CN112393286A - Self-adaptation inlays self-adaptation structure and embedded cooking utensils of dress hole size - Google Patents

Abstract

The invention discloses a self-adaptive structure and an embedded stove capable of self-adapting to the size of an embedded hole, wherein the self-adaptive structure comprises a pressure-bearing part, a support, a pull rod and an elastic part, the support is provided with an installation cavity extending towards the direction of the pressure-bearing part, the installation cavity is provided with an opening facing the pressure-bearing part, one end of the pull rod is arranged in the installation cavity in a telescopic motion manner, the other end of the pull rod penetrates through the opening and is hinged with the pressure-bearing part, the elastic part is arranged in the installation cavity, one end of the elastic part is abutted against one surface, facing the opening, of the installation cavity, and the other end of the elastic. The self-adaptive structure is simple and ingenious in structure, the bearing part can move in the compression range of the elastic part, the self-adaptive structure is suitable for an embedded size interval in a certain range section, automatic adjustment is achieved according to the size of an embedded hole, the self-adaptability is high, and then the cooker is guaranteed not to shake.

Description

Self-adaptation inlays self-adaptation structure and embedded cooking utensils of dress hole size

Technical Field

The invention relates to the technical field of cookers, in particular to an embedding technology of an embedded cooker.

Background

At present, the plan size of inlaying every firm of dress size of domestic embedded cooking utensils on the market is different, and the user is carrying out the product and is eliminating when renewing, can only carry out the selection of new product according to the inlaying dress hole size of current cupboard: the size of the embedding hole required by a new product can only be selected to be just matched with or larger than the size of the existing embedding hole. For solving this problem, current solution with drain pan outer edge widening, but if only widen the drain pan outer edge, when inlaying the dress hole matching use with big, can have the problem of rocking about controlling.

To the problem that the drain pan rocked, current scheme uses screw and nut to adjust all around the drain pan, withstands the cupboard lateral wall, guarantees that cooking utensils do not rock. However, when the solution is installed, the size of the cabinet must be measured, and then the installation is performed after the length of the screw extending out of the bottom shell is adjusted to the proper size, so that the installation is complicated. Meanwhile, the scheme has manual debugging errors, and the risk of shaking gaps or scratching the cupboard cannot be completely eliminated.

Disclosure of Invention

The invention aims to solve at least one of the problems in the prior related art to a certain extent, and therefore the invention provides a self-adaptive structure for self-adapting the size of an embedding hole, which has a simple and ingenious structure, can be automatically adjusted according to the size of the embedding hole and has strong adaptability.

The invention also provides an embedded type stove with the self-adaptive structure, which realizes automatic adjustment according to the size of the embedded hole, so that the pressure-bearing part props against the inner side wall of the embedded hole, and the stove is further ensured not to shake.

According to the self-adaptation structure of self-adaptation dress hole size that provides above-mentioned, it realizes through following technical scheme:

an adaptive structure for adapting the size of an installation hole, comprising: the pressure-bearing part is used for abutting against the inner side wall of the embedding hole; the support is provided with a mounting cavity extending towards the pressure bearing part, and the mounting cavity is provided with an opening facing the pressure bearing part; one end of the pull rod is arranged in the mounting cavity in a telescopic motion mode, and the other end of the pull rod penetrates through the opening and is hinged with the pressure-bearing part; the elastic piece is arranged in the mounting cavity, one end of the elastic piece is abutted to one surface, facing the opening, of the mounting cavity, and the other end of the elastic piece is connected with or abutted to the pull rod.

In some embodiments, a limiting portion is disposed at an end of the pull rod close to the elastic member, the limiting portion abuts against the elastic member, and the size of the limiting portion is larger than that of the opening.

In some embodiments, a support is arranged on one surface of the pressure bearing part facing the installation cavity, and the pull rod is hinged with the support through a connecting part.

In some embodiments, the support comprises two support lugs which are arranged at intervals and provided with connecting holes, one end of the pull rod, which is close to the pressure-bearing part, is provided with a hinge hole, and the connecting part is respectively arranged through the hinge hole and the two connecting holes.

In some embodiments, a guide portion is provided at a lower end of a face of the pressure-bearing member facing away from the draw bar.

In some embodiments, the number of the pull rods and the number of the elastic pieces are two, the bracket is provided with two installation cavities which are arranged at intervals up and down or left and right, the elastic piece is arranged in each installation cavity, one end of each of the two pull rods is hinged to the bearing piece, and the other end of each of the two pull rods is movably arranged in the corresponding installation cavity and is abutted to or connected with the elastic piece.

In some embodiments, the support frame comprises two support frames independent from each other, the support frames comprise a bottom plate and a support plate which are connected to each other in an "L" shape, and the support plate is provided with one of the mounting cavities extending towards the pressure-bearing member.

In some embodiments, the bracket includes a bottom surface and two supporting surfaces, the lower ends of the two supporting surfaces are respectively fixedly connected to the bottom surface, and the mounting cavity extending towards the pressure-bearing member is provided on each supporting surface.

In some embodiments, the bracket comprises a bottom surface and a supporting surface which are connected with each other in an L shape, and the supporting surface is provided with two installation cavities which extend towards the direction of the pressure bearing piece at intervals.

According to the embedded cooker, the technical scheme is as follows:

an embedded kitchen range comprises a bottom shell, wherein at least one self-adaptive structure is arranged on at least one side wall of the bottom shell, and a support is arranged on the outer side wall of the bottom shell; or, the support is installed in the bottom shell, the pressure-bearing part is movably arranged on the outer side of the side wall of the bottom shell, a through hole for the pull rod to pass through is correspondingly formed in the side wall of the bottom shell, and one end, far away from the support, of the pull rod passes through the through hole and then is hinged to the pressure-bearing part.

Compared with the prior art, the invention at least comprises the following beneficial effects:

1. the self-adaptive structure is simple and ingenious in structure, the pressure-bearing part can move in the compression range of the elastic part, and the self-adaptive structure is suitable for the embedding size interval of a certain range section, realizes automatic adjustment according to the size of the embedding hole, and is high in self-adaptability;

2. according to the embedded cooker, the at least one self-adaptive structure is arranged on at least one side wall of the bottom shell, so that automatic adjustment according to the size of the embedded hole is realized, the pressure-bearing part is enabled to prop against the inner side wall of the embedded hole under the elastic force of the elastic part, and the cooker is further prevented from shaking.

Drawings

FIG. 1 is a schematic structural diagram of an adaptive structure in embodiment 1 of the present invention;

FIG. 2 is an enlarged view of a portion A of FIG. 1;

FIG. 3 is an exploded view of the adaptive architecture in example 1 of the present invention;

FIG. 4 is a schematic structural view of a stent in example 1 of the present invention;

fig. 5 is a schematic structural diagram of the adaptive structure mounted on the bottom case in embodiment 1 of the present invention;

fig. 6 is a partial sectional view of the adaptive structure mounted to the bottom chassis according to embodiment 1 of the present invention;

fig. 7 is a partial sectional view of the cooker mounted in the cabinet installation hole in embodiment 1 of the present invention;

FIG. 8 is a schematic structural view of a stent in example 2 of the present invention;

FIG. 9 is a schematic structural view of a stent in example 3 of the present invention;

fig. 10 is a schematic structural diagram of an adaptive structure in embodiment 4 of the present invention.

Detailed Description

The present invention is illustrated by the following examples, but the present invention is not limited to these examples. Modifications to the embodiments of the invention or equivalent substitutions of parts of technical features without departing from the spirit of the invention are intended to be covered by the scope of the claims of the invention.

Example 1

Referring to fig. 1 to 4, the present embodiment provides an adaptive structure for adapting the size of an installation hole, the adaptive structure including a pressure receiving member 1, a bracket 2, a tension rod 3, and an elastic member 4, wherein the pressure receiving member 1 is configured to abut against an inner sidewall of the installation hole. The support 2 is used for being connected with the drain pan of cooking utensils, is equipped with the erection column that extends and transversely arrange towards the direction of pressure-bearing spare 1 on support 2, delimits installation cavity 201 in the inside of erection column to the installation cylinder is equipped with trompil 202 towards the one side of pressure-bearing spare 1, and this trompil 202 is towards pressure-bearing spare 1 and is led to installation cavity 201. One end of the pull rod 3 is telescopically movably arranged in the mounting cavity 201, and the other end of the pull rod passes through the opening 202 and then is hinged with the pressure-bearing part 1, so that the pressure-bearing part 1 can rotate relative to the pull rod 3, and the telescopic movement of the pull rod 3 can drive the pressure-bearing part 1 to move or the pressure-bearing part 1 can push the pull rod 3 to move under the external acting force. The elastic member 4 is installed in the installation cavity 201 and has one end abutting against one surface of the installation cavity 201 facing the opening 202 and the other end connected or abutting against the pull rod 3. Preferably, the elastic member 4 of the present embodiment is a compression spring for providing the pressure-bearing member 1 with a pushing force in a direction away from the elastic member 4, so that the pressure-bearing member 1 can tightly abut against the inner side wall of the installation hole.

Referring to fig. 6, when the adaptive structure is installed in front of the installation hole, the pressure receiving member 1 does not abut against the inner sidewall of the installation hole, and at this time, the elastic member 4 is in a freely extended state and has a length slightly smaller than that of the installation cavity 201, and the elastic force generated by the elastic member 4 in the direction toward the pressure receiving member 1 is the smallest. Referring to fig. 7, when the adaptive structure is installed in the embedding hole, the pressure-bearing member 1 abuts against the inner side wall of the embedding hole, so that the pressure-bearing member 1 moves towards the elastic member 4, and the movement of the pressure-bearing member 1 drives the pull rod 3 to move towards the elastic member 4, thereby compressing the elastic member 4, at this time, the elastic force of the elastic member 4 towards the pressure-bearing member 1 is increased, so that the pressure-bearing member 1 tightly abuts against the inner side wall of the embedding hole under the elastic force of the elastic member 4. Therefore, within the compression range of the elastic member 4, the pressure receiving member 1 can automatically come into close contact with the inner side wall of the fitting hole by the elastic force of the elastic member 4.

It can be seen that the self-adaptation structure of this embodiment, its simple structure, ingenious, pressure-bearing piece 1 can move in the compression range of elastic component 4, and applicable in the range of inlaying of a certain extent section inlays the dress size interval, has realized carrying out automatic adjustment according to inlaying the dress hole size, and self-adaptation nature is strong, need not artifical the debugging.

Referring to fig. 1, in this embodiment, the number of the pull rod 3 and the elastic element 4 is two, the support 2 is provided with two mounting columns with mounting cavities 201 arranged at left and right intervals, the elastic element 4 is arranged in each mounting cavity 201, one end of each of the two pull rods 3 is hinged to one surface of the pressure-bearing element 1 facing the mounting cavity 201, and the other end of each of the two pull rods 3 is movably arranged in the corresponding mounting cavity 201 and is abutted to or connected with the elastic element 4. From this, under the combined action of two elastic components 4, the total elastic force that produces when two elastic components 4 are all compressed is bigger for pressure-bearing part 1 sticiss more and inlay the inside wall in dress hole, and under two elastic force effects, guarantee pressure-bearing part 1 more reliable and stable butt and inlay the inside wall in dress hole, thereby show the steadiness and the reliability that improve the cooking utensils installation, effectively guarantee that embedded cooking utensils install can not rock after good.

Referring to fig. 1-2, the end of the pull rod 3 near the elastic member 4 is provided with a limiting portion 31, and the limiting portion 31 is integrally formed with the pull rod 3, so that the pull rod 3 is in a piston structure, and the connection between the pull rod and the elastic member is ensured to be firm and reliable. Spacing portion 31 is located installation cavity 201 and butt elastic component 4, and the size of spacing portion 31 is greater than the size of trompil 202, and like this, the setting of spacing portion 31 has increased the area of contact of pull rod 3 with elastic component 4 on the one hand, and on the other hand can prevent that pull rod 3 from deviating from trompil 202.

Referring to fig. 3, in particular, one surface of the pressure-bearing member 1 facing the installation cavity 201 is provided with two supports 11, and the two supports 11 are respectively located corresponding to the two installation cavities 201. One end of each pull rod 3, which is close to the pressure bearing part 1, is hinged with the support 11 through the connecting piece 5, so that the rotatable connection between the pressure bearing part 1 and the pull rods 3 is realized through the connecting piece 5 and the support 11, and the pressure bearing part 1 can rotate relative to the two pull rods 3.

Preferably, the pressure-bearing part 1 is a pressure-bearing plate, and the two supports 11 are arranged in the first half section of one surface of the pressure-bearing plate facing the installation cavity 201, so that the pressure-bearing part 1 is not installed and is arranged obliquely in the vertical direction (see fig. 6) when the installation hole is embedded, so that one surface of the back installation cavity 201 of the pressure-bearing part 1 forms a guide surface, the pressure-bearing plate can be installed on the embedded installation hole to play a guide role, and the bottom case of the cooker can be more conveniently disassembled and assembled. More preferably, the lower end of one side of the pressure-bearing member 1 (i.e. the pressure-bearing plate) away from the pull rod 3 is provided with a guide part 12, the guide part 12 is an inclined plane or an arc-shaped plane, and the guide part 12 is taken as an example in the embodiment, so that the lower end of the pressure-bearing member 1 is provided with the guide part 12, which is more convenient for the disassembly and assembly of the bottom case of the cooker.

Specifically, the support 11 includes two support lugs 111 arranged at intervals and having connection holes 110, and the two support lugs 111 are respectively integrally formed with the pressure receiving member 1 or fixed to the pressure receiving member 1 by bonding or welding. One end of the pull rod 3 close to the bearing part 1 is provided with a hinge hole 32. The connecting piece 5 comprises a screw and a nut, during installation, the hinge hole 32 extends between the two support lugs 111, and one end of the screw penetrates through one of the connecting holes 110, the hinge hole 32 and the other connecting hole 110 in sequence and then is fixedly connected with the nut, so that the support 11 is hinged with the pull rod 3, and the pressure-bearing piece 1 can rotate relative to the pull rod 3.

Referring to fig. 3-4, specifically, the bracket 2 includes two support frames 21 independent of each other, the support frames 21 include a bottom plate 211 and a support plate 212 connected to each other in an "L" shape, at least one fixing hole 203 is provided on the bottom plate 211, and the fixing hole 203 is used for detachably connecting with a bottom case of the cooker through a screw. The support plate 212 and the bottom plate 211 are formed by bending the same flat plate, and the support plate 212 is provided with a mounting post having a mounting cavity 201 extending toward the pressure receiving member 1. Therefore, the support 2 is formed by the two support frames 21, the mounting column with the mounting cavity 201 is arranged on each support frame 21 in the L shape, manufacturing materials can be saved on the other hand, the distance between the two support frames 21 can be adjusted conveniently according to the positions of the two supports 11, and machining precision requirements and assembling difficulty are reduced.

In this embodiment, the mounting post having the mounting cavity 201 may be integrally formed with the support plate 212 or fixedly attached to the support plate 212 by welding.

Referring to fig. 5, the present embodiment further provides an embedded kitchen range, which includes a bottom case 6 and the above-mentioned adaptive structure, where at least one adaptive structure is disposed on at least one sidewall of the bottom case 6. In this embodiment, all install an adaptive structure on four lateral walls of drain pan 6 to make the drain pan 6 around, all can pass through adaptive structure about, reliable butt inlays the inside wall of dress hole, show the installation steadiness that improves cooking utensils, guarantee that cooking utensils adorn the back and all do not rock about the fore-and-aft direction.

Specifically, there are two ways of mounting the adaptive structure on the sidewall of the bottom case 6: firstly, the self-adaptive structure is completely arranged outside the bottom shell 6, namely the self-adaptive structure is arranged outside the side wall of the bottom shell 6 through the bracket 2, so that the stove can adapt to an embedded hole with a larger size; secondly, the bearing part 1 and part of the pull rod 3 of the self-adaptive structure are arranged on the outer side of the side wall of the bottom shell 6, and the rest parts are arranged inside the bottom shell 6, so that the space between the side wall of the bottom shell 6 and the inner side wall of the embedded hole can be reduced by the self-adaptive structure, and the self-adaptive structure is suitable for a stove which is just matched with or larger than the size of the embedded hole.

Referring to fig. 5-6, the present embodiment is exemplified in a second manner. Specifically, the entire structure of the bracket 2 is completely installed in the bottom case 6, the bottom plate 211 of each support frame 21 in the bracket 2 is detachably connected to the bottom of the bottom case 6 through screws, or the bottom plate 211 of each support frame 21 is fixedly connected to the bottom of the bottom case 6 through welding or bonding. The pressure-bearing part 1 is movably arranged on the outer side of the side wall of the bottom shell 6, a through hole 61 for the pull rod 3 to pass through is correspondingly arranged on the side wall of the bottom shell 6, and one end, far away from the support 2, of the pull rod 3 is hinged with the support 11 of the pressure-bearing part 1 after passing through the through hole 61.

Preferably, when the design when leaving the factory, the lower extreme of pressure-bearing spare 1 is connected through the rosin joint along with drain pan 1 lateral wall, perhaps connects through the bonding mode that follow-up atress can loosen and take off, like this, can avoid pressure-bearing spare 1 to rock in handling to remove the relation of connection, convenient to use when making things convenient for follow-up use.

The installation principle of the built-in cooker of the embodiment is described below with reference to fig. 6-7:

referring to fig. 6, when the kitchen range is not installed to the insertion hole S of the cabinet, the elastic member 4 is in a freely extended state, at this time, the elastic force of the elastic member 4 in the direction of the pressure bearing member 1 is minimized, the pull rod 3 moves in the direction away from the elastic member 4 under the elastic force of the elastic member 4, so that the limit portion 31 of the pull rod 3 is close to the opening 202, the pressure bearing member 1 is away from the elastic member 4 and is arranged obliquely in the vertical direction, and the lower end of the pressure bearing member 1 is connected to the outer sidewall of the bottom case 6 by means of a cold welding, so that the pull rod 3, the pressure bearing member 1, and the outer sidewall of the bottom case 6 form a right triangle.

Referring to fig. 7, when the kitchen range is installed in the insertion hole S of the cabinet, the pressure-bearing member 1 changes from an inclined state to a vertical state under the action of the inner side wall of the insertion hole S, in this process, the pressure-bearing member 1 moves towards the elastic member 4 under the action of the inner side wall of the insertion hole S, and the movement of the pressure-bearing member 1 drives the pull rod 3 to move towards the elastic member 4, so that the elastic member 4 is compressed, at this time, the elastic force of the elastic member 4 towards the direction of the pressure-bearing member 1 is increased, so that the pressure-bearing member 1 is tightly abutted against the inner side wall of the insertion hole S under the action of the elastic force of the elastic member 4, and therefore, the bottom case 6 of the kitchen range is tightly abutted against the inner side wall of the insertion hole S through a self-adaptive structure, so that the kitchen range is effectively prevented from shaking, and the pressure-bearing member 1 is in surface contact with the inner.

Example 2

Referring to fig. 8, the present embodiment is different from embodiment 1 in the structure of the holder 2. Specifically, the bracket 2 includes a bottom surface 22 and two supporting surfaces 23, lower ends of the two supporting surfaces 23 are respectively integrally formed with the bottom surface 22, and each supporting surface 23 is provided with a mounting post extending towards the pressure-bearing member 1, and the mounting post has a mounting cavity 201 and an opening 202 communicating with the mounting cavity 201. The bottom surface 22 is provided with two fixing holes 203, and when the adaptive structure is mounted on a bottom shell of a kitchen range, the adaptive structure can be detachably connected with the bottom shell of the kitchen range after penetrating through the two fixing holes 203 respectively through two screws, or the bottom surface 22 is fixedly connected with the bottom shell of the kitchen range in a bonding or welding manner. In the embodiment, the bottom surface 22 is connected with a bottom case of the cooker through screws, and other parts are the same as those in embodiment 1.

It can be seen that the two support surfaces 23 arranged side by side are respectively and fixedly connected with the same bottom surface 22, which is beneficial to increasing the contact area between the bottom of the support 2 and the bottom shell of the cooker, and two fixing holes 203 for screws to pass through are arranged on the bottom surface 22, so that two points are aligned, the support 2 and the bottom shell of the cooker are more firmly and reliably connected, the installation stability of the self-adaptive structure is improved, and the cooker is more firmly installed in the embedded hole.

Example 3

Referring to fig. 9, the present embodiment is different from embodiment 1 in the structure of the holder 2. Specifically, the bracket 2 includes a bottom surface 22 and a supporting surface 23, the bottom surface 22 and the supporting surface 23 are integrally formed and mutually form an "L" shape, two fixing holes 203 are formed in the bottom surface 22, two mounting posts extending toward the pressure-bearing member 1 are spaced apart from each other on the supporting surface 23, each mounting post has a mounting cavity 201 and an opening 202 communicating with the mounting cavity 201, and other portions are the same as those in embodiment 1.

It can be seen that, by arranging two mounting columns with the mounting cavities 201 and the openings 202 on the same supporting surface 23 at intervals side by side, the overall area of the supporting surface 23 is larger, the strength of the supporting surface 23 is further enhanced, and the supporting surface 23 is prevented from deforming under the action of the elastic member 4; in addition, two fixing holes 203 for screws to pass through are formed in the bottom surface 22, and two points are aligned to form a line, so that the support 2 is connected with the bottom shell of the stove more firmly and reliably, the installation stability of the self-adaptive structure is improved, and the stove is further installed in the embedding hole more firmly.

Example 4

Referring to fig. 10, the present embodiment is different from embodiment 1 in that the arrangement of two mounting cavities 201 is different. Specifically, support 2 is for being the support frame 21 of "L" font, is equipped with two erection columns that have installation cavity 201 and trompil 202 of upper and lower side by side interval arrangement on the vertical face of support frame 21, for improving the intensity of support frame 21, guarantees that support frame 21 can two erection columns of stable support, and this embodiment increases the thickening with support frame 21. Correspondingly, one side of the pressure-bearing part 1 facing the installation cavity 201 is provided with two supports 11 arranged side by side up and down at intervals, one ends of the two pull rods are respectively hinged with the two supports 11, the other ends of the two pull rods are arranged in the corresponding installation cavity 201 in a telescopic motion mode and are abutted against the elastic part 4, and other parts of the two pull rods are the same as those of the embodiment 1.

It can be seen that, through setting up two installation cavities 201 side by side from top to bottom for two pull rods, two elastic component 4 and two supports 11 that correspond all are arranged side by side from top to bottom, and then make pressure-bearing part 1 be vertical arranging, not only guarantee that pressure-bearing part 1 can closely butt inlay the inside wall in dress hole under the elastic force effect of two elastic component 4, can also guarantee that pressure-bearing part 1 is face contact with the inside wall that inlays dress hole S all the time, avoid the scratch cupboard.

What has been described above are merely some embodiments of the present invention. It will be apparent to those skilled in the art that various changes and modifications can be made without departing from the inventive concept thereof, and these changes and modifications can be made without departing from the spirit and scope of the invention.

Claims (10)

1. The utility model provides an adaptation inlays adaptive structure of dress hole size which characterized in that includes:

the pressure-bearing part (1) is used for abutting against the inner side wall of the embedding hole;

the support (2) is provided with a mounting cavity (201) extending towards the pressure bearing part (1), and the mounting cavity (201) is provided with an opening (202) facing the pressure bearing part (1);

one end of the pull rod (3) is telescopically arranged in the mounting cavity (201) in a movable manner, and the other end of the pull rod (3) penetrates through the opening (202) and then is hinged with the pressure-bearing part (1);

the elastic piece (4) is installed in the installation cavity (201), one end of the elastic piece (4) abuts against one surface, facing the opening (202), of the installation cavity (201), and the other end of the elastic piece (4) is connected with or abutted against the pull rod (3).

2. An adaptation structure to the size of an installation hole according to claim 1, characterised in that the end of the tie rod (3) close to the elastic element (4) is provided with a limit part (31), the limit part (31) abuts against the elastic element (4), and the size of the limit part (31) is larger than the size of the opening (202).

3. An adaptive structure for adapting to the size of an embedding hole according to the claim 1 is characterized in that a support (11) is arranged on one surface of the bearing part (1) facing the installation cavity (201), and the pull rod (3) is hinged with the support (11) through a connecting piece (5).

4. The self-adaptive structure for the size of the embedded hole is characterized in that the support (11) comprises two support lugs (111) which are arranged at intervals and are provided with connecting holes (110), one end of the pull rod (3) close to the pressure bearing part (1) is provided with a hinge hole (32), and the connecting piece (5) is respectively arranged through the hinge hole (32) and the two connecting holes (110).

5. An adaptation to the size of a loading aperture according to claim 1, characterized in that the lower end of the side of the pressure-bearing part (1) facing away from the tension rod (3) is provided with a guide (12).

6. A self-adaptation structure of a self-adaptation inlay dress hole size according to any one of claims 1-5, characterized in that, the quantity of draw bar (3) and elastic component (4) is two, support (2) are equipped with two installation cavity (201) of interval arrangement about or, be equipped with in every installation cavity (201) elastic component (4), the one end of two draw bars (3) is articulated respectively bearing member (1), the other end movably sets up in corresponding installation cavity (201) and butt joint or connect elastic component (4).

7. An adaptive structure for an adaptive installation hole size according to claim 6, characterized in that the bracket (2) comprises two support frames (21) independent from each other, the support frames (21) comprise a bottom plate (211) and a support plate (212) connected to each other in an "L" shape, and the support plate (212) is provided with one of the installation cavities (201) extending toward the pressure receiving member (1).

8. An adaptive structure according to claim 6, characterized in that the bracket (2) comprises a bottom surface (22) and two supporting surfaces (23), the lower ends of the two supporting surfaces (23) are respectively fixedly connected with the bottom surface (22), and each supporting surface (23) is provided with the mounting cavity (201) extending towards the direction of the pressure-bearing member (1).

9. An adaptive structure according to claim 6, characterized in that the bracket (2) comprises a bottom surface (22) and a supporting surface (23) which are connected with each other in an L shape, and the supporting surface (23) is provided with two installation cavities (201) which extend towards the pressure-bearing member (1) at intervals.

10. Embedded hob comprising a bottom shell (6), characterized in that at least one adaptive structure according to any one of claims 1 to 9 is provided on at least one side wall of said bottom shell (6), said brackets (2) being mounted on the outer side wall of said bottom shell (6);

or, support (2) install in drain pan (6), pressure-bearing piece (1) movably set up in the lateral wall outside of drain pan (6) the lateral wall correspondence of drain pan (6) is equipped with the confession through-hole (61) that pull rod (3) passed, pull rod (3) are kept away from the one end of support (2) is passed articulated behind through-hole (61) pressure-bearing piece (1).

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