensor, the casing is including the panel that is used for placing the pan, electromagnetic wire coil includes the drum support and winds the dress and be in electromagnetic induction coil on the drum support, side put temperature sensor and include thermistor and pressure equipment and be in temperature measurement support on the electromagnetic induction coil, the outer end of temperature measurement support with the marginal cartridge of drum support is fixed, the inner radial inward extension and the overlap joint of temperature measurement support are in on the electromagnetic induction coil, thermistor is fixed the inner of temperature measurement support and with the panel offsets.

Furthermore, the temperature measurement support comprises an inserting portion, a support and a connecting portion for connecting the inserting portion and the support, the thermistor is fixed on the support, and the inserting portion is inserted and fixed with the wire coil support.

Furthermore, the inserting part is an inserting block extending downwards, the edge of the wire coil bracket is provided with an inserting groove, and the inserting block is inserted into the inserting groove.

Furthermore, the inserting portion is a jack, and a convex block which extends upwards and is inserted into the jack is arranged at the edge of the wire coil support.

Furthermore, a lead wire cavity is arranged in the connecting part, a lead wire hole communicated with the lead wire cavity is formed in the inserting part, the side temperature sensor comprises a lead wire, one end of the lead wire is connected with the thermistor, and the other end of the lead wire sequentially penetrates through the lead wire cavity and the lead wire hole and then extends out of the temperature measuring support.

Furthermore, the inserting part, the support and the connecting part are integrally formed.

Furthermore, the temperature measurement support is a high-temperature-resistant elastic rubber part.

Furthermore, a plurality of isolation ribs which are distributed radially are arranged on the wire coil support, a wire winding groove is formed between every two adjacent isolation ribs, and the electromagnetic induction coil is wound in the wire winding groove.

Furthermore, the temperature measurement support and the isolation rib are arranged in a staggered mode.

Furthermore, a temperature measuring hole is formed in the center of the wire coil support, a central temperature measuring sensor is installed in the temperature measuring hole, and the inner end of the temperature measuring support is located on the periphery of the temperature measuring hole.

The utility model has the advantages that:

the temperature measuring bracket of the side temperature sensor in the utility model is inserted and fixed on the wire coil bracket, compared with the mode of screw connection or buckle fixation, the assembly process difficulty of the mode of insertion fixation is lower, thereby improving the assembly efficiency; in addition, the temperature measurement bracket can be limited up and down through the panel and the wire coil bracket, so that the installation reliability of the temperature measurement bracket is also ensured; secondly, the temperature measurement support is pressed on the electromagnetic induction coil, so that the upper limit of the electromagnetic induction coil can be realized, and the upward tilting of the electromagnetic induction coil is avoided.

The temperature measurement support comprises an insertion part, a support and a connecting part for connecting the insertion part and the support, the thermistor is fixed on the support, and the insertion part is fixed with the wire coil support in an insertion mode. Connect cartridge portion and support through design connecting portion and can effectively prolong the length of temperature measurement support to the radius center department that the drum support can be located to the support, promote the accurate nature that detects the pan temperature from this.

The plug-in portion is downwardly extending's inserted block, and the edge of drum support is equipped with the slot, and the inserted block cartridge is in the slot. Or the inserting part is a jack, and the edge of the wire coil bracket is provided with a convex block which extends upwards and is inserted into the jack. So design, simple structure, the machine-shaping of being convenient for also can strengthen the reliability of cartridge simultaneously.

The connecting portion is internally provided with a lead wire cavity, the inserting portion is provided with a lead wire hole communicated with the lead wire cavity, the side temperature sensor comprises a lead wire, one end of the lead wire is connected with the thermistor, and the other end of the lead wire sequentially penetrates through the lead wire cavity and the lead wire hole and then extends out of the temperature measuring support. By the design, the heat insulation protection of the lead can be realized, so that the lead is prevented from being damaged due to overheating when being arranged on the outer side of the temperature measurement support.

The inserting part, the support and the connecting part are integrally processed and formed. By the design, later-stage assembling procedures can be reduced, and the assembling efficiency is further improved.

The temperature measurement support is a high-temperature resistant elastic rubber part. By the design, the thermistor can be fully contacted with the panel by depending on the elasticity of the elastic rubber piece, so that the temperature measurement precision is improved; in addition, the service life of the temperature measurement support can be prolonged by adopting the high-temperature resistant elastic rubber piece.

The wire coil support is provided with a plurality of isolation ribs which are distributed in a radial mode, a winding groove is formed between every two adjacent isolation ribs, and the electromagnetic induction coil is wound in the winding groove. By the design, the winding can be simplified, and the electromagnetic induction wire can be isolated by the isolation rib under the condition that the electromagnetic induction wire is not insulated and protected, so that turn-to-turn short circuit is avoided, a traditional winding film is not required to be arranged, and the manufacturing cost of the electromagnetic wire coil is reduced.

The central part of the wire coil bracket is provided with a temperature measuring hole, a central temperature measuring sensor is arranged in the temperature measuring hole, and the inner end of the temperature measuring bracket is positioned at the periphery of the temperature measuring hole. So design, can realize the temperature measurement to the pan different positions through setting up two temperature measurement sensors, improved the temperature measurement precision to the pan from this.

These features and advantages of the present invention will be disclosed in more detail in the following detailed description and the accompanying drawings.

[ description of the drawings ]

The invention will be further explained with reference to the drawings:

fig. 1 is an exploded schematic view of an electromagnetic wire coil according to an embodiment of the present invention;

fig. 2 is a schematic structural view of an electromagnetic wire coil according to a first embodiment of the present invention;

fig. 3 is a schematic structural diagram of a side temperature sensor according to an embodiment of the present invention;

fig. 4 is a first cross-sectional view of a side-mounted temperature sensor according to an embodiment of the present invention;

fig. 5 is a second cross-sectional view of the side-mounted temperature sensor according to the first embodiment of the present invention.

Reference numerals:

100. an electromagnetic wire coil; 110. a wire coil bracket; 111. isolating ribs; 112. a slot; 113. supporting ribs; 120. an electromagnetic induction coil; 130. a magnetic conductive strip; 200. a temperature sensor is arranged on the side; 210. a thermistor; 220. a temperature measuring bracket; 221. an insertion part; 2211. a wire hole; 222. a connecting portion; 2221. a lead cavity; 223. a support; 230. and (4) conducting wires.

[ detailed description ] embodiments

The utility model provides an electromagnetic cooking utensil, include the casing and locate electromagnetic wire coil and side in the casing put temperature sensor, the casing is including the panel that is used for placing the pan, electromagnetic wire coil includes the drum support and winds the dress and be in electromagnetic induction coil on the drum support, side put temperature sensor includes thermistor and pressure equipment and is in temperature measurement support on the electromagnetic induction coil, the outer end of temperature measurement support with the edge cartridge of drum support is fixed, the inner radial inward extension and the overlap joint of temperature measurement support are in on the electromagnetic induction coil, thermistor is fixed the inner of temperature measurement support and with the panel offsets.

The technical solutions of the embodiments of the present invention are explained and explained below with reference to the drawings of the embodiments of the present invention, but the embodiments described below are only preferred embodiments of the present invention, and not all embodiments. Based on the embodiments in the embodiment, other embodiments obtained by those skilled in the art without any creative work belong to the protection scope of the present invention.

Example one

Referring to fig. 1 to 5, the electromagnetic cooking appliance in the embodiment is an electromagnetic oven or an electric ceramic oven or a heat retainer, the electromagnetic cooking appliance includes a housing, an electromagnetic wire coil 100 and a side temperature sensor 200, the housing includes a panel for placing a pot, the electromagnetic wire coil 100 includes a wire coil support 110 and an electromagnetic induction coil 120 wound on the front surface of the wire coil support 110, a plurality of isolation ribs 111 are arranged on the wire coil support 110, the isolation ribs are radially distributed and extend upwards, a wire winding groove is formed between two adjacent isolation ribs 111, and the electromagnetic induction coil 120 is wound in the wire winding groove.

In order to simplify the structure of the insertion portion 221 and facilitate the processing and forming of the insertion portion 221, the insertion portion 221 in this embodiment is an insertion block extending downward, the thermistor 210 is fixed on the support 223 and abuts against a panel, the connection portion 222 is connected with the support 223 and the insertion portion 221, the edge of the wire coil support 110 is provided with the insertion slot 112, and the insertion block is inserted into the insertion slot 112 in an interference manner so as to realize the insertion and fixing of the outer end of the temperature measurement support and the edge of the wire coil support; secondly, the temperature measurement bracket 220 can be limited up and down through the panel and the wire coil bracket 110, so that the installation reliability of the temperature measurement bracket 220 is ensured; in addition, the connecting portion 222 and the support 223 are press-fitted on the electromagnetic induction coil 120 to realize upper limit of the electromagnetic induction coil 120 and prevent the electromagnetic induction coil 120 from tilting upwards; finally, the length of the temperature measurement support 220 can be effectively prolonged by connecting the plug-in part 221 and the support 223 through the design connecting part 222, so that the inner end of the temperature measurement support radially and inwards extends to the radial center of the wire coil support, namely the support 223 is located at the radial center of the wire coil support, and the accuracy of detecting the temperature of the pot is improved.

In order to improve the heating effect of the electromagnetic wire coil 100, the back of the wire coil support is generally provided with a plurality of U-shaped magnetic conducting strips 130 distributed radially, the magnetic conducting strips 130 correspond to the isolating ribs 111, the wire coil support 110 is provided with outer mounting grooves and inner mounting grooves, two ends of the magnetic conducting strips are respectively inserted in the outer mounting grooves and the inner mounting grooves, in order to avoid interference between the slots 112 and the outer mounting grooves, the temperature measuring support 220 and the isolating ribs 111 are arranged in a staggered manner in the embodiment, namely, the projection of the temperature measuring support 220 on the wire coil support 110 is not overlapped with the isolating ribs 111, in order to support the temperature measuring support 220, in order to ensure that the thermistor 210 is fully contacted with the panel, the wire coil support 110 in the embodiment is provided with support ribs 113 extending upwards, the top surfaces of the support ribs 113 are flush with the top surfaces.

In order to reduce the post-assembling process and further improve the assembling efficiency, the insertion portion 221, the support 223 and the connecting portion 222 in this embodiment are integrally formed. The temperature measurement bracket 220 in the embodiment is preferably a high-temperature-resistant elastic rubber member, so that the thermistor 210 can be fully contacted with the panel by the elasticity of the elastic rubber member, and the temperature measurement precision is further improved; in addition, the service life of the temperature measurement bracket 220 can be prolonged by adopting the high-temperature resistant elastic rubber piece.

The side temperature sensor in this embodiment further includes two wires 230 respectively connected to two ends of the thermistor 210, in order to prevent the wires 230 from being damaged due to overheating caused by heat of the electromagnetic wire coil 100 or a cooker, a wire leading cavity 2221 is provided in the connecting portion 222 in this embodiment, a wire leading hole 2211 communicated with the wire leading cavity 2221 is provided on the insertion portion 221, one end of the wire 230 is connected to the thermistor 210, the other end of the wire sequentially passes through the wire leading cavity 2221 and the wire leading hole 2211 and then extends out of the temperature measuring bracket 220, and the high temperature resistant rubber member can realize heat insulation protection of the wires 230, thereby prolonging the service life of the wires 230.

The temperature measuring hole is further formed in the center of the wire coil support in the embodiment, the central temperature measuring sensor is elastically mounted in the temperature measuring hole and abuts against the panel, the inner end of the temperature measuring support is located on the periphery of the temperature measuring hole, temperature measurement of different positions of the pot can be achieved through the arrangement of the two temperature measuring sensors, and therefore temperature measuring accuracy of the pot is improved.

It can be understood that in other embodiments of the present invention, the inserting portion may also be a socket, and the edge of the wire coil bracket is provided with a projection extending upward and inserted into the socket.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and those skilled in the art should understand that the present invention includes but is not limited to the contents described in the drawings and the above specific embodiments. Any modification which does not depart from the functional and structural principles of the present invention is intended to be included within the scope of the claims.

Claims

1. The utility model provides an electromagnetic cooking utensil, includes the casing and locates electromagnetic wire coil and side temperature sensor in the casing, the casing is including the panel that is used for placing the pan, the electromagnetic wire coil includes the drum support and is in around the dress electromagnetic induction coil on the drum support, a serial communication port, side temperature sensor includes that thermistor and pressure equipment are in temperature measurement support on the electromagnetic induction coil, the outer end of temperature measurement support with the edge cartridge of drum support is fixed, the inner radial inward extension and the overlap joint of temperature measurement support are in on the electromagnetic induction coil, thermistor is fixed the inner of temperature measurement support and with the panel offsets.

2. The induction cooking appliance of claim 1, wherein said temperature measuring rack comprises a plug-in portion, a support, and a connecting portion connecting said plug-in portion and said support, said thermistor being fixed to said support, said plug-in portion being plug-in fixed to said wire coil rack.

3. The induction cooking appliance of claim 2, wherein said insertion portion is a downwardly extending insertion block, and an edge of said coil support is provided with an insertion groove into which said insertion block is inserted.

4. The induction cooking appliance of claim 2, wherein said insertion portion is a receptacle, and an edge of said wire coil holder is provided with a projection extending upward and inserted into said receptacle.

5. The electromagnetic cooking appliance according to claim 2, wherein a lead wire cavity is formed in the connecting portion, a lead wire hole communicated with the lead wire cavity is formed in the inserting portion, the side temperature sensor comprises a lead wire, one end of the lead wire is connected with the thermistor, and the other end of the lead wire sequentially penetrates through the lead wire cavity and the lead wire hole and then extends out of the temperature measuring support.

6. The induction cooking device of claim 2, wherein said insert portion, said support and said connecting portion are integrally formed.

7. The induction cooking appliance according to any one of claims 1 to 6, wherein said temperature measuring support is a high temperature resistant elastic rubber member.

8. The induction cooking device as claimed in one of claims 1 to 6, wherein said coil support is provided with a plurality of radially-distributed isolation ribs, a winding groove is formed between two adjacent isolation ribs, and said induction coil is wound in said winding groove.

9. The electromagnetic cooking device of claim 8, wherein the temperature measuring bracket is offset from the spacer.

10. The induction cooking appliance according to any one of claims 1 to 6, wherein a temperature measuring hole is formed in the central portion of the wire coil support, a central temperature measuring sensor is installed in the temperature measuring hole, and the inner end of the temperature measuring support is located at the periphery of the temperature measuring hole.