CN216644286U - Electromagnetic cooking utensil - Google Patents

Abstract

The utility model discloses an electromagnetic cooking appliance, which comprises a temperature measuring component, a shell and a panel arranged on the shell, wherein a through hole for the temperature measuring component to extend out is formed in the panel, an electromagnetic wire coil is arranged in the shell, a mounting seat is arranged on the electromagnetic wire coil, the temperature measuring component can be assembled on the mounting seat in a vertically floating manner, the electromagnetic cooking appliance also comprises a fixed seat, the fixed seat is hermetically connected with one surface of the panel facing the electromagnetic wire coil, a guide hole is formed in the fixed seat, the temperature measuring component penetrates through the guide hole, a water leakage gap is formed between the temperature measuring component and the hole wall of the guide hole, and the upper end of the mounting seat is butted with the fixed seat so as to receive water flow entering the cooking appliance through the water leakage gap. The panel is towards the one side sealing connection fixing base of electromagnetic wire coil, prevents that water from four scattered flows of through-hole from opening, lets the water on the panel only follow the guiding hole pore wall of fixing base and the clearance that leaks that temperature measuring component can will down flow, and the effectual condition of avoiding electric leakage or short circuit takes place.

Description

Electromagnetic cooking utensil

[ technical field ] A

The utility model relates to the field of kitchen appliances, in particular to an electromagnetic cooking appliance.

[ background of the utility model ]

The electromagnetic cooking utensil utilizes the principle of electromagnetic heating to make the pan generate heat to control the temperature and heat or cook food. In the process of temperature collection and control of the electromagnetic cooking appliance, the temperature measuring element is a vital component. The temperature measuring element of the existing electromagnetic cooking utensil protrudes out of the panel and can be directly contacted with a cooker, so that the effectiveness of temperature measurement and control is improved.

However, when the electromagnetic cooking appliance is used, because a certain assembly gap exists between the temperature measuring element and the panel, water flows can infiltrate from the gap, so that the phenomenon of short circuit or electric leakage is caused, potential safety hazards exist, and the use of people is influenced. There is practical column sensor among the prior art to waterproof through the silica gel circle, and the silica gel circle is installed on the drum, and with panel interference fit, the compression through the silica gel circle is sealed. This requires the sensor to be mounted inside the spool, with the sensor passing through the plastic to expose the faceplate. There is a risk of misalignment during installation. Water leakage at the sensor is lack of guidance and risks of spillage.

[ Utility model ] content

The present invention provides an electromagnetic cooking appliance to solve at least one of the above technical problems.

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

the utility model provides an electromagnetic cooking utensil, include temperature measurement subassembly, shell and set up in the panel of shell, it has the confession to open on the panel the through-hole that temperature measurement subassembly stretches out, be provided with the electromagnetic wire coil in the shell, be equipped with the mount pad on the electromagnetic wire coil, temperature measurement subassembly is assembled with floating from top to bottom on the mount pad, electromagnetic cooking utensil still includes the fixing base, the fixing base with the panel is towards the one side sealing connection of electromagnetic wire coil, be equipped with the guiding hole on the fixing base, temperature measurement subassembly run through in the guiding hole, temperature measurement subassembly with be equipped with the clearance of leaking between the pore wall of guiding hole, the upper end butt joint of mount pad the fixing base to accept and pass through the rivers that leak in the clearance gets into cooking utensil.

In the electromagnetic cooking appliance, the mounting seat is internally provided with the placing cavity, the temperature measuring component is assembled in the placing cavity, and the bottom of the placing cavity is provided with the water outlet hole for water flow to flow out of the mounting seat.

In the above electromagnetic cooking appliance, the temperature measuring component includes a guide sleeve and a sensor arranged in the guide sleeve, an elastic element is further arranged between the bottom of the placing cavity and the guide sleeve and used for driving the temperature measuring component to move along the axial direction of the guide hole, a flanging part abutting against the elastic element is arranged at the lower part of the guide sleeve, the flanging part is positioned below the fixed seat, and the outer diameter of the flanging part is larger than the inner diameter of the guide hole.

In the above electromagnetic cooking appliance, the sensor is wrapped in the guide sleeve, and the top of the sensor extends out of the through hole.

In the above electromagnetic cooking appliance, the mounting seat includes an annular upper surrounding rib, the annular upper surrounding rib is fixed on the end face of the electromagnetic wire coil facing the fixing seat and used for extending the placing cavity towards the fixing seat, and the guide hole is partially located in the placing cavity.

In foretell electromagnetism cooking utensil, the shell bottom is equipped with the communicating water-collecting hole with the external world, the mount pad includes the annular rib of enclosing down, enclose the rib under the annular and fix on the terminal surface of electromagnetic wire coil towards the shell bottom for make the outlet port extend to the water-collecting hole.

In the electromagnetic cooking utensil, the inner surface of the bottom of the shell is provided with an annular water collecting surrounding rib extending towards the electromagnetic wire coil, the annular water collecting surrounding rib surrounds the water collecting hole, and the shell at the bottom of the water collecting hole is provided with a water leakage hole communicated with the outside.

In the above electromagnetic cooking appliance, the temperature measuring assembly includes a wire, and the wire is led out from the water collecting hole after passing through the mounting seat.

In the above electromagnetic cooking appliance, the guide hole extends into the through hole, and the top end of the guide hole is flush with the top end of the through hole.

In the above electromagnetic cooking appliance, a glue applying groove is formed in one side, facing the panel, of the fixed seat, and the fixed seat is adhered to the panel to form a sealing glue layer between the glue applying groove and the panel.

The utility model has the beneficial effects that:

the utility model provides an electromagnetic cooking utensil, include temperature measurement subassembly, shell and set up in the panel of shell, it has the confession to open on the panel the through-hole that temperature measurement subassembly stretches out, be provided with the electromagnetic wire coil in the shell, be equipped with the mount pad on the electromagnetic wire coil, temperature measurement subassembly is assembled with floating from top to bottom on the mount pad, electromagnetic cooking utensil still includes the fixing base, the fixing base with the panel is towards the one side sealing connection of electromagnetic wire coil, be equipped with the guiding hole on the fixing base, temperature measurement subassembly run through in the guiding hole, temperature measurement subassembly with be equipped with the clearance of leaking between the pore wall of guiding hole, the upper end butt joint of mount pad the fixing base to accept and pass through the rivers that leak in the clearance gets into cooking utensil. The upper end of the mounting seat is butted with the fixed seat, water flow in a water leakage gap is directly guided into the mounting seat, the problem that the current electromagnetic cooking appliance is short-circuited or leaks electricity due to water flow infiltration is solved, the mounting seat is arranged on the electromagnetic wire coil, the movement of the temperature measuring component is limited through the mounting seat, the temperature measuring component is assembled on the mounting seat in a vertically floating mode, so that the temperature measuring component can be tightly attached to the bottom of a pot for accurate temperature measurement, the fixed seat is hermetically connected to one surface of the panel facing the electromagnetic wire coil, water is prevented from flowing out of the through hole, water on the panel only flows downwards from the water leakage gap between the hole wall of the guide hole of the fixed seat and the temperature measuring component, then the water flow entering the cooking appliance is received through the butt joint of the upper end of the mounting seat and the fixed seat, a safe water flow channel is further planned, and the water flow is prevented from flowing out everywhere in the electromagnetic cooking appliance, and then can effectually avoid the condition emergence of electric leakage or short circuit, in addition, the guiding hole on the fixing base can also play the guide effect to the fluctuation of temperature measurement subassembly, prevents that temperature measurement subassembly from blocking at the fluctuation in-process. When the installation, the fixing seat is only required to be connected with the panel in a sealing mode, the upper end of the installation seat is in butt joint with the fixing seat, the installation difficulty is greatly reduced, the operation of workers is easy, and the assembly efficiency is improved.

In a further scheme, a placing cavity is formed in the mounting seat, the temperature measuring component is assembled in the placing cavity, and a water outlet hole for allowing water flow to flow out of the mounting seat is formed in the bottom of the placing cavity. Temperature measurement component assembles and is placing the intracavity, and rivers on the panel can flow into along temperature measurement component or the clearance of leaking and place the intracavity, and then utilize and place the chamber and collect water, prevent the rivers in the electromagnetic cooking utensil sinuous flow, and set up the apopore in the bottom of placing the chamber, can discharge the water of placing intracavity collection according to the rivers passageway of planning, prevent that water is too much and spill over and place the chamber and cause other electrical apparatus troubles.

In a further scheme, the temperature measuring component comprises a guide sleeve and a sensor arranged in the guide sleeve, an elastic element is further arranged between the bottom of the placing cavity and the guide sleeve and used for driving the temperature measuring component to move along the axial direction of the guide hole, a flanging part which is abutted against the elastic element is arranged at the lower part of the guide sleeve and located below the fixed seat, and the outer diameter of the flanging part is larger than the inner diameter of the guide hole. The sensor is protected through the guide sleeve, and the guide sleeve can avoid the sensor to contact with the pore wall or the mounting seat of guiding hole directly, prevent sensor wearing and tearing, be equipped with turn-ups portion in the lower part of falling the platform, turn-ups portion is used for bearing the ascending elasticity of elastic element, it can be ascending power to keep temperature measuring component all the time, better and the bottom of a boiler contact, and the external diameter of turn-ups portion is greater than the internal diameter of guiding hole, prevent that elastic element from with the ejecting guiding hole of guide sleeve, let turn-ups portion and fixing base down along offsetting play spacing effect.

In a further scheme, the sensor is wrapped in the guide sleeve, and the top of the sensor extends out of the through hole. Wrap up the sensor in the guide pin bushing, carry out all-round protection to the sensor to the through-hole is stretched out at the top of sensor, is close to the pot body as far as possible in order to obtain more accurate data.

In a further scheme, the mounting seat comprises an annular upper surrounding rib, the annular upper surrounding rib is fixed on the end face, facing the fixing seat, of the electromagnetic wire coil and used for enabling the placing cavity to extend towards the direction of the fixing seat, and the guide hole is located in the placing cavity. Through the annular last muscle of enclosing under the whole money that does not increase other positions of electromagnetic wire coil thickness, will place the chamber and extend to the fixing base direction, make the part of guiding hole be located and place the intracavity, place the chamber like this on the direction of height and have partial coincidence with the guiding hole, water from the clearance of leaking down can directly enter into and place the intracavity, and can not flow to other places at this in-process.

In a further scheme, the bottom of the shell is provided with a water collecting hole communicated with the outside, the mounting seat comprises an annular lower surrounding rib, and the annular lower surrounding rib is fixed on the end face, facing the bottom of the shell, of the electromagnetic wire coil and is used for enabling the water outlet hole to extend into the water collecting hole. Set up the hole that catchments in the shell bottom to enclose the muscle under the utilization annular and directly leading-in the hole that catchments with the water that the apopore flows, prevent that the rivers in this process can not flow to other places of electromagnetic cooking utensil, let rivers flow electromagnetic cooking utensil from the hole that catchments, guarantee the electrical components safety in the electromagnetic cooking utensil.

In a further scheme, the inner surface of the bottom of the shell is provided with an annular water collecting surrounding rib extending towards the electromagnetic wire coil, the annular water collecting surrounding rib surrounds the water collecting hole, and a water leakage hole is formed in the shell at the bottom of the water collecting hole and communicated with the outside. Increase annular catchment in shell bottom and enclose the muscle, increase the height of catchment hole, possess bigger space and collect from apopore water that flows down, also better simultaneously prevents with the apopore butt joint, lets the apopore extend to annular catchment and encloses in the muscle, annular catchment simultaneously encloses the muscle and has also strengthened the intensity of shell bottom.

In a further scheme, the temperature measuring assembly comprises a lead, and the lead penetrates through the mounting seat and then is led out from the water collecting hole. The lead of the temperature measurement component is led out by utilizing the water collecting hole on the existing shell, so that the situation that the hole is formed in the shell again to lead out the lead is avoided.

In a further scheme, the guide hole extends into the through hole, and the top end of the guide hole is flush with the top end of the through hole. In the guiding hole stretched into the through-hole, the length of extension guiding hole as far as possible, better performance guide effect, and the top and the through-hole top parallel and level of guiding hole, then upwards extend to the longest position under the guiding hole does not influence the prerequisite of other part functions to such setting also lets the initial position and the panel parallel and level in the clearance of leaking, the effect of the leading-in rivers of better performance.

In a further scheme, a glue beating groove is formed in one side, facing the panel, of the fixed seat, the fixed seat is bonded with the panel, and a sealing glue layer is formed between the glue beating groove and the panel. Offer on the fixing base and beat the gluey groove and form sealed glue film, avoided the inhomogeneous condition that produces the water clearance of glue film thickness between fixing base and the panel, greatly reduced the requirement of sticky process to the position is glued to the explicit indication, improves and beats gluey efficiency.

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 utility model is further described below with reference to the accompanying drawings:

FIG. 1 is a cross-sectional view of an electromagnetic cooking apparatus of the present invention;

FIG. 2 is an exploded view of an electromagnetic cooking apparatus of the present invention;

FIG. 3 is a schematic structural view of an end surface of the electromagnetic wire coil facing the fixing base in the cooking utensil of the present invention;

FIG. 4 is a schematic structural view of an end surface of an electromagnetic wire coil facing the bottom of a housing in a cooking appliance according to the present invention;

FIG. 5 is a schematic structural view of the bottom of the outer casing of the cooking device of the present invention;

FIG. 6 is a schematic view of a connection structure of a fixing seat, a mounting seat and a water collection hole in a cooking apparatus according to the present invention;

fig. 7 is a schematic structural diagram of a fixing base in a cooking appliance according to the present invention.

Reference numerals:

panel 100, through-hole 110;

the water collecting device comprises a shell 200, a water collecting hole 210, an annular water collecting surrounding rib 220 and a water leakage hole 230;

the temperature measuring component 300, a guide sleeve 310, a flanging part 311, a placing hole 312, a sensor 320 and a conducting wire 330;

the electromagnetic wire coil 400, the mounting seat 410, the placing cavity 411, the water outlet hole 412, the elastic element 420, the annular upper surrounding rib 430 and the annular lower surrounding rib 440;

fixing seat 500, guide hole 510, water leakage gap 511, glue applying groove 520, column 530 and skirt 540.

[ detailed description ] embodiments

The utility model provides an electromagnetic cooking utensil, include temperature measurement subassembly, shell and set up in the panel of shell, it has the confession to open on the panel the through-hole that temperature measurement subassembly stretches out, be provided with the electromagnetic wire coil in the shell, be equipped with the mount pad on the electromagnetic wire coil, temperature measurement subassembly is assembled with floating from top to bottom on the mount pad, electromagnetic cooking utensil still includes the fixing base, the fixing base with the panel is towards the one side sealing connection of electromagnetic wire coil, be equipped with the guiding hole on the fixing base, temperature measurement subassembly run through in the guiding hole, temperature measurement subassembly with be equipped with the clearance of leaking between the pore wall of guiding hole, the upper end butt joint of mount pad the fixing base to accept and pass through the rivers that leak in the clearance gets into cooking utensil. The upper end of the mounting seat is butted with the fixed seat, water flow in a water leakage gap is directly guided into the mounting seat, the problem that the current electromagnetic cooking appliance is short-circuited or leaks electricity due to water flow infiltration is solved, the mounting seat is arranged on the electromagnetic wire coil, the movement of the temperature measuring component is limited through the mounting seat, the temperature measuring component is assembled on the mounting seat in a vertically floating mode, so that the temperature measuring component can be tightly attached to the bottom of a pot for accurate temperature measurement, the fixed seat is hermetically connected to one surface of the panel facing the electromagnetic wire coil, water is prevented from flowing out of the through hole, water on the panel only flows downwards from the water leakage gap between the hole wall of the guide hole of the fixed seat and the temperature measuring component, then the water flow entering the cooking appliance is received through the butt joint of the upper end of the mounting seat and the fixed seat, a safe water flow channel is further planned, and the water flow is prevented from flowing out everywhere in the electromagnetic cooking appliance, and then can effectually avoid the condition emergence of electric leakage or short circuit, in addition, the guiding hole on the fixing base can also play the guide effect to the fluctuation of temperature measurement subassembly, prevents that temperature measurement subassembly from blocking at the fluctuation in-process. When the installation, the fixing seat is only required to be connected with the panel in a sealing mode, the upper end of the installation seat is in butt joint with the fixing seat, the installation difficulty is greatly reduced, the operation of workers is easy, and the assembly efficiency is improved.

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

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "clockwise", "counterclockwise", and the like, indicate orientations or positional relationships based on those shown in the drawings, merely for convenience of description and simplicity of description, and do not indicate or imply that the device or element so referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, are not to be construed as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, unless otherwise specified, "a plurality" means two or more unless explicitly defined otherwise.

In the present invention, unless otherwise expressly specified or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can, for example, be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

In the present invention, unless otherwise expressly stated or limited, "above" or "below" a first feature means that the first and second features are in direct contact, or that the first and second features are not in direct contact but are in contact with each other via another feature therebetween. Also, the first feature "on," "above" and "over" the second feature may include the first feature being directly above and obliquely above the second feature, or simply indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

Example one

As shown in fig. 1, 2 and 6, an electromagnetic cooking appliance comprises a temperature measuring component 300, a housing 200, a panel 100, an electromagnetic wire coil 400 and a fixing seat 500, wherein a cavity is arranged in the housing 200, the top of the cavity is open, the panel 100 is detachably fixed on the top of the housing 200 through a buckle or a screw, the opening of the cavity is closed, a through hole 110 is formed in the panel 100 so that the head of the temperature measuring component 300 extends out of the panel 100 and is directly contacted with the bottom surface of a pot body to measure the accurate heating temperature, the electromagnetic coil is fixed in the cavity and is provided with a mounting seat 410, the temperature measuring component 300 can be assembled on the mounting seat 410 in a vertically floating manner, the fixing seat 500 is hermetically connected with one surface of the panel 100 facing the electromagnetic wire coil 400, a guide hole 510 is formed in the fixing seat 500, the temperature measuring component 300 penetrates through the guide hole 510, and a water leakage gap 511 is left between the temperature measuring component 300 and the hole wall of the guide hole 510, the upper end of the mounting seat 410 is abutted against the fixing seat 500 so as to receive the water flowing down from the water leakage gap 511.

As shown in fig. 7, the fixing base 500 includes a hollow column 530, a guiding hole 510 is formed along a central axis of the column 530, an axis of the guiding hole 510 is coaxial with an axis of the through hole 110 of the panel 100, an upper end of the column 530 is inserted into the through hole 110, a top end of the guiding hole 510 is designed to be flush with a top end of the through hole 110, and water flows directly into the guiding hole 510, so that the column 530 can be inserted into the through hole 110 to position the fixing base 500 during assembly. An annular skirt 540 is connected to the outer circumferential surface of the middle part of the cylinder 530, in order to ensure the strength of the fixing seat 500, the cylinder 530 and the skirt 540 are manufactured integrally, a glue applying groove 520 is formed in one surface of the skirt 540 facing the panel 100, the glue applying groove 520 is an annular groove, and sealant is arranged in the glue applying groove 520, so that the fixing seat 500 is bonded with the panel 100, a sealant layer is formed between the glue applying groove 520 and the panel 100, and it is ensured that water flow only enters the guide hole 510 and does not enter the electromagnetic cooking appliance from other places.

As shown in fig. 3 and 4, a mounting seat 410 is arranged at the center of the electromagnetic wire coil 400, the mounting seat 410 can be integrally manufactured with the electromagnetic wire coil 400, and can also be fixed on the electromagnetic wire coil 400 in a bonding or clamping manner, a placing cavity 411 is formed in the mounting seat 410, a water outlet hole 412 allowing water to flow out of the mounting seat 410 is formed in the bottom of the placing cavity 411, the water is discharged through the water outlet hole 412 to place the placing cavity 411, the situation that the water overflows to place the placing cavity 411 to influence normal operation of other electrical components is avoided, meanwhile, the water outlet hole 412 is arranged at the bottom of the placing cavity 411, and water in the placing cavity 411 can be emptied after the electromagnetic cooking appliance finishes working, so that the sanitary problem caused by dead water is avoided. The outlet 412 may be a single circular hole, or may be formed by combining a plurality of small through holes 110, but the area of the outlet 412 is smaller than the area of the bottom surface of the placing cavity 411, a part of space needs to be reserved at the bottom of the placing cavity 411 to bear the elastic element 420, the elastic element 420 generally adopts a spring, and the top end of the spring is abutted against the temperature measuring component 300, so that the head of the temperature measuring component 300 can extend out of the panel 100 to be in contact with the bottom of a pan, and can move downwards when being squeezed by the bottom of the pan, and can be partially retracted into the housing 200 and keep the trend of moving upwards.

For better accepting the rivers that fixing base 500 flows down, be equipped with the annular that upwards extends at electromagnetic wire coil 400 towards fixing base 500 and go up rail 430, it extends towards fixing base 500 direction to place chamber 411 to make through rail 430 on the annular, can let the lower part of guiding hole 510 be located the annular on the scarf extend place the chamber 411 in, make guiding hole 510 and place chamber 411 have partial coincidence in the direction of height, let and place the better rivers that accept the guiding hole 510 and flow down of chamber 411, also avoid rivers spill, ensure that all rivers that flow down from guiding hole 510 can both enter into and place the chamber 411. Similarly, an annular lower surrounding rib 440 may be further disposed on an end surface of the electromagnetic wire coil 400 facing the bottom of the housing 200, the placing cavity 411 extends toward the bottom of the housing 200 through the annular lower surrounding rib 440, a water collecting hole 210 communicating with the outside is formed in the bottom of the housing 200, and a portion of the placing cavity 411 extending from the lower surrounding rib is located in the water collecting hole 210, so that water in the placing cavity 411 can completely enter the water collecting hole 210 and be discharged outside the housing 200. The upper annular bead 430 and the lower annular bead 440 may be integrally formed of the same material as the mounting seat 410, so as to ensure that no gap is left and no water leakage occurs.

As shown in fig. 5, since the bottom of the housing 200 has a limited thickness, the height of the water collecting hole 210 is short, which is not beneficial to the extension of the lower portion of the placing cavity 411 into the water collecting hole 210, therefore, the bottom of the housing 200 is provided with the annular water collecting surrounding rib 220, the water collecting hole 210 is formed by the annular water collecting surrounding rib 220, the bottom of the water collecting hole 210 is provided with the water leakage hole 230 to communicate with the outside, through the annular water collecting surrounding rib 220, not only the size of the water collecting hole 210 is extended in the height direction, so that the placing cavity 411 can more easily extend into the water collecting hole 210, but also the bottom strength of the housing 200 is enhanced by the annular water collecting surrounding rib 220, and the strength of the housing 200 is not affected by the water leakage hole 230 formed at the bottom of the housing 200.

The temperature measuring component 300 comprises a guide sleeve 310 and a sensor 320 arranged in the guide sleeve, the sensor 320 can be integrally fixed in the guide sleeve 310, and the temperature measuring component 300 is supported against the bottom of the pot body for measuring the temperature, so that the top of the sensor 320 extends out of the through hole 110, and the top of the guide sleeve 310 is preferably designed to be as thin as possible, so that the sensor 320 can accurately measure the temperature of the pot body. The guide sleeve 310 wraps the sensor 320 completely, and certainly, the temperature measuring component 300 capable of replacing the sensor 320 can also be designed, a placing hole 312 needs to be formed in the guide sleeve 310, the opening of the placing hole 312 faces downwards, the sensor 320 can be fixed in the placing hole 312 in an interference fit or bonding mode, the size of the guide sleeve 310 is slightly smaller than that of the guide hole 510 in the fixing seat 500, and therefore a water leakage gap 511 is reserved between the guide sleeve 310 and the hole wall of the guide hole 510. In order to better match the temperature measuring component 300 with the elastic element 420 and realize the vertical floating of the temperature measuring component 300, the lower part of the guide sleeve 310 is provided with a flanging part 311 which is abutted against the elastic element 420, the flanging part 311 is positioned below the fixed seat 500, and the outer diameter of the flanging part 311 is smaller than the inner diameter of the guide hole 510, so as to prevent the temperature measuring component 300 from punching out of the guide hole 510 under the action of the elastic element 420.

The bottom of the sensor 320 is connected with a lead 330 for transmitting data acquired by the sensor 320, the lead 330 is led out from the water collecting hole 210 after passing through the mounting seat 410, the water collecting hole 210 on the shell 200 is fully utilized, the situation that a hole is formed on the shell 200 again is avoided, and the shell 200 has enough strength is ensured.

When cooking, the pot body is placed on the panel 100, the top of the temperature measuring component 300 is contacted with the bottom of the pot body and is extruded by the pot body, the temperature measuring component 300 moves downwards, the elastic element 420 is pressed, the elastic force generated by the deformation of the elastic element 420 enables the temperature measuring component 300 to be tightly attached to the bottom of the pot body, accurate temperature data of the bottom of the pot body is obtained, water generated during cooking enters the placing cavity 411 along a water leakage gap 511 between the temperature measuring component 300 and the guide hole 510, then enters the water collecting hole 210 through the water outlet hole 412 at the bottom of the placing cavity 411, and is discharged through the water leakage hole 230 at the bottom of the water collecting hole 210. In addition, the water flowing channel formed by the guide hole 510, the placing cavity 411 and the water collecting hole 210 is relatively simple to assemble, and the structures of the guide hole and the placing cavity are relatively simple, so that the assembly and processing difficulty is effectively reduced.

Example two

The difference with embodiment one lies in, the guiding hole 510 of fixing base 500 can not stretch into in the through-hole 110, realize the sealing connection of fixing base 500 and panel 100 by the coaxial annular sealing glue layer of setting up on the fixing base 500 with guiding hole 510, the flow channel will be by through-hole 110 like this, guiding hole 510, place the chamber 411 and collect water hole 210 and constitute, can play the purpose that prevents rivers entering the chamber equally, and because guiding hole 510 is not extending into in the through-hole 110, also simple and convenient during the assembly.

Other contents not described in this embodiment may refer to embodiment one.

While the utility model has been described with reference to specific embodiments thereof, it will be understood by those skilled in the art that the utility model is not limited thereto, and may be embodied in many different forms without departing from the spirit and scope of the utility model as set forth in the following claims. 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 (10)

1. The utility model provides an electromagnetic cooking utensil, include temperature measurement subassembly, shell and set up in the panel of shell, it has the confession to open on the panel the through-hole that temperature measurement subassembly stretches out, be provided with the electromagnetic wire coil in the shell, its characterized in that: the electromagnetic wire coil is provided with a mounting seat, the temperature measuring assembly is assembled on the mounting seat in a vertically floating manner, the electromagnetic cooking utensil further comprises a fixing seat, the fixing seat is connected with one surface of the panel facing the electromagnetic wire coil in a sealing manner, the fixing seat is provided with a guide hole, the temperature measuring assembly runs through the guide hole, a water leakage gap is formed between the temperature measuring assembly and the hole wall of the guide hole, the upper end of the mounting seat is in butt joint with the fixing seat so as to accept water flowing into the cooking utensil through the water leakage gap.

2. The electromagnetic cooking appliance of claim 1, wherein: the temperature measuring device is characterized in that a placing cavity is formed in the mounting seat, the temperature measuring component is assembled in the placing cavity, and a water outlet hole for allowing water to flow out of the mounting seat is formed in the bottom of the placing cavity.

3. An electromagnetic cooking appliance as claimed in claim 2, wherein: the temperature measuring component comprises a guide sleeve and a sensor arranged in the guide sleeve, an elastic element is further arranged between the bottom of the placing cavity and the guide sleeve and used for driving the temperature measuring component to move along the axial direction of the guide hole, a flanging part abutting against the elastic element is arranged on the lower portion of the guide sleeve and located below the fixed seat, and the outer diameter of the flanging part is larger than the inner diameter of the guide hole.

4. An electromagnetic cooking appliance as claimed in claim 3, wherein: the sensor is wrapped in the guide sleeve, and the top of the sensor extends out of the through hole.

5. An electromagnetic cooking appliance as claimed in claim 2, wherein: the installation seat comprises an annular upper surrounding rib, the annular upper surrounding rib is fixed on the end face of the electromagnetic wire coil facing the fixing seat and used for enabling the placing cavity to extend towards the fixing seat, and the guide hole is partially located in the placing cavity.

6. An electromagnetic cooking appliance as claimed in claim 2, wherein: the bottom of the shell is provided with a water collecting hole communicated with the outside, the mounting seat comprises an annular lower surrounding rib, and the annular lower surrounding rib is fixed on the end face, facing the bottom of the shell, of the electromagnetic wire coil and is used for enabling the water outlet hole to extend into the water collecting hole.

7. The electromagnetic cooking appliance of claim 6, wherein: the inner surface of the bottom of the shell is provided with an annular water collecting surrounding rib extending towards the electromagnetic wire coil, the annular water collecting surrounding rib surrounds the water collecting hole, and a water leakage hole is formed in the shell at the bottom of the water collecting hole and communicated with the outside.

8. The electromagnetic cooking appliance of claim 6, wherein: the temperature measuring assembly comprises a lead, and the lead penetrates through the mounting seat and then is led out from the water collecting hole.

9. An electromagnetic cooking appliance as claimed in claim 1 wherein: the guiding hole stretches into in the through-hole, just the top of guiding hole with the top parallel and level of through-hole.

10. The electromagnetic cooking appliance of claim 1, wherein: the fixing base is towards one side of panel is equipped with beats gluey groove, the fixing base with the panel bonds and beat gluey groove with form the sealing glue layer between the panel.

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