A layout-optimized cleaning machine

By setting up multi-layered cavities and interconnected water supply channels in the cleaning machine, the layout of the cleaning machine is optimized, solving the problem of insufficient cavities in the existing technology, and achieving more efficient cleaning and space utilization.

CN224475435UActive Publication Date: 2026-07-10YONGKANG SUOREN ELECTRIC CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
YONGKANG SUOREN ELECTRIC CO LTD
Filing Date
2025-07-18
Publication Date
2026-07-10

AI Technical Summary

Technical Problem

In existing cleaning machines, the water intake bracket and nozzle are both located inside the cleaning chamber, which reduces the internal storage space of the cleaning chamber, resulting in a smaller carrying capacity and reduced cleaning efficiency.

Method used

A cleaning machine with optimized layout is designed by setting first and second receiving cavities inside the outer shell of the machine body, a cleaning cavity inside the inner shell, an assembly structure and a connected water supply channel between the water supply bracket and the spray assembly, the spray assembly rinsing in the cleaning cavity, and the water supply bracket located in the second receiving cavity, thereby increasing the volume of the cleaning cavity.

Benefits of technology

Without increasing the overall size of the cleaning machine, the capacity of the cleaning chamber to hold the items to be cleaned has been increased, cleaning efficiency has been improved, and the compactness of the internal structure and space utilization have been optimized.

✦ Generated by Eureka AI based on patent content.

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Patent Text Reader

Abstract

The utility model relates to the technical field of cleaning machine, especially a layout optimization's cleaning machine, including machine body shell, cleaning inner shell and cleaning device, be equipped with first containing cavity in the machine body shell, the second containing cavity of first containing cavity lower part can be connected and establish, be equipped with the cleaning cavity of cleaning inner shell for containing the article and spray assembly of waiting for cleaning, cleaning device includes water supply support, the spray assembly of being equipped in the cleaning cavity, be equipped with with the assembly structure of connecting of cleaning inner shell between spray assembly and water supply support, be equipped with the water supply flow channel of intercommunication between water supply support, assembly structure and spray assembly, through first containing cavity containing cleaning inner shell, spray assembly can be in the cleaning cavity to the article of waiting for cleaning and carry out the washing cleaning, and through the second containing cavity containing water supply support and other electrical mechanism such as water pump, water supply support is located the outside of cleaning inner shell, is favorable for increasing the volume in the cleaning cavity, increases the containing capacity of the article of waiting for cleaning of cleaning cavity, promotes the cleaning efficiency of cleaning machine.
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Description

Technical Field

[0001] This utility model relates to the technical field of cleaning machines, and in particular to a cleaning machine with optimized layout. Background Technology

[0002] In daily life, some cleaning machines can be used to clean items such as baby bottles, nipples, and breast pump accessories. Existing cleaning machines generally have a cleaning chamber containing multiple nozzles that eject high-pressure water jets. These nozzles are connected to a water supply bracket, which is usually located inside the cleaning chamber along with the nozzles. This reduces the internal space of the cleaning chamber, consequently decreasing the space available for the items to be cleaned and thus reducing the cleaning efficiency of the machine.

[0003] This utility model was proposed in response to the shortcomings of the existing technology. Utility Model Content

[0004] This invention addresses the problem mentioned above where the water intake bracket and nozzle are both located inside the cleaning chamber of existing cleaning machines, reducing the internal storage space of the cleaning chamber and consequently decreasing the space available for items to be cleaned, thus reducing the cleaning efficiency of the cleaning machine. This invention proposes a cleaning machine with an optimized layout.

[0005] The technical solution adopted by this utility model to solve its technical problem is:

[0006] An optimized cleaning machine includes a machine shell, a cleaning inner shell disposed within the machine shell, and a cleaning device. The machine shell has a first receiving cavity for accommodating the cleaning inner shell and a second receiving cavity communicatively disposed below the first receiving cavity. The cleaning inner shell contains a cleaning cavity. The cleaning device includes a water supply bracket disposed within the second receiving cavity and a spray assembly disposed within the cleaning cavity. An assembly structure connecting the spray assembly and the water supply bracket to the cleaning inner shell is provided. A communicating water supply channel is provided between the water supply bracket, the assembly structure, and the spray assembly.

[0007] As described above, in a layout-optimized cleaning machine, the assembly structure includes a first assembly part disposed on the water supply bracket, a second assembly part disposed on the bottom of the cleaning inner shell, and a third assembly part disposed on the spray assembly, wherein the first assembly part, the second assembly part, and the third assembly part are correspondingly connected.

[0008] As described above, in a layout-optimized cleaning machine, the bottom of the inner cleaning shell is further provided with a first connecting part, which extends into the second receiving cavity, and the water supply bracket is provided with a second connecting part corresponding to the first connecting part.

[0009] As described above, in a layout-optimized cleaning machine, the second assembly includes a mounting post located at the bottom of the inner cleaning shell, the mounting post extending longitudinally, the spray assembly being connected to the top of the mounting post via the third assembly, and the water supply bracket being connected to the bottom of the mounting post via the first assembly.

[0010] In a cleaning machine with optimized layout as described above, the second assembly part includes a mounting port located at the bottom of the inner cleaning shell, and the first assembly part extends into the cleaning chamber through the mounting port and connects with the third assembly part.

[0011] As described above, in a layout-optimized cleaning machine, the bottom of the inner cleaning shell is further provided with a third connecting part, which extends into the cleaning chamber, and the spray assembly is provided with a fourth connecting part corresponding to the third connecting part.

[0012] As described above, in a cleaning machine with optimized layout, the water supply bracket has a clearance opening extending longitudinally.

[0013] As described above, in a layout-optimized cleaning machine, there are a plurality of spray components, and the assembly structure is configured to correspond one-to-one with each of the spray components; at least one first assembly part is located on the side of the water supply bracket away from the clearance port, and / or, at least one first assembly part is located inside the clearance port.

[0014] In a cleaning machine with optimized layout as described above, the first assembly extends longitudinally upward from the water supply bracket, and a clearance space is formed between the water supply bracket and the bottom of the cleaning inner shell, which communicates with the second receiving cavity and the clearance port.

[0015] As described above, in a layout-optimized cleaning machine, the water supply bracket is further provided with a fifth connecting part, and the fifth connecting part is provided with a water inlet channel communicating with the water supply channel.

[0016] Compared with the prior art, the beneficial effects of this utility model are:

[0017] This utility model provides a cleaning machine with optimized layout, including a machine shell, a cleaning inner shell disposed within the machine shell, and a cleaning device. The machine shell has a first receiving cavity for accommodating the cleaning inner shell and a second receiving cavity disposed below the first receiving cavity. The cleaning inner shell contains a cleaning cavity. The cleaning device includes a water supply bracket disposed within the second receiving cavity and a spray assembly disposed within the cleaning cavity. An assembly structure connecting the spray assembly and the water supply bracket to the cleaning inner shell is provided. A water supply channel is provided connecting the water supply bracket, the assembly structure, and the spray assembly. During assembly, the cleaning inner shell is accommodated through the first receiving cavity. The cleaning inner shell contains a cleaning cavity for accommodating items to be cleaned and the spray assembly. The spray assembly can rinse and clean the items to be cleaned within the cleaning cavity. The water supply bracket and other electrical mechanisms such as a water pump are accommodated through the second receiving cavity. The water supply bracket is located within the second receiving cavity and outside the cleaning inner shell, which helps to increase the internal volume of the cleaning cavity. This increases the capacity of the cleaning cavity to accommodate items to be cleaned without increasing the overall size of the cleaning machine, thereby improving the cleaning efficiency of the cleaning machine.

[0018] The present invention will be further described below with reference to the accompanying drawings and specific embodiments. Attached Figure Description

[0019] Figure 1 Disassembly of the cleaning machine of this utility model Figure 1 ;

[0020] Figure 2 Disassembly of the cleaning machine of this utility model Figure 2 ;

[0021] Figure 3 for Figure 1 Sectional view A-A in the middle;

[0022] Figure 4 This is a perspective view of the cleaning device of this utility model;

[0023] Figure 5 This is a top view of the cleaning device of this utility model;

[0024] Figure 6 for Figure 5 The B-B section view in the diagram;

[0025] Figure 7 This is a schematic diagram of an embodiment of the second assembly part of this utility model;

[0026] Figure 8 This is a schematic diagram of another embodiment of the second assembly part of this utility model;

[0027] Figure 9 The three-dimensional water supply bracket of this utility model Figure 1 ;

[0028] Figure 10 The three-dimensional water supply bracket of this utility model Figure 2 ;

[0029] Figure 11 This is a perspective view of the spray assembly of this utility model. Detailed Implementation

[0030] The embodiments of this utility model will now be described in detail with reference to the accompanying drawings. The described embodiments are merely some, not all, of the embodiments of this utility model. All other embodiments obtained by those skilled in the art based on the embodiments of this utility model without inventive effort are within the scope of protection of this utility model.

[0031] It should be noted that all directional indicators (such as up, down, left, right, front, back, etc.) in this utility model embodiment are only used to explain the relative positional relationship and movement of each component in a certain specific posture (as shown in the figure). If the specific posture changes, the directional indicator will also change accordingly.

[0032] Furthermore, the use of terms such as "first" and "second" in this utility model is for descriptive purposes only and should not be construed as indicating or implying their relative importance or implicitly specifying the number of technical features indicated. Therefore, a feature defined as "first" or "second" may explicitly or implicitly include at least one of that feature. Additionally, the technical solutions of the various embodiments can be combined with each other, but only on the basis of being achievable by those skilled in the art. When the combination of technical solutions is contradictory or impossible to implement, such a combination of technical solutions should be considered non-existent and not within the scope of protection claimed by this utility model.

[0033] Example 1:

[0034] like Figures 1 to 7 , Figures 9 to 11As shown, this utility model provides a cleaning machine with optimized layout, including a machine shell 1, a cleaning inner shell 2 disposed within the machine shell 1, and a cleaning device 3. The machine shell 1 has a first receiving cavity 11 for accommodating the cleaning inner shell 2 and a second receiving cavity 12 communicatively disposed below the first receiving cavity 11. The cleaning inner shell 2 has a cleaning cavity 21. The cleaning device 3 includes a water supply bracket 31 disposed within the second receiving cavity 12 and a spray assembly 32 disposed within the cleaning cavity 21. An assembly structure 4 connecting the spray assembly 32 and the water supply bracket 31 to the cleaning inner shell 2 is provided. A water supply channel 5 communicating between the water supply bracket 31, the assembly structure 4, and the spray assembly 32 is provided. In this embodiment, the machine shell 1 has an inner cavity, which includes a first receiving cavity 11 and a second receiving cavity 12 distributed vertically. During assembly, the first receiving cavity 11 is used to accommodate the cleaning inner shell 2. A receiving cavity 11 accommodates the inner cleaning shell 2. The inner cleaning shell 2 has a cleaning chamber 21 for accommodating the items to be cleaned and the spray assembly 32. The spray assembly 32 can rinse and clean the items to be cleaned in the cleaning chamber 21. The second receiving cavity 12 accommodates the water supply bracket 31 and other electrical mechanisms such as the water pump. The water supply bracket 31 is located inside the second receiving cavity 12 and outside the inner cleaning shell 2, which helps to increase the internal volume of the cleaning chamber 21. This increases the capacity of the cleaning chamber 21 to accommodate the items to be cleaned without increasing the overall size of the cleaning machine, thereby improving the cleaning efficiency of the cleaning machine. Moreover, the assembly structure 4 connects the spray assembly 32 and the water supply bracket 31, which are located inside and outside the cleaning chamber 21 respectively, and supplies water to the spray assembly 32 through the water supply channel 5, ensuring the spray rinsing operation of the spray assembly 32.

[0035] Furthermore, such as Figures 3 to 5As shown, the assembly structure 4 includes a first assembly part 41 located on the water supply bracket 31, a second assembly part 42 located at the bottom of the cleaning inner shell 2, and a third assembly part 43 located on the spray assembly 32. The first assembly part 41, the second assembly part 42, and the third assembly part 43 are correspondingly connected to ensure that the spray assembly 32 is fixedly installed inside the cleaning chamber 21 through the assembly structure 4, and the water supply bracket 31 is fixedly installed on the outer side of the bottom of the cleaning inner shell 2 through the assembly structure 4, thereby ensuring the normal use of the cleaning machine. Furthermore, the water supply bracket 31 is connected to the lower side of the cleaning inner shell 2 through the assembly structure 4, which helps to improve the compactness of the internal structure of the outer shell 1, thereby improving the internal structure of the outer shell 1. Space utilization efficiency; the water supply channel 5 extends between the first assembly part 41, the second assembly part 42 and the third assembly part 43 to ensure that the water supply channel 5 supplies water to the spray assembly 32 normally, thereby ensuring the rinsing operation of the spray assembly 32. The water supply bracket 31 is provided with a first channel 51, which extends to the inside of the first assembly part 41. The second assembly part 42 is provided with a second channel 52. The spray assembly 32 is provided with a third channel 53, which extends to the inside of the third assembly part 43. The first channel 51, the second channel 52 and the third channel 53 are connected to form the water supply channel 5, and water is supplied to the spray assembly 32 through the water supply channel 5.

[0036] In other alternative embodiments, such as Figure 5 As shown, there are several spray components 32, and the assembly structure 4 is arranged in a one-to-one correspondence with each spray component 32. That is, there are several first assembly parts 41 and second assembly parts 42, and the first assembly parts 41 and second assembly parts 42 are arranged in a one-to-one correspondence with each third assembly part 43. In this embodiment, by setting the water supply bracket 31 in the second receiving cavity 12, the cleaning cavity 21 can accommodate multiple spray components 32, which is beneficial to improving the cleaning efficiency of the cleaning device 3.

[0037] like Figure 7As shown, this utility model provides an optional embodiment of the assembly structure 4. The second assembly part 42 includes a mounting post 42a disposed at the bottom of the cleaning inner shell 2. The mounting post 42a extends longitudinally. The spray assembly 32 is correspondingly connected to the top of the mounting post 42a through the third assembly part 43. The water supply bracket 31 is correspondingly connected to the bottom of the mounting post 42a through the first assembly part 41. By setting the second assembly part 42 as the mounting post 42a, and the mounting post 42a being part of the cleaning inner shell 2, it is advantageous to use the second assembly part 42a to achieve the desired effect. The second assembly part 42 positions the spray assembly 32 and the water supply bracket 31. During the assembly process, the spray assembly 32 and the water supply bracket 31 can be installed separately, and the assembly work of the spray assembly 32 and the water supply bracket 31 can be independent of each other without affecting each other. This reduces the assembly difficulty of the spray assembly 32 and the water supply bracket 31 and improves the assembly efficiency of the spray assembly 32 and the water supply bracket 31. In particular, when there are multiple sets of spray assemblies 32, each spray assembly 32 can be directly installed in the cleaning chamber 21 through the corresponding second assembly part 42, which improves the assembly efficiency of the spray assembly 32.

[0038] Furthermore, the spray assembly 32 is sealed to the top of the second assembly part 42 via the third assembly part 43 to prevent water leakage at the connection between the second assembly part 42 and the third assembly part 43. Optionally, the third assembly part 43 is configured as a sleeve adapted to the mounting post 42a, which is connected to the mounting post 42a. The second assembly part 42 can be sleeved on the outside of the third assembly part 43, or the third assembly part 43 can be sleeved on the outside of the second assembly part 42. This embodiment does not make a specific limitation. The second assembly part 42 and the third assembly part 43 are directly connected to each other so that the spray assembly 32 is fixedly installed on the top of the mounting post 42a. The structure is simple and easy to assemble and disassemble the spray assembly 32. It should be noted that the mounting post 42a extends longitudinally, and the longitudinal direction is consistent with the height direction of the cleaning machine.

[0039] Further optional, such as Figure 3 , 5 As shown in Figure 6, there are several spray components 32. Each spray component 32 is installed inside the corresponding second assembly part 42 through the third assembly part 43. The cleaning machine generally places baby bottles, nipples and other items to be cleaned through corresponding shelves. In order to further increase the carrying space in the cleaning chamber 21, the tops of each spray component 32 are on the same plane to facilitate the installation of shelves inside the cleaning chamber 21, thereby increasing the carrying space for baby bottles and other items to be cleaned.

[0040] In other alternative embodiments, to further improve the connection stability between the water supply bracket 31 and the cleaning inner shell 2, such as... Figure 6 and Figure 7 As shown, the bottom of the inner cleaning shell 2 is also provided with a first connecting part 22, which extends into the second receiving cavity 12. The first connecting part 22 is located on the outer side of the bottom of the inner cleaning shell 2 and is used to connect the water supply bracket 31. The water supply bracket 31 is provided with a second connecting part 311 corresponding to the first connecting part 22. The first connecting part 22 and the second connecting part 311 are detachably connected to each other to further strengthen the water supply bracket 31, improve the installation stability of the water supply bracket 31, and thus improve the water supply stability of the water supply bracket 31 to the spray assembly 32. Optionally, the first connecting part 22 and the second connecting part 311 can be connected by screws, bolts or other connecting accessories.

[0041] Optionally, multiple sets of the first connecting portion 22 and the second connecting portion 311 can be provided to further improve the connection stability between the water supply bracket 31 and the cleaning inner shell 2. Optionally, the second connecting portion 311 can be directly connected to the water supply bracket 31. Alternatively, when there are multiple spray components 32, there are multiple first assembly portions 41. Each first assembly portion 41 is connected to the water supply bracket 31, and each second connecting portion 311 can be provided on one side of each first assembly portion 41. The second connecting portion 311 is directly connected to the first assembly portion 41, which is beneficial for centrally setting the first assembly portion 41 and the second connecting portion 311, simplifying the structure of the water supply bracket 31, thereby improving the convenience of assembling the water supply bracket 31 and improving the disassembly and assembly efficiency of the water supply bracket 31.

[0042] In other alternative embodiments, to further improve the connection stability between the spray assembly 32 and the cleaning inner shell 2, such as... Figure 6 and Figure 7 As shown, the bottom of the inner cleaning shell 2 is also provided with a third connecting part 23, which extends into the cleaning chamber 21. The spray assembly 32 is provided with a fourth connecting part 321 corresponding to the third connecting part 23. The third connecting part 23 is connected to the bottom of the inner cleaning shell 2 and is located in the cleaning chamber 21. The spray assembly 32 is connected through the third connecting part 23. The spray assembly 32 is provided with a fourth connecting part 321 corresponding to the third connecting part 23. The third connecting part 23 and the fourth connecting part 321 are detachably connected to each other, so that the spray assembly 32 is further connected to the inner cleaning shell 2. This helps to further strengthen the spray assembly 32, improve the connection stability of the spray assembly 32, and thus improve the stability of the high-pressure water jet sprayed by the spray assembly 32.

[0043] Further optional, such as Figure 6 As shown, at least one fourth connecting part 321 may be provided, and the fourth connecting part 321 is located on the outside of the third assembly part 43, which helps to simplify the assembly structure 4 of the spray assembly 32, thereby improving the ease of assembly and disassembly of the spray assembly 32.

[0044] Optionally, the third connecting part 23 and the fourth connecting part 321 can be connected by connecting accessories such as screws or bolts.

[0045] On the other hand, since the cleaning machine also includes other electrical mechanisms such as water pumps and heating devices for water supply and drainage, the second receiving cavity 12 accommodates the water pumps, heating devices, and other mechanisms, and the water supply bracket 31 is also set in the second receiving cavity 12. In order to further optimize the internal structural layout of the cleaning machine, the water supply bracket 31 is provided with a clearance opening 312 along the longitudinal direction. During assembly, the clearance opening 312 makes way for other mechanisms in the cleaning machine such as water pumps and heating devices, avoiding mechanical interference inside the cleaning machine, ensuring the normal operation of the cleaning machine, and helping to improve the compactness of the internal structural layout of the cleaning machine, thereby improving the space utilization rate inside the cleaning machine.

[0046] Furthermore, such as Figure 6 and Figure 7 As shown, the first assembly part 41 extends longitudinally upward from the water supply bracket 31. A clearance space 121 is formed between the water supply bracket 31 and the bottom of the inner cleaning shell 2, communicating with the second receiving cavity 12 and the clearance port 312. This clearance space 121 further provides space for other structures such as water pumps and heating devices, thereby further optimizing the internal structural layout of the cleaning machine. In this embodiment, the first assembly part 41 includes a connecting branch pipe connected to the water supply bracket 31 and a connecting sleeve disposed at the end of the connecting branch pipe. The connecting branch pipe extends upward. The first flow channel 51 extends to the inner side of the connecting branch pipe, and the bottom of the second assembly part 42 is fitted to the inner side of the connecting sleeve. The connecting sleeve is provided with a limiting part 411 for positioning the second assembly part 42. The limiting part 411 is used to limit the relative connection position between the second assembly part 42 and the connecting sleeve, thereby ensuring that the water supply bracket 31 and the bottom of the cleaning inner shell 2 are spaced apart and form an appropriate clearance space 121. In addition, a sealing ring can be provided between the connecting sleeve and the second assembly part 42 to avoid water leakage.

[0047] Alternatively, the water supply bracket 31 may be configured as a circular bracket or a frame bracket, and the clearance opening 312 may be located on the inner side of the circular bracket.

[0048] In other alternative embodiments, such as Figure 9 and Figure 10 As shown, when there are multiple spray components 32, at least one first assembly part 41 is located on the side of the water supply bracket 31 away from the relief port 312, and / or at least one first assembly part 41 is located inside the relief port 312; specifically, each first assembly part 41 can be located on the side of the water supply bracket 31 away from the relief port 312, or each first assembly part 41 can be located inside the relief port 312, or a portion of the first assembly parts 41 can be located on the side of the water supply bracket 31 away from the relief port 312, and another portion of the first assembly parts 41 can be located inside the relief port 312; this facilitates the organization of the layout of multiple spray components 32 inside the cleaning chamber 21, making the internal structure of the cleaning chamber 21 more concise and orderly, thereby increasing the accommodating space inside the cleaning chamber 21, and thus enabling the cleaning chamber 21 to accommodate more spray components 32, improving the cleaning efficiency of the cleaning machine.

[0049] On the other hand, such as Figure 9 and Figure 10 As shown, the water supply bracket 31 is further provided with a fifth connecting part 313, which is used to connect the washing water output end of the water pump. The fifth connecting part 313 is provided with a water inlet channel 3131 that communicates with the water supply channel 5. The water inlet channel 3131 extends downward from the bottom of the water supply bracket 31 to facilitate the installation of the water pump. In practical applications, washing water is input into the water supply channel 5 through the water inlet channel 3131, and the washing water flows along the water supply channel 5 to the spray assembly 32 and is ejected to realize the water spray rinsing of the cleaning device 3. By having each spray assembly 32 share a connected water supply channel 5, it is beneficial to simplify the water supply circuit structure and water pump structure in the cleaning machine, thereby reducing the energy consumption of the cleaning machine. Further optionally, the fifth connecting part 313 is provided on one side of any of the first assembly parts 41, which is beneficial to simplify the structure of the water supply bracket 31, thereby reducing the volume of the water supply bracket 31 and further optimizing the structural layout inside the cleaning machine.

[0050] On the other hand, this utility model provides one optional embodiment of the spray assembly 32, such as... Figure 11As shown, the spray assembly 32 includes a first spray arm 322, which is vertically arranged. The third flow channel 53 extends to the inner side of the first spray arm 322, and the top of the first spray arm 322 is provided with a plurality of first water spray holes 3221 communicating with the third flow channel 53. Each first water spray hole 3221 has a different spray direction, which enables the spray assembly 32 to achieve spraying in multiple directions and angles, which is beneficial to improving the rinsing efficiency of the spray assembly 32. Furthermore, the third assembly part 43 is provided at the bottom of the first spray arm 322, and the first spray arm 322 is detachably and sealingly connected to the top of the second assembly part 42 through the third assembly part 43.

[0051] To further improve the rinsing efficiency of the spray assembly 32, this utility model provides another optional embodiment of the spray assembly 32, such as... Figure 11 As shown, the spray assembly 32 further includes a second spray arm 323 disposed below the first spray arm 322. The second spray arm 323 has at least one and extends radially outward along the first spray arm 322. The second spray arm 323 has a fourth flow channel 54 communicating with the third flow channel 53. The top of the second spray arm 323 also has at least one second water spray hole 3231 communicating with the fourth flow channel 54. The periphery of the first spray arm 322 has a communication port 3222 communicating with the third flow channel 53 and the fourth flow channel 54. Further optionally, the second spray arm 323 can be fixedly disposed below the first spray arm 322. Alternatively, the second spray arm 323 can be rotatably disposed below the first spray arm 322 to further increase the spray direction and spray angle of the spray assembly 32, thereby improving the rinsing efficiency of the spray assembly 32.

[0052] Example 2:

[0053] This utility model provides another optional embodiment of the assembly structure 4. The difference between this second embodiment and the first embodiment is that, Figure 8 As shown, the second assembly part 42 includes an installation port 42b located at the bottom of the inner cleaning shell 2. The first assembly part 41 extends into the cleaning chamber 21 through the installation port 42b and is connected to the third assembly part 43, which helps to simplify the structure of the inner cleaning shell 2. The second flow channel 52 is located in the installation port 42b. During assembly, the water supply bracket 31 can be inserted into the bottom of the inner cleaning shell 2 through the installation port 42b and connected to the first connecting part 22 through the second connecting part 311 to fix the water supply bracket 31. Then, the spray assembly 32 is installed on the top of the first assembly part 41 so that the spray assembly 32 is installed in the cleaning chamber 21. The connection method is simple and facilitates the disassembly and assembly of the spray assembly 32 and the water supply bracket 31.

[0054] Furthermore, the first connecting part 22 extends downward from the bottom of the inner cleaning shell 2. During the production process, the installation position of the water supply bracket 31 can be adjusted by adjusting the height of the first connecting part 22, so that an appropriate clearance space 121 can be formed between the water supply bracket 31 and the inner cleaning shell 2, which facilitates the installation of other electrical mechanisms.

[0055] The above examples are merely illustrative of the technical content of this utility model to facilitate reader understanding, but do not imply that the implementation of this utility model is limited to these embodiments. Any technical extensions or re-creations made based on this utility model are protected by this utility model. The scope of protection of this utility model is defined by the claims.

Claims

1. A cleaning machine with optimized layout, characterized in that, The device includes a housing (1), a cleaning inner shell (2) disposed inside the housing (1), and a cleaning device (3). The housing (1) is provided with a first receiving cavity (11) for accommodating the cleaning inner shell (2) and a second receiving cavity (12) disposed in the lower part of the first receiving cavity (11). The cleaning inner shell (2) is provided with a cleaning cavity (21). The cleaning device (3) includes a water supply bracket (31) disposed in the second accommodating cavity (12) and a spray assembly (32) disposed in the cleaning cavity (21). An assembly structure (4) connected to the cleaning inner shell (2) is provided between the spray assembly (32) and the water supply bracket (31). A water supply channel (5) is provided between the water supply bracket (31), the assembly structure (4) and the spray assembly (32). The assembly structure (4) includes a first assembly part (41) provided on the water supply bracket (31), a second assembly part (42) provided at the bottom of the cleaning inner shell (2) and a third assembly part (43) provided on the spray assembly (32), and the first assembly part (41), the second assembly part (42) and the third assembly part (43) are connected to each other.

2. The optimized layout cleaning machine as described in claim 1, characterized in that, The bottom of the cleaning inner shell (2) is also provided with a first connecting part (22), which extends into the second receiving cavity (12). The water supply bracket (31) is provided with a second connecting part (311) corresponding to the first connecting part (22).

3. A layout-optimized cleaning machine as described in claim 1 or 2, characterized in that, The second assembly part (42) includes a mounting post (42a) located at the bottom of the cleaning inner shell (2), the mounting post (42a) extending longitudinally, the spray assembly (32) being connected to the top of the mounting post (42a) via the third assembly part (43), and the water supply bracket (31) being connected to the bottom of the mounting post (42a) via the first assembly part (41).

4. A layout-optimized cleaning machine as described in claim 1 or 2, characterized in that, The second assembly part (42) includes a mounting port (42b) located at the bottom of the cleaning inner shell (2), and the first assembly part (41) extends into the cleaning chamber (21) through the mounting port (42b) and is connected to the third assembly part (43).

5. The optimized layout cleaning machine as described in claim 1, characterized in that, The bottom of the cleaning inner shell (2) is also provided with a third connecting part (23), which extends into the cleaning chamber (21). The spray assembly (32) is provided with a fourth connecting part (321) corresponding to the third connecting part (23).

6. The optimized layout cleaning machine as described in claim 1, characterized in that, The water supply bracket (31) has a clearance opening (312) extending longitudinally.

7. The optimized layout cleaning machine as described in claim 6, characterized in that, The spray assembly (32) is provided in a plurality of units, and the assembly structure (4) is provided in a one-to-one correspondence with each spray assembly (32); at least one first assembly part (41) is provided in the water supply bracket (31) on the side away from the relief port (312), and / or, at least one first assembly part (41) is provided inside the relief port (312).

8. The optimized layout cleaning machine as described in claim 6, characterized in that, The first assembly part (41) extends longitudinally upward from the water supply bracket (31), and a clearance space (121) is formed between the water supply bracket (31) and the bottom of the cleaning inner shell (2) that communicates with the second receiving cavity (12) and the clearance port (312).

9. The optimized layout cleaning machine as described in claim 1, characterized in that, The water supply bracket (31) is also provided with a fifth connecting part (313), and the fifth connecting part (313) is provided with an inlet channel (3131) that communicates with the water supply channel (5).