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Self-adaptive structure capable of self-adapting to size of embedded hole and embedded cooker

A self-adaptive and dimensional technology, applied in the field of stoves, can solve the problems that the risk of cabinet scratches in the shaking gap cannot be completely eliminated, the installation is complicated, etc., and achieve the effect of simple structure and strong self-adaptability

Inactive Publication Date: 2021-02-23
VATTI CORP LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, when installing this solution, you must first measure the size of the cabinet, and then adjust the length of the screw protruding from the bottom case to a suitable size before installing, which is complicated to install
At the same time, there will be manual debugging errors in this solution, which cannot completely eliminate the shaking gap or the risk of scratching the cabinet

Method used

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  • Self-adaptive structure capable of self-adapting to size of embedded hole and embedded cooker
  • Self-adaptive structure capable of self-adapting to size of embedded hole and embedded cooker
  • Self-adaptive structure capable of self-adapting to size of embedded hole and embedded cooker

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0033] Referring to 1-4, this embodiment provides an adaptive structure that adapts to the size of the embedded hole. The adaptive structure includes a pressure-bearing member 1, a bracket 2, a pull rod 3 and an elastic member 4, wherein the pressure-bearing member 1 is used for abut against the inner wall of the mounting hole. The bracket 2 is used to connect with the bottom shell of the cooker, and the bracket 2 is provided with a mounting column extending toward the direction of the pressure-bearing part 1 and arranged laterally, and an installation cavity 201 is defined inside the mounting column, and the mounting column faces the pressure-bearing part 1 A hole 202 is provided on one side, the hole 202 faces the pressure bearing part 1 and communicates with the installation cavity 201 . One end of the pull rod 3 is telescopically and movably arranged in the installation cavity 201, and the other end passes through the opening 202 to hinge the pressure bearing 1, so that th...

Embodiment 2

[0051] see Figure 8 , The difference between this embodiment and Embodiment 1 is that the structure of the bracket 2 is different. Specifically, the bracket 2 includes a bottom surface 22 and two support surfaces 23, the lower ends of the two support surfaces 23 are respectively integrally formed with the bottom surface 22, and each support surface 23 is provided with a mounting column extending toward the direction of the pressure bearing member 1. The mounting post has a mounting cavity 201 and an opening 202 communicating with the mounting cavity 201 . Two fixing holes 203 are provided on the bottom surface 22. When the self-adaptive structure is installed on the bottom shell of the cooker, two screws can pass through the two fixing holes 203 respectively and then be detachably connected with the bottom shell of the cooker, or the bottom surface 22 It is fixedly connected with the bottom shell of the cooker by bonding or welding. In this embodiment, the connection betwee...

Embodiment 3

[0054] see Figure 9 , The difference between this embodiment and Embodiment 1 is that the structure of the bracket 2 is different. Specifically, the bracket 2 includes a bottom surface 22 and a support surface 23. The bottom surface 22 and the support surface 23 are integrally formed to form an "L" shape with each other. The two mounting posts extending in the direction of the pressure piece 1 each have a mounting cavity 201 and an opening 202 communicating with the mounting cavity 201 , and the other parts are the same as in the first embodiment.

[0055] It can be seen that by arranging two mounting columns with mounting cavities 201 and openings 202 side by side on the same support surface 23 at intervals, the overall area of ​​the support surface 23 is larger, further enhancing the strength of the support surface 23, and avoiding the elastic deformation of the support surface 23. Deformation occurs under the action of component 4; in addition, by setting two fixing holes...

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PUM

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Abstract

The invention discloses a self-adaptive structure capable of self-adapting to the size of an embedded hole and an embedded cooker. The self-adaptive structure comprises a pressure-containing part, a support, pull rods and elastic parts, wherein the support is provided with mounting cavities extending towards the pressure-containing part; an opening facing the pressure-containing part is formed ineach mounting cavity; one end of each pull rod is arranged in one mounting cavity in a telescopic movement manner, and the other end of each pull rod penetrates through the corresponding opening and then is hinged to the pressure-containing part; and each elastic part is installed in one mounting cavity, one end of each elastic part is propped against one surface, facing the corresponding opening,of one mounting cavity, and the other end of each elastic part is connected with or propped against one pull rod. The self-adaptive structure is simple and ingenious in structure; and the pressure-containing part can move within the compression range of the elastic parts, so that the self-adaptive structure can be suitable for an embedding size interval of a certain range segment, automatic adjustment is achieved according to the size of the embedded hole, the self-adaptability is high, and the condition that the cooker does not shake is guaranteed.

Description

technical field [0001] The invention relates to the technical field of cookers, in particular to an embedded technology for built-in cookers. Background technique [0002] At present, the embedded size of household built-in stoves in the market is different from each manufacturer's planning size. When users are eliminating and updating products, they can only choose new products according to the size of the built-in hole of the existing cabinet: the embedded size of the new product demand Mounting holes can only be selected to just match or be larger than the existing embedded hole size. In order to solve this problem, there is an existing solution to widen the outer edge of the bottom case, but if only the outer edge of the bottom case is widened, there will be a problem of shaking back and forth when it is matched with a large embedded hole. [0003] Aiming at the shaking problem of the bottom case, the existing scheme uses screws and nuts to adjust around the bottom case...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): F24C15/08F24C3/00
CPCF24C3/008F24C15/086
Inventor 黄雷张璐潘叶江
Owner VATTI CORP LTD
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