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JP-2026076145-A - Clothing processing equipment

JP2026076145AJP 2026076145 AJP2026076145 AJP 2026076145AJP-2026076145-A

Abstract

[Solution] The garment processing machine comprises a housing 1, a first tab 2 provided inside the housing, a second tab 3 provided inside the housing and above the first tab, and a vibration damping system connected between the housing and the second tab, wherein the distance L1 between the bottom end of the vibration damping system and the bottom plate of the housing is 600 mm to 800 mm. [Effect] By limiting the distance between the bottom end of the vibration damping system and the bottom plate of the housing, the layout of the first tab, the second tab, and the vibration damping system can be made more compact, allowing for full utilization of the limited space inside the housing, increasing the space utilization rate inside the housing, and reducing the overall volume of the garment processing equipment. [Selection Diagram] Figure 1

Inventors

  • ▲陳▼ ▲瑩▼▲華▼
  • 王 ▲ユ▼坤
  • ▲張▼ ▲チ▼

Assignees

  • 小米科技(武漢)有限公司
  • 小米智能家電(武漢)有限公司
  • 北京小米移動軟件有限公司

Dates

Publication Date
20260511
Application Date
20251023
Priority Date
20241023

Claims (10)

  1. A garment processing machine, The casing and A first tab provided inside the aforementioned housing, A second tab is provided inside the housing and is located above the first tab, A vibration damping system connected between the housing and the second tab, wherein the distance L1 between the bottom end of the vibration damping system and the bottom plate of the housing is 600 mm to 800 mm, is provided. A garment processing device characterized by the following features.
  2. The vibration damping system is, A cross beam provided at the upper end of the housing, A vibration damping connecting member is provided, The second tab is connected to the cross beam via the vibration damping connecting member. The garment processing apparatus according to feature 1.
  3. The crossbeam is fixed to the side plate and/or top plate of the housing. The garment processing apparatus according to feature 2.
  4. The distance L2 between the crossbeam and the top plate of the housing is 15 mm to 30 mm. The garment processing apparatus according to claim 2 or 3.
  5. The distance L3 between the top of the second tab and the top plate of the housing is 20 mm to 50 mm. The garment processing apparatus according to feature 4.
  6. The distance L4 between the bottom end of the second tab and the bottom plate of the housing is 500 mm to 665 mm. The garment processing apparatus according to feature 4.
  7. The side plate comprises a first side plate and a second side plate provided opposite each other, and both ends of the cross beam are connected to the first side plate and the second side plate, respectively. The garment processing apparatus according to feature 3.
  8. The vibration damping connecting member is a suspension spring and/or a damping member and/or a screw. The garment processing apparatus according to feature 2.
  9. The second tab is provided on the side and above the first tab, and the diameter of the first tab is greater than the diameter of the second tab. The garment processing apparatus according to feature 1.
  10. The diameter of the first tab is 500 mm to 545 mm, and the diameter of the second tab is 150 mm to 200 mm. The garment processing apparatus according to feature 9.

Description

This disclosure relates to the washing machine technology, and more particularly to garment processing equipment. As people's living standards improve, their functional needs for garment processing equipment are increasing, and the variety and number of components in these machines are also growing. Therefore, research is being conducted on how to arrange the washing tub, vibration damping system, and other components within the limited space of garment processing equipment. To overcome the problems present in related technologies, this disclosure provides garment processing equipment. According to a first embodiment of the present disclosure, a garment processing machine is provided, comprising: a housing; a first tab provided within the housing; a second tab provided within the housing and above the first tab; and a vibration damping system connected between the housing and the second tab, wherein the distance L1 between the bottom end of the vibration damping system and the bottom plate of the housing is 600 mm to 800 mm. Selectively, the vibration damping system includes a crossbeam provided at the upper end of the housing, The system comprises a vibration damping connecting member and the second tab, which is connected to the cross beam via the vibration damping connecting member. Selectively, the crossbeam is fixed to the side plate and/or top plate of the housing. Selectively, the distance L2 between the crossbeam and the top plate of the housing is 15 mm to 30 mm. Selectively, the distance L3 between the top of the second tab and the top plate of the housing is 20 mm to 50 mm. Selectively, the distance L4 between the bottom end of the second tab and the bottom plate of the housing is 500 mm to 665 mm. Selectively, the side plate comprises a first side plate and a second side plate arranged opposite each other, and both ends of the cross beam are connected to the first side plate and the second side plate, respectively. Selectively, the vibration damping connecting member is a suspension spring and/or a damping member and/or a screw. Selectively, the second tab is provided above and to the side of the first tab, and the diameter of the first tab is greater than the diameter of the second tab. Selectively, the diameter of the first tab is 500 mm to 545 mm, and the diameter of the second tab is 150 mm to 200 mm. The technical solution provided by the embodiments disclosed herein can have the following beneficial effects: By limiting the distance between the bottom end of the vibration damping system and the bottom plate of the housing, the layout of the first tab, the second tab, and the vibration damping system can be made more compact, allowing for full utilization of the limited space within the housing, increasing the space utilization rate within the housing, and reducing the overall volume of the garment processing machine. The first tab, the second tab, the vibration damping system, and other components can be arranged as much as possible within the limited space within the garment processing machine, avoiding excessive increases in the size of the housing and preventing the overall size of the garment processing machine from becoming too large and occupying too much space. Please understand that the above general descriptions and the detailed descriptions below are illustrative and explanatory, and do not limit this disclosure. The drawings accompanying this specification are incorporated herein to constitute part of this specification, and are used to illustrate examples of the present disclosure and to illustrate the principles of this disclosure together with this specification. This is a schematic diagram of a garment processing machine as shown in one exemplary embodiment. This is a schematic diagram of a garment processing machine as shown in one exemplary embodiment. This is a schematic assembly diagram of the second tab and vibration damping system in a garment processing machine as shown in an exemplary embodiment. Herein, exemplary embodiments are described, and these examples are shown in the drawings. Where the following description relates to the drawings, unless otherwise indicated, the same numbers in different drawings represent the same or similar elements. The embodiments described in the following exemplary embodiments do not represent all embodiments consistent with the embodiments of this disclosure. Rather, they are merely examples of apparatus and methods consistent with some aspects of the embodiments of this disclosure described in detail in the appended claims. In this disclosure, unless otherwise stated, the directional terms used, such as "up, down, left, right," are typically defined in the drawing orientation, and "inside, outside" refer to the inside and outside of the contour of each part itself. The terms "first, second" are used to distinguish one element from another and do not imply order or importance. With the advancement of garment processing equipment, th