CN216907587U - Cooking device with temperature detection function and electric frying stove - Google Patents

Abstract

The utility model discloses a cooking device with a temperature detection function and an electric frying stove, comprising a supporting seat, wherein a containing cavity is arranged in the supporting seat; a through connection groove is formed in the side wall of the containing cavity; one end of the penetration groove penetrates to the outside of the supporting seat; the other end of the penetration groove penetrates into the containing cavity; the temperature detection assembly comprises a temperature detector, a connecting arm and a linkage rod, and the temperature detector is arranged in the through connecting groove; the connecting arm and the linkage rod are both arranged on the supporting seat; one end of the connecting arm is connected with the temperature detector, and the other end of the connecting arm is hinged with one end of the linkage rod; the other end of the linkage rod is provided with a first guide part; the first guide portion is used for guiding the linkage rod to move along the radial direction of the containing cavity when stressed, and drives the connecting arm connected to one end of the temperature detector to be close to the containing cavity, so that the temperature detector extends into the containing cavity. The temperature detector can be driven to extend into the containing cavity in the process of loading the cooking utensil into the containing cavity.

Description

Cooking device with temperature detection function and electric frying stove

Technical Field

The utility model relates to the technical field of frying ovens, in particular to a cooking device with a temperature detection function and an electric frying oven.

Background

At present, along with the popularization of smart homes, more and more artificial intelligent devices are applied to kitchens, such as automatic cooking machines, automatic dish washers and the like, and the labor intensity of office workers can be mainly relieved. In the existing frying stove structure, an external cooking utensil is normally placed in a stove chamber in the cooking process, and the temperature of the stove chamber is controlled by a control system in the cooking process so as to control the cooking temperature.

However, the temperature detection of the frying stove is mainly realized by relying on the temperature detector fixedly arranged in the stove cavity, and the temperature detector is fixedly arranged in the stove cavity for a long time and is easy to collide when the cooking utensil is loaded or taken out, so that the temperature detector is damaged.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model aims to provide a cooking device with a temperature detection function and an electric frying oven, wherein a temperature detector can be driven to extend into a containing cavity in the process of loading a cooking utensil into the containing cavity.

One of the purposes of the utility model is realized by adopting the following technical scheme:

a cooking device with temperature detection function comprises,

the supporting seat is internally provided with a containing cavity; the side wall of the containing cavity is provided with a through groove which penetrates through the containing cavity along the edge; one end of the penetration groove penetrates through the outer part of the supporting seat; the other end of the penetration groove penetrates into the containing cavity;

the temperature detection assembly comprises a temperature detector, a connecting arm and a linkage rod, and the temperature detector is arranged in the through connecting groove; the connecting arm and the linkage rod are both arranged on the supporting seat;

one end of the connecting arm is connected with the temperature detector, and the other end of the connecting arm is hinged with one end of the linkage rod; the other end of the linkage rod is provided with a first guide part; the first guide portion is used for guiding the linkage rod to move along the radial direction of the storage cavity when stressed, and drives the connecting arm connected to one end of the temperature detector to be close to the storage cavity, so that the temperature detector stretches into the storage cavity.

Further, the temperature detection assembly further comprises a guide block, and the guide block is connected to the containing cavity in a penetrating mode and can move along the axial direction of the containing cavity when being stressed; the guide block is provided with a second guide part; the second guide part is used for being in sliding fit with the first guide part when the guide block moves along the axis of the containing cavity so as to guide the linkage rod to move along the radial direction of the containing cavity and drive the connecting arm to swing.

Furthermore, the first guide part is a first inclined plane arranged on the linkage rod, and the second guide part is used for being in sliding fit with the first inclined plane; the second guide part is a second inclined plane arranged on the guide block, and the second inclined plane is used for being in sliding fit with the first inclined plane.

Furthermore, an elastic component is arranged in the penetrating groove, the elastic component is arranged between the temperature detector and the inner wall of the penetrating groove, and the elastic component is used for providing elastic stress for driving the temperature detector to be far away from the accommodating cavity.

Furthermore, the top end and the bottom end of the containing cavity are both provided with the penetrating grooves; the temperature detectors are connected in the through grooves in a penetrating manner; the connecting arm and the linkage rod are both provided with two connecting rods, and the top end and the bottom end of the guide block are both provided with the second guide parts; one end of each linkage rod is connected with the temperature detector through a connecting arm; the first guide parts of the two linkage rods are respectively in sliding fit with the two second guide parts of the guide block.

Furthermore, a guide hole is formed in the wall of the through connection groove; the temperature detector is provided with a guide column, and the guide column is slidably arranged in the guide hole.

Further, this cooking device with temperature detects function still includes heating element, heating element install in on the inner wall of accomodating the chamber.

Further, the cooking device with the temperature detection function further comprises a cooking box, wherein the cooking box is used for being installed in the containing cavity along the opening of the containing cavity; the cooking box is used for jacking the guide block in the process of being placed into the containing cavity.

Furthermore, the side wall of the containing cavity is provided with a sliding groove extending along the axial direction of the containing cavity, and the sliding groove is used for being in sliding fit with the side part of the cooking box and guiding the cooking box to press the guide block in the sliding process.

The second purpose of the utility model is realized by adopting the following technical scheme:

the electric frying stove comprises a stove body and a cooking device with a temperature detection function, wherein the supporting seat is rotatably arranged in the stove body.

Compared with the prior art, the utility model has the beneficial effects that: it is when the culinary art, the culinary art household utensils can be loaded into through the opening of accomodating the chamber and accomodate the intracavity, at the in-process of packing into, the culinary art household utensils can the top pressure gangbar first guide portion sliding fit, and then the guide gangbar is along the radial motion of accomodating the chamber, and then drive the linking arm swing of being connected with the gangbar, order about the thermodetector of connection on the linking arm and stretch into and accomodate the chamber, at the culinary art in-process afterwards, thermodetector alright detect the temperature of accomodating the intracavity, when the culinary art promptly, thermodetector just stretches into and accomodates the intracavity, it hits thermodetector when packing into or taking out to reduce the culinary art household utensils.

Drawings

FIG. 1 is a schematic structural view of a cooking apparatus according to the present invention;

FIG. 2 is a cross-sectional view of the cooking device of the present invention;

FIG. 3 is a schematic view of a portion of the cooking device of the present invention;

fig. 4 is a schematic structural view of the electric frying stove of the present invention.

In the figure: 10. a supporting seat; 11. a receiving cavity; 12. a penetration groove; 121. a guide hole; 13. a chute; 20. a connecting arm; 30. a cooking box; 40. a temperature detector; 41. a guide post; 50. a linkage rod; 51. a first guide portion; 60. a guide block; 61. a second guide portion; 70. a heating assembly; 90. a drive assembly; 100. a furnace body.

Detailed Description

The utility model will be further described with reference to the accompanying drawings and the detailed description below:

in the description of the present invention, it should be noted that the terms "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the utility model herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model.

As shown in fig. 1, 2 and 3, the cooking device with temperature detection function includes a supporting base 10 and a temperature detection assembly, wherein a receiving cavity 11 is disposed in the supporting base 10, a through-connecting groove 12 is disposed on a side wall of the receiving cavity 11, and one end of the through-connecting groove 12 penetrates to the outside of the supporting base 10; the other end of the insertion groove 12 penetrates into the housing chamber 11.

The temperature detection assembly comprises a temperature detector 40, a connecting arm 20 and a linkage rod 50, wherein the temperature detector 40 is arranged in the penetrating groove 12, the connecting arm 20 is arranged on the supporting seat 10, and the linkage rod 50 is arranged on the supporting seat 10.

One end of the connecting arm 20 is connected with the temperature detector 40; one end of the connecting arm 20 is connected with the temperature detector 40, and the other end of the connecting arm 20 is hinged with one end of the linkage rod 50; the other end of the linkage rod 50 is provided with a first guide part 51, and the first guide part 51 can guide the linkage rod to move along the radial direction of the accommodating cavity when stressed, so that the linkage rod drives the connecting arm connected to one end of the temperature detector to be close to the accommodating cavity, and the temperature detector stretches into the accommodating cavity.

On the basis of the structure, when the cooking device with the temperature detection function is used, the cooking utensil can slide into the containing cavity 11 from the opening of the containing cavity 11 during cooking, the cooking utensil slides forwards into the containing cavity 11 along the axial direction of the containing cavity 11, during the sliding-in process of the cooking utensil, the cooking utensil can press against the first guide part 51 of the linkage rod 50, when the first guide part 51 is pressed, and further guiding the linkage rod 50 to move upward along the radial direction of the containing cavity 11, and further driving the connecting arm 20 connected with the linkage rod 50 to swing, driving the temperature detector 40 connected to the other end of the connecting arm 20 to move downward and extend into the containing cavity 11, and then during the cooking process, the temperature detector 40 can detect the temperature in the containing cavity 11, that is, the temperature detector 40 is inserted into the storage chamber 11 during cooking, so that the temperature detector 40 is prevented from being hit by the cooking utensil during loading or unloading.

After cooking is finished, the cooking utensil can slide out along the axial direction of the containing cavity 11, in the sliding-out process, the temperature detector 40 in the containing cavity 11 can be pressed by the cooking utensil when the cooking utensil slides out, the temperature detector 40 resets upwards, and the connecting arm 20 and the linkage rod 50 are driven to reset downwards so as to be convenient for next use.

Specifically, the linkage rod can be arranged at the end part of the supporting seat far away from the opening of the containing cavity, namely, the first guide part of the linkage rod can be gradually jacked when the cooking utensil slides into the containing cavity from the opening of the containing cavity.

In this embodiment, the temperature detecting assembly may further include a guiding block 60, the guiding block 60 is connected to the receiving cavity 11 in a penetrating manner, the guiding block 60 can move along the axial direction of the receiving cavity 11 when being stressed, and a second guiding portion 61 is disposed on the guiding block 60; the second guide portion 61 is used for being in sliding fit with the first guide portion 51 when the guide block 60 moves along the axis of the accommodating cavity 11, so as to guide the linkage rod 50 to move along the radial direction of the accommodating cavity 11 and drive the connecting arm 20 to swing along the radial direction of the accommodating cavity 11.

On the basis of the structure, when cooking, the cooking utensil can slide into the containing cavity 11 from the opening of the containing cavity 11, the cooking utensil slides forwards into the containing cavity 11 along the axial direction of the containing cavity 11, in the process of sliding the cooking utensil, the cooking utensil can press the driving block, when the driving block is stressed, the second guiding part 61 on the driving block can be in sliding fit with the first guiding part 51 of the linkage rod when the guiding block 60 slides in the axial direction of the containing cavity 11, so as to guide the linkage rod 50 to move upwards along the radial direction of the containing cavity 11, further drive the connecting arm 20 connected with the linkage rod 50 to swing, drive the temperature detector 40 connected with the other end of the connecting arm 20 to move downwards and extend into the containing cavity 11, and then in the cooking process, the temperature detector 40 can detect the temperature in the containing cavity 11, namely, when cooking, the temperature detector 40 only extends into the containing cavity 11, the cooking utensil is prevented from colliding with the temperature detector 40 when being loaded or unloaded.

After the cooking is finished, the cooking utensil can slide out along the axial direction of the containing cavity 11, in the sliding-out process, the temperature detector 40 in the containing cavity 11 can be pressed by the cooking utensil when the cooking utensil slides out, the temperature detector 40 resets upwards to drive the connecting arm 20 and the linkage rod 50 to reset downwards, the first guide part 51 at the end part of the linkage rod 50 can be in sliding fit with the second guide part 61 of the linkage block to drive the linkage block to reset, and the linkage block can be used next time conveniently.

It should be noted that, in order to facilitate the resetting of the temperature detector 40, an elastic component may be disposed between the connecting arm 20 and the supporting seat 10, after the connecting arm 20 drives the temperature detector 40 to move downward, the elastic component may be compressed, and after the cooking utensil exits from the accommodating cavity 11, the driving block loses its top pressure, the elastic component may be reset, the linkage rod 50 is driven to move downward to reset, and the guiding block 60 may also be reset.

In this embodiment, an elastic member may be arranged in the through-connection slot 12, the elastic member is arranged between the temperature detector 40 and the inner wall of the through-connection slot 12, and when the linkage rod 50 moves upward, the linkage arm 20 is driven to move upward, so as to drive the temperature detector 40 to extend downward out of the through-connection slot 12 and into the accommodating cavity, and in this process, the elastic member may be compressed.

When resetting, the external acting force of the linkage rod is removed, the elastic part can reset, and in the resetting process of the elastic part, the elastic part is used for providing an elastic stress for driving the temperature detector to be away from the accommodating cavity, so that the linkage arm and the linkage rod are driven to reset in sequence.

Certainly, a counterweight part can be arranged on the linkage rod 50, after the cooking utensil exits from the storage cavity 11, the guide block 60 loses the top pressure, the counterweight part has certain gravity, the linkage rod 50 is driven to move downwards along the radial direction of the storage cavity 11 under the self gravity, the linkage rod 50 moves downwards, the first guide part 51 at the end part of the linkage rod 50 can be in sliding fit with the second guide part 61 of the guide block 60, and the guide block 60 can be reset to move towards the interior of the storage cavity 11.

It should be noted that the counterweight part may be made of an iron block structure arranged in the linkage rod, or the linkage rod itself is made of a heavy iron rod material.

Further, the first guiding portion 51 is a first inclined surface disposed on the linkage rod 50, and the second guiding portion 61 can be in sliding fit with the first inclined surface, specifically, when the linkage rod 50 is disposed above the guiding block 60, the first inclined surface can be gradually away from the accommodating cavity 11 from top to bottom, and corresponding to the second guiding portion 61, the second inclined surface can be gradually away from the accommodating cavity 11 from top to bottom, and the second inclined surface is in sliding fit with the first inclined surface.

When the linkage rod 50 is driven, the guide block 60 is pressed by a cooking utensil, the second inclined plane on the guide block 60 can be matched with the first inclined plane, and the second inclined plane can decompose axial stress into radial stress to drive the linkage rod 50 to move upwards or downwards.

Of course, when the linkage rod 50 is located below the driving block, the first inclined plane and the second inclined plane may be gradually close to the containing cavity 11 from top to bottom, and may be specifically set according to actual needs.

In addition, the first guide portion 51 and the second guide portion 61 may be formed in a curved surface structure, a combination of a curved surface and an inclined surface, or a combination of an inclined surface and a linear surface as in the prior art, or in short, may be formed to achieve force decomposition.

Further, in this embodiment, the top end and the bottom end of the accommodating cavity 11 may be provided with two penetrating slots 12, the penetrating slots 12 at the top end and the bottom end are respectively connected with the temperature detector 40 in a penetrating manner, and on the basis of the structure, the connecting arm 20 and the linkage rod 50 are provided with two ends, and one end of each of the two linkage rods 50 is connected with the temperature detector 40 through the connecting arm 20; that is, the temperature detector 40 at the top end can be hinged to the upper linkage rod 50 through the connecting arm 20 at the top end, and the temperature detector 40 at the bottom end can be hinged to the lower linkage rod 50 through the connecting arm 20 at the bottom end.

The top and bottom ends of the guide block 60 are provided with second guide parts 61; the first guide portions 51 of the two linkage rods 50 are respectively in sliding fit with the two second guide portions 61 of the guide block 60.

On the basis of the structure, in the process that the cooking utensil is loaded into the containing cavity 11, the cooking utensil pushes and presses the guide block 60, the upper and lower second guide parts 61 of the guide block 60 can be respectively in sliding fit with the first guide parts 51 of the linkage rods 50 which are distributed up and down, namely, the upper and lower temperature detectors 40 can be guided to stretch into the containing cavity 11 simultaneously, the temperature detection can be carried out on the upper and lower sides of the cooking utensil, and the temperature detection is more accurate.

It should be noted that the temperature detector 40 may be selected as a temperature sensor in the prior art.

Further, the middle part of the connecting arm 20 is hinged to the supporting seat 10, that is, the connecting arm 20 can rotate up and down with the hinged point at the middle part of the connecting arm 20 as a pivot, and the extending or withdrawing process of the temperature detector 40 is smoother.

Furthermore, a guide hole 121 may be formed in a wall of the penetration groove 12, and a guide pillar 41 may be correspondingly formed on the temperature detector 40, so that when the temperature detector 40 moves in the penetration groove 12, the guide pillar 41 may be slidably mounted in the guide hole 121, and the sliding process of the temperature detector 40 is more stable.

Further, this culinary art device with temperature detects function still includes heating element 70, heating element 70 installs on the inner wall of accomodating chamber 11, promptly, when cooking device cooks the operation, can be when the inner wall of accomodating chamber 11 sets up heating element 70, heating element 70 alright to the cooking utensil direct heating, reduce the heat and run off, of course, heating element 70 also can set up outside supporting seat 10, also can be when cooking device is applied to electric frying stove, electric heat pan, set up heating structure on furnace body 100 or pot body isotructure.

Further, the cooking device with the temperature detection function further comprises a cooking box 30, the cooking box 30 is used for being placed into the containing cavity 11 along the opening of the containing cavity 11, the cooking box 30 can be formed into the cooking utensil, the cooking box 30 can press the guide block 60 in the process of being placed into the containing cavity 11, namely, during cooking, food materials can be placed in the cooking box 30, the cooking box 30 can press the guide block 60 in the process of being placed, and the second guide part 61 of the guide block 60 is in sliding fit with the first guide part 51 of the linkage rod 50.

Furthermore, a sliding groove 13 can be further formed in the side wall of the containing cavity 11, the sliding groove 13 extends along the axial direction of the containing cavity 11, the sliding groove 13 can be in sliding fit with the side portion of the cooking box 30, and the cooking box 30 is guided to press the guide block 60 in the sliding process, that is, when the cooking box 30 is loaded into the containing cavity 11, the side portion of the cooking box 30 can be loaded into the sliding groove 13 and slide in along the sliding groove 13, and the movement process of the cooking box 30 is more stable.

In the case of the example 2, the following examples are given,

referring to fig. 1-4, the electric frying oven includes an oven body 100 and a cooking device with a temperature detecting function in embodiment 1, different from embodiment 1, in this embodiment, the above-mentioned cooking device with a temperature detecting function can be applied to the oven body 100, the supporting seat 10 can be rotatably installed in the oven body 100, that is, the supporting seat 10 rotates, the cooking box 30 installed in the supporting seat 10 can be driven, and the food materials can be cooked more uniformly.

Of course, the driving assembly 90 may be disposed on the oven body 100, and the driving assembly 90 may drive the supporting base 10 to rotate, so as to drive the cooking box 30 to automatically turn over.

Various other modifications and changes may be made by those skilled in the art based on the above-described technical solutions and concepts, and all such modifications and changes should fall within the scope of the claims of the present invention.

Claims (10)

1. A cooking device with temperature detection function is characterized by comprising,

the supporting seat is internally provided with a containing cavity; the side wall of the containing cavity is provided with a through groove which penetrates through the containing cavity along the edge; one end of the penetration groove penetrates through the outer part of the supporting seat; the other end of the penetration groove penetrates into the containing cavity;

the temperature detection assembly comprises a temperature detector, a connecting arm and a linkage rod, and the temperature detector is arranged in the through connecting groove; the connecting arm and the supporting seat are both arranged on the supporting seat;

one end of the connecting arm is connected with the temperature detector; the other end of the connecting arm is hinged with one end of the linkage rod; the other end of the linkage rod is provided with a first guide part; the first guide portion is used for guiding the linkage rod to move along the radial direction of the storage cavity when stressed, and drives the connecting arm connected to one end of the temperature detector to be close to the storage cavity, so that the temperature detector stretches into the storage cavity.

2. The cooking device with temperature detecting function according to claim 1, wherein the temperature detecting assembly further comprises a guide block which is penetrated to the receiving chamber and can move along the axial direction of the receiving chamber when being stressed; the guide block is provided with a second guide part; the second guide part is used for being in sliding fit with the first guide part when the guide block moves along the axis of the containing cavity so as to guide the linkage rod to move along the radial direction of the containing cavity and drive the connecting arm to swing.

3. The cooking device with temperature detecting function as claimed in claim 2, wherein the first guiding portion is a first inclined surface provided on the linkage rod, and the second guiding portion is configured to be slidably engaged with the first inclined surface; the second guide part is a second inclined plane arranged on the guide block, and the second inclined plane is used for being in sliding fit with the first inclined plane.

4. The cooking apparatus with temperature detecting function as claimed in claim 2, wherein the through connection slot is provided therein with an elastic member, the elastic member is disposed between the temperature detector and an inner wall of the through connection slot, and the elastic member is used for providing an elastic stress for driving the temperature detector away from the receiving cavity.

5. The cooking device with temperature detecting function as claimed in claim 2, wherein the top end and the bottom end of the receiving cavity are provided with the through slots; the temperature detectors are connected in the through grooves in a penetrating manner; the connecting arm and the linkage rod are both provided with two connecting rods, and the top end and the bottom end of the guide block are both provided with the second guide parts; one end of each linkage rod is connected with the temperature detector through a connecting arm; the first guide parts of the two linkage rods are respectively in sliding fit with the two second guide parts of the guide block.

6. The cooking device with temperature detecting function as claimed in claim 2, wherein a guide hole is provided on a wall of the penetration groove; the temperature detector is provided with a guide column, and the guide column is slidably arranged in the guide hole.

7. The cooking apparatus with temperature detecting function according to any one of claims 2 to 6, further comprising a heating assembly mounted on an inner wall of the receiving chamber.

8. The cooking apparatus with temperature detecting function according to any one of claims 2 to 6, further comprising a cooking cartridge for being loaded into the receiving chamber along an opening of the receiving chamber; the cooking box is used for jacking the guide block in the process of being placed into the containing cavity.

9. The cooking apparatus with temperature detecting function according to claim 8, wherein the side wall of the receiving cavity is provided with a sliding groove extending along the axial direction of the receiving cavity, the sliding groove is used for sliding matching with the side part of the cooking box and guiding the cooking box to press the guiding block in the sliding process.

10. Electric frying stove, comprising a stove body and a cooking device with temperature detection function according to any one of claims 1 to 9, the support base being rotatably mounted in the stove body.

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