A cleaning device packaging structure
By integrating the cleaning equipment body, cleaning accessory set, and bracket inside the base station and fixing them with buffer components, the high packaging and logistics costs in existing technologies are solved, achieving efficient utilization of the packaging structure and cost reduction.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SUZHOU YECHEN INTELLIGENT TECHNOLOGY CO LTD
- Filing Date
- 2025-07-03
- Publication Date
- 2026-06-23
AI Technical Summary
The existing packaging structure of cleaning equipment such as handheld vacuum cleaners results in high packaging and logistics costs, making it impossible to demonstrate a price advantage in the international market.
The cleaning equipment body, cleaning accessory set, and bracket are built into the base station, utilizing the internal space of the base station. They are fixed in place by a buffer component and positioned in the base station and packaging box, adapting to the accommodation space of the telescopic tube and floor brush, thus reducing the packaging volume.
It significantly reduces packaging and logistics costs while ensuring that equipment is not damaged during transportation, thus maximizing space utilization.
Smart Images

Figure CN224393516U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of cleaning equipment packaging technology, and specifically to a cleaning equipment packaging structure. Background Technology
[0002] Handheld vacuum cleaners and other cleaning equipment are widely used for indoor cleaning due to their ease of use. When used with different cleaning attachments, they can vacuum floors, corners, crevices, and other areas, achieving 360-degree cleaning without dead angles. Higher-end models are usually equipped with a base station, which is used to automatically collect and empty the dust inside the device. It can also be equipped with a charging module, so that the device can automatically charge after connecting to the base station. Because the main components of the whole product are large and there are many types of accessories, this type of equipment on the market is currently packaged separately. For example, the cleaning equipment and the base station are packaged independently, and the cleaning attachments can be packaged separately or included in one of the packages. If the cleaning equipment, base station, and cleaning attachments are all separated in one box, the packaging volume will be too large. Regardless of the method used, the overall packaging and logistics costs are relatively high, which makes it impossible to reflect a price advantage in the international market. Therefore, the packaging structure of this type of product urgently needs to be improved. Utility Model Content
[0003] The purpose of this invention is to provide a packaging structure for cleaning equipment to solve the problems mentioned in the background art.
[0004] To achieve the above objectives, this utility model provides the following technical solution:
[0005] A cleaning equipment packaging structure includes a cleaning equipment and a packaging box. The cleaning equipment includes a cleaning body and a base station. The cleaning body includes a main body, a telescopic tube, a floor brush, and a cleaning accessory assembly. It also includes a bracket for connecting the main body and the base station. The size of the packaging box is adapted to the base station. The main body, the cleaning accessory assembly, and the bracket are built into the base station and fixed inside the base station by a built-in buffer assembly. The base station and the packaging box have accommodating spaces on one side and the bottom, respectively, for the telescopic tube and the floor brush, and are positioned between the two by the buffer assembly.
[0006] Furthermore, it also includes an extension tube, which is distributed side by side with the telescopic tube on both sides of the floor brush.
[0007] Furthermore, the base station forms a contact panel on one side of the telescopic tube and the extension tube. The contact panel has positioning recesses corresponding to the telescopic tube, the extension tube, and the ground brush, respectively. The positioning recesses and the buffer component group together limit the movement of the three components.
[0008] Furthermore, the buffer component assembly includes a middle component and L-shaped strips located on both sides thereon.
[0009] Furthermore, the base station includes a housing, and the housing has a detachable housing cover on the outside. The housing cover is located on the side opposite to the contact panel. A negative pressure motor receiving groove protrudes from the lower side of the inside of the housing, and the built-in buffer assembly avoids the negative pressure motor receiving groove.
[0010] Furthermore, the built-in buffer assembly includes a female part and a male part, which respectively form positioning cavities for the corresponding body, bracket and cleaning accessory group. The body and bracket are arranged left and right, and the bracket is located above the negative pressure motor receiving slot.
[0011] Furthermore, the body is also equipped with a removable battery pack, which is placed in a bracket via a cushioning pad.
[0012] Furthermore, the cleaning accessory assembly includes a round brush head and a flat brush head, with the round brush head located in the female part and the flat brush head located in the male part.
[0013] This utility model makes full use of the internal space of the base station, and integrates the body, cleaning accessory group and bracket inside the base station. The telescopic tube and floor brush are placed on one side and bottom of the base station and packaging respectively, forming corresponding limits. The size of the packaging box is basically compatible with the base station to meet the packaging requirements of the whole product, thereby greatly reducing packaging and logistics costs. Attached Figure Description
[0014] Figure 1 This is a schematic diagram of the cleaning equipment.
[0015] Figure 2 This is an overall diagram of the packaging structure for the cleaning equipment;
[0016] Figure 3 This is a diagram showing the state of the base station separated from its packaging box.
[0017] Figure 4 This is a diagram of the internal packaging structure of a base station;
[0018] Figure 5 This is a schematic diagram of the base station after it has been completely disassembled.
[0019] Figure 6 This is a schematic diagram from another angle after the base station has been completely disassembled.
[0020] Figure 7 This is a schematic diagram showing the battery pack and bracket after disassembly. Detailed Implementation
[0021] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.
[0022] like Figure 1 The cleaning device 1 shown includes a cleaning body 3 and a base station 4. The cleaning body 3 includes a body 31, a telescopic tube 32, a floor brush 33, and an extension tube 34. A battery pack 311 is detachably provided at the end of the body 31. It also includes a bracket 5 for connecting the body 31 and the base station 4. The figure shows the state of the cleaning body 3 and the base station 4 being connected. When cleaning is required, the cleaning body 3 can be removed. In addition, it is equipped with a cleaning accessory group. The telescopic tube 32 and the floor brush 33 connected to the body 31 can be removed and replaced with other cleaning accessories as needed. The bracket 5 is used to support the cleaning body 3. After the cleaning body 3 is removed, the bracket 5 can also be removed from the base station 4. The base station 4 is a rectangular box shape.
[0023] like Figure 2-6 The cleaning equipment packaging structure shown includes a cleaning equipment 1 and a packaging box 2. The cleaning equipment 1 is disassembled and placed inside the packaging box 2. The size of the packaging box 2 is adapted to the base station 4. The main body 31, cleaning accessory group and bracket 5 are built into the base station 4 and fixed inside the base station 4 by the built-in buffer component 6. The base station 4 and the bottom of the packaging box 2 have accommodating space for the telescopic tube 32 and the floor brush 33, respectively, and are positioned between the two by the buffer component group 7. Since some parts of the disassembled cleaning equipment 1 are placed inside the base station 4, the internal space of the base station 4 is fully utilized. The telescopic tube 32 and the floor brush 33 are close to the side and bottom of the base station 4 and hardly occupy the internal space of the packaging box 2. This packaging structure maximizes the use of internal space while accommodating all components.
[0024] Specifically, it also includes an extension tube 34, which is arranged side-by-side with the telescopic tube 32 on both sides of the floor brush 33. It should be noted that the extension tube 34 is not mandatory. Figure 1 As shown, the base station 4 is placed on the ground. The extension tube 34 installed between the bracket 5 and the base station 4 can make the cleaning body 3 stand upright on the base station 4, avoiding the trouble caused by disassembling and assembling the telescopic tube 32 and the floor brush 33. However, if the base station 4 is wall-mounted, as long as the wall height is appropriate, there is no need to equip it with the extension tube 34. Without the extension tube 34, the telescopic tube 32 can be placed on one side of the floor brush 33.
[0025] Specifically, base station 4 forms a contact panel 41 on one side of telescopic tube 32 and extension tube 34. The contact panel 41 has positioning recesses 411 corresponding to telescopic tube 32, extension tube 34 and ground brush 33 respectively. The positioning recesses 411 and the buffer component group 7 together limit the three components. Furthermore, the buffer component group 7 includes an intermediate component 71 and L-shaped strips 72 located on both sides of it. The vertical part of the L-shaped strip 72 and the intermediate component 71 respectively limit the telescopic tube 32 and extension tube 34. The horizontal part of the L-shaped strip 72 limits the ground brush 33 to the left and right. After the base station 4 is placed in the rear packaging box 2, the positioning recesses 411 can stably place the above three components inside the packaging box 2, avoiding damage during transportation.
[0026] Specifically, base station 4 includes a housing 40, with a detachable housing cover 42 on the outside of the housing 40. The housing cover 42 is located on the side opposite to the contact panel 41. The top of the housing 40 has an interface 43 for connecting bracket 5, which is used to connect a dust bag (not shown in the figure). A negative pressure motor receiving groove 44 protrudes from the lower side of one side of the interior of the housing 40, and a negative pressure motor (not shown in the figure) is installed in the negative pressure motor receiving groove 44. Figure 1 In the docking mode, under the negative pressure generated by the negative pressure motor, the dust cup in the cleaning body 3 is recycled into the dust bag. The built-in buffer component 6 avoids the negative pressure motor receiving slot 44. Furthermore, the built-in buffer component 6 includes a female part 61 and a male part 62. The female part 61 and the male part 62 respectively form positioning cavities corresponding to the body 31, the bracket 5 and the cleaning accessory group. After docking, they form a limit on the aforementioned components in the box 40, avoiding damage caused by shaking during transportation. Preferably, the body 31 and the bracket 5 are arranged left and right, and the bracket 5 is located above the negative pressure motor receiving slot 44.
[0027] In this embodiment, since the body 31 is provided with a detachable battery pack 311, preferably, the battery pack 311 is partially placed in the bracket 5 by the buffer pad 8, and the female part 6 and the male part 62 form corresponding limits.
[0028] In this embodiment, the cleaning accessory group includes a round brush head 9 and a flat brush head 10. The round brush head 9 is located in the female part 61, and the flat brush head 10 is located in the male part 62. The female part 6 and the male part 62 respectively form corresponding limiting spaces.
[0029] The cleaning equipment packaging structure provided in this application has a corresponding packaging method: First, the buffer component group 7 is arranged sequentially inside the packaging box 2, and then the floor brush 33, telescopic tube 32, and extension tube 34 are placed accordingly; Second, the mother part 61 is placed inside the box body 40, and the round brush head 9 is placed in the corresponding position of the mother part 61. Then, the battery pack 311, buffer pad 8, and bracket 5 are assembled sequentially and placed into the mother part 61 together with the body 31; Third, the flat brush head 10 is placed in the corresponding position of the male part 62 and then covered onto the mother part 61, and then the box cover plate 42 is closed. At this time, all components placed inside the base station 4 are wrapped by the mother part 61 and the male part 62, which plays a role in shock absorption and cushioning; Finally, the contact panel 41 of the base station 4 is slowly placed into the packaging box 2 with the buffer component group 7 facing it, so that the positioning recess 411 corresponds one-to-one with the floor brush 33, telescopic tube 32, and extension tube 34, and then the packaging box cover is closed to complete the packaging.
[0030] Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the appended claims and their equivalents.
Claims
1. A packaging structure for cleaning equipment, comprising cleaning equipment (1) and a packaging box (2), wherein the cleaning equipment includes a cleaning body (3) and a base station (4), the cleaning body includes a body (31), a telescopic tube (32), a floor brush (33), and a cleaning accessory assembly, and further includes a bracket (5) for connecting the body and the base station, characterized in that, The size of the packaging box is adapted to the base station. The body, cleaning accessory group and bracket are built into the base station and fixed inside the base station by the built-in buffer component (6). The base station and the packaging box have space for the telescopic tube and the floor brush on one side and the bottom respectively, and are positioned between the two by the buffer component group (7).
2. The packaging structure for cleaning equipment as described in claim 1, characterized in that, It also includes an extension tube (34), which is distributed side by side with the telescopic tube on both sides of the floor brush.
3. The packaging structure for cleaning equipment as described in claim 2, characterized in that, The base station forms a contact panel (41) on one side of the telescopic tube and the extension tube. The contact panel has positioning recesses (411) corresponding to the telescopic tube, the extension tube and the ground brush respectively. The positioning recesses and the buffer component group (7) together limit the three.
4. The packaging structure for cleaning equipment as described in claim 3, characterized in that, The buffer assembly includes a middle component (71) and L-shaped strips (72) located on both sides thereon.
5. The packaging structure for cleaning equipment as described in claim 3, characterized in that, The base station includes a housing (40), and a housing cover (42) is detachably provided on the outside of the housing. The housing cover is located on the side opposite to the contact panel (41). A negative pressure motor receiving groove (44) is protruding on the lower side of the inside of the housing. The built-in buffer assembly (6) avoids the negative pressure motor receiving groove.
6. The packaging structure for cleaning equipment as described in claim 5, characterized in that, The built-in buffer assembly includes a female part (61) and a male part (62). The female part and the male part respectively form positioning cavities corresponding to the body, bracket and cleaning accessory group. The body and bracket are arranged left and right, and the bracket is located above the negative pressure motor receiving slot.
7. The packaging structure for cleaning equipment as described in claim 6, characterized in that, The body is also provided with a removable battery pack (311), which is partially placed in a bracket by a buffer pad (8).
8. The packaging structure for cleaning equipment as described in claim 6, characterized in that, The cleaning accessory assembly includes a round brush head (9) and a flat brush head (10), with the round brush head located in the female part (61) and the flat brush head located in the male part (62).