A new toy sweeper structure

CN224388055UActive Publication Date: 2026-06-23吴键扬

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
吴键扬
Filing Date
2025-07-26
Publication Date
2026-06-23

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  • Figure CN224388055U_ABST
    Figure CN224388055U_ABST
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Abstract

A novel toy sweeper structure, comprising a vehicle body, an air suction fan, a sweeping device and a garbage can dumping mechanism, can fully imitate various functions of a garbage truck, the vehicle body is provided with a bottom dust suction structure and a handheld dust suction structure, the vehicle body is internally provided with a dust suction cavity, the air suction fan is installed in the dust suction cavity to separate the dust suction cavity into an upper chamber and a lower chamber, the air suction fan is located in the upper chamber, the air suction fan is located in the lower chamber, the bottom dust suction structure comprises a bottom dust suction port and a dust suction channel, the bottom dust suction port is arranged at the bottom of the vehicle body, the dust suction channel is connected with the upper chamber and the bottom dust suction port, the handheld dust suction structure comprises a dust suction hose and a handheld suction head, the dust suction hose is connected with the handheld suction head and the upper chamber, the upper chamber is internally provided with a switching mechanism, the end of the dust suction hose and the dust suction channel is connected with the switching mechanism, the bottom dust suction state and the handheld dust suction state can be switched through the switching mechanism, and the playability is higher.
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Description

Technical Field

[0001] This utility model relates to the field of toys, and in particular to a toy cleaning vehicle. Background Technology

[0002] The market offers a wide variety of toys, ranging from traditional to high-tech products, which are very popular with children. Among these, role-playing toys that mimic adult work (such as traffic police directing, doctor diagnosis, and kitchen simulation) are particularly favored because they allow children to learn social roles and basic skills through play. However, current cleaning simulation toys (such as toy sweepers) still have significant limitations: limited functionality, weak interactivity, and generally low playability, failing to meet the modern family's demand for "edutainment." Utility Model Content

[0003] The purpose of this invention is to overcome the shortcomings of the existing technology and provide a new type of toy cleaning vehicle structure with high playability.

[0004] To achieve the above objectives, this utility model adopts the following technical solution: A novel toy cleaning vehicle structure includes a vehicle body, an exhaust fan, a cleaning device, and a trash can tilting mechanism. The vehicle body is equipped with a bottom suction structure and a handheld suction structure. A suction chamber is provided inside the vehicle body. The exhaust fan is installed inside the suction chamber, dividing the suction chamber into an upper chamber and a lower chamber. The air inlet of the exhaust fan is located in the upper chamber, and the air outlet of the exhaust fan is located in the lower chamber. The bottom suction structure includes a bottom suction port and a suction channel. The bottom suction port is located at the bottom of the vehicle body, and the suction channel connects the upper chamber and the bottom suction port. The handheld suction structure includes a suction hose and a handheld nozzle. The suction hose connects the handheld nozzle and the upper chamber. A switching mechanism is provided inside the upper chamber, and the ends of the suction hose and the suction channel are connected to the switching mechanism.

[0005] Furthermore, the switching mechanism includes a sliding groove, a switching stop, and a sliding switch. The sliding groove is disposed inside the upper chamber, and the switching stop is slidably installed on the sliding groove. The switching stop can slide on the sliding groove. The top of the dust suction channel is located within the sliding range of the bottom of the sliding stop, and the port of the dust suction hose near the vehicle body is located within the sliding range of the side of the sliding stop.

[0006] Furthermore, the top of the suction channel is located in the sliding groove on the side closer to the exhaust fan, and the port of the suction hose is located in the sliding groove on the side away from the exhaust fan.

[0007] Furthermore, the sliding groove is provided with a limit post, the switching stop is provided with a limit groove that is inserted into the limit post, the sliding switch is located on the outside of the vehicle body, and the sliding switch passes through the vehicle body and connects to the side of the switching stop.

[0008] Furthermore, an air outlet is provided at the bottom of the lower chamber.

[0009] Furthermore, the cleaning device includes a cleaning component, a cleaning shaft, a cleaning shaft gear, and a cleaning component driven gear. The cleaning components are arranged in pairs, with the two cleaning components in one pair respectively located on the left and right sides of the bottom of the vehicle body. The cleaning shaft is located between the two cleaning components in the same pair. The cleaning shaft gear has two gears respectively fixed on both sides of the cleaning shaft. A cleaning component gear is provided above the cleaning component to mesh with the cleaning shaft gear.

[0010] Furthermore, the bottom of the vehicle body is provided with wheels and wheel axles. A sweeping component drive gear is fixed on the wheel axle near the sweeping device. The sweeping component driven gear is fixed on the sweeping shaft. A transmission gear is provided between the sweeping component drive gear and the sweeping component driven gear. The transmission gear meshes with the sweeping component drive gear and the sweeping component driven gear.

[0011] Furthermore, the trash can tipping mechanism includes a trash can, a recycling trough, and a compression screw rod. The recycling trough is located on the rear side of the vehicle body, and the trash can is hinged to the rear side of the vehicle body.

[0012] Furthermore, the compression screw is installed in the recycling tank, a screw drive shaft is provided at the bottom of the compression screw, a screw drive gear is fixed on the screw drive shaft, a screw driven gear is provided at the end of the compression screw and meshes with the screw drive gear, and a throttle handle is provided on one side of the screw drive shaft.

[0013] Furthermore, the side of the vehicle body with the vacuum hose is recessed inward to form a placement groove, and a placement groove switch plate is hinged to the placement groove.

[0014] Furthermore, the upper chamber is provided with a top cover.

[0015] Furthermore, a partition mesh is provided above the exhaust fan.

[0016] The beneficial effects of this utility model are as follows: the toy cleaning vehicle is equipped with a bottom suction structure and a handheld suction structure, which can not only simulate the cleaning of a cleaning vehicle, but also simulate the cleaning of an adult using a vacuum cleaner, providing different usage scenarios. In addition, the eraser shavings erased by children while doing homework can also be collected by this product; the cleaning device at the bottom and the trash can tilting mechanism at the rear can further simulate the functions of existing garbage cleaning vehicles, improving playability. Attached Figure Description

[0017] Figure 1 This is a schematic diagram of the overall design of this utility model.

[0018] Figure 2 This is a cross-sectional view of the present invention.

[0019] Figure 3 This is a top view of the present invention in the bottom dust suction state.

[0020] Figure 4 This is a schematic diagram of the switching mechanism.

[0021] Figure 5 This is a schematic diagram of the cleaning device.

[0022] Figure 6 This is a schematic diagram of a garbage dumping mechanism.

[0023] In the diagram: 1. Vehicle body; 11. Placement slot; 12. Placement slot switch panel; 13. Top cover; 14. Recycling slot; 15. Suction chamber; 151. Lower chamber; 152. Upper chamber; 16. Air outlet; 17. Sliding slot; 18. Switch; 19. Battery compartment; 2. Handheld vacuum cleaner structure; 21. Vacuum hose; 22. Handheld nozzle; 3. Bottom vacuum cleaner structure; 31. Suction channel; 32. Bottom suction port; 4. Trash can tilting mechanism; 41. Trash can; 42. Compression screw rod; 421. Driven gear of the auger; 43. Drive shaft of the auger; 431. Throttle handle; 432. Drive gear of the auger; 5. Sweeping device; 51. Sweeping component; 52. Sweeping component gear; 53. Sweeping shaft; 54. Driven gear of the sweeping component; 55. Sweeping shaft gear; 6. Switching mechanism; 61. Switching stop; 62. Slide switch; 63. Limiting groove; 7. Exhaust fan; 71. Divider plate; 8. Wheel; 81. Wheel axle; 82. Drive gear of the sweeping component; 9. Transmission gear. Detailed Implementation

[0024] The present invention will be further described below with reference to the accompanying drawings.

[0025] Example: A novel toy sweeper structure includes a body 1, an exhaust fan 7, a sweeping device 5, and a garbage bin tipping mechanism 4. It can fully mimic the various functions of a garbage truck. The body 1 is equipped with a bottom suction structure 3 and a handheld suction structure 2, which can simulate both sweeper truck suction and handheld vacuum cleaner suction, enhancing its playability. The body 1 has a suction chamber 15 inside, and the exhaust fan 7 is installed within the suction chamber 15, dividing it into an upper chamber 152 and a lower chamber 151. The air inlet of the exhaust fan 7 is located in the upper chamber 152. The exhaust fan 7 has its outlet located in the lower chamber 153. The bottom suction structure 3 includes a bottom suction port 32 and a suction channel 31. The bottom suction port 32 is located at the bottom of the vehicle body 1. The suction channel 31 connects the upper chamber 152 and the bottom suction port 32. The handheld suction structure 2 includes a suction hose 21 and a handheld nozzle 22. The suction hose 21 connects the handheld nozzle 22 and the upper chamber 152. A switching mechanism 6 is provided inside the upper chamber 152. The ends of the suction hose 21 and the suction channel 31 are connected to the switching mechanism 6.

[0026] A switch 18 is installed on the vehicle body 1, and a battery and control module are installed inside the vehicle body 1. The control module is electrically connected to the switch 18, the battery, and the exhaust fan 7. When in use, it can be used with plastic balls. The battery is installed in the battery compartment 19, the switch 18 is turned on, the exhaust fan 7 works, creating negative pressure in the upper chamber 152, thereby driving outside air into the upper chamber 152. When in bottom suction mode, the plastic ball is sucked in from the bottom suction port 32, enters the upper chamber 152 through the suction channel 31, and stays in the upper chamber 152 under the obstruction of the partition plate 71 above the exhaust fan 7. Pushing the switching mechanism 6 enters the handheld vacuuming mode, and the plastic ball can be sucked in through the handheld nozzle 22. The plastic ball enters the upper chamber 152 through the suction hose. It can not only simulate a sweeper to clean, but also simulate an adult using a vacuum cleaner, and has high playability. The upper chamber 152 is provided with a top cover 13. When it is necessary to pour out the items that have been absorbed into the upper chamber 152, the top cover 13 can be removed for pouring.

[0027] Furthermore, the switching mechanism 6 includes a sliding groove 17, a switching stop 61, and a sliding switch 62. The sliding groove 17 is disposed inside the upper chamber 152, and the switching stop 61 is slidably mounted on the sliding groove 17. The switching stop 61 can slide on the sliding groove 17. The top of the suction channel 51 is located within the sliding range of the bottom of the sliding stop 61. The port of the suction hose 21 near the side of the vehicle body 1 is located within the sliding range of the side of the sliding stop 61. The top of the suction channel 31 is located within the sliding range of the sliding stop 62. In the sliding groove 17, the side closer to the exhaust fan 7 has the end of the suction hose 21 located in the sliding groove 17 away from the exhaust fan 7. When the switching stop 61 is slid to the side closer to the exhaust fan 7, the switching stop 61 blocks the top of the suction channel 31, exposing the end of the suction hose 21, thus switching to handheld vacuuming mode. When the sliding switch 62 is pushed to push the sliding stop 61 to the side away from the exhaust fan 7, the switching stop 61 blocks the end of the suction hose 21, exposing the top of the suction channel 31, thus switching to bottom vacuuming mode.

[0028] Furthermore, a limiting post 171 is provided on the sliding groove 17, and a limiting groove 63 is provided on the switching stop 61, which is inserted into the limiting post 171. The limiting post ensures that the switching stop 61 slides straight within the sliding groove 17. The sliding switch 62 is located on the outside of the vehicle body 1, and the inner connecting part of the sliding switch 62 passes through the slot on the vehicle body 1 that matches the connecting part, and then connects with the side of the switching stop 61. By pushing the sliding switch 62, the switching stop 61 is controlled to slide, thereby switching between bottom vacuuming mode and handheld vacuuming mode.

[0029] Furthermore, an air outlet 16 is provided at the bottom of the lower chamber 151.

[0030] Furthermore, the cleaning device 5 includes a cleaning component 51, a cleaning shaft 53, a cleaning shaft gear 55, and a cleaning component driven gear 54. There are two cleaning components 51, which are respectively disposed on the left and right sides of the bottom of the vehicle body 1. The cleaning shaft 53 is located between the two cleaning components 51. There are two cleaning shaft gears 55, which are respectively fixed on both sides of the cleaning shaft 53. A cleaning component gear 52 is disposed above the cleaning component 51 and meshes with the cleaning shaft gear 55. When the cleaning shaft 53 rotates, it drives the cleaning component 51 to rotate through the cleaning shaft gear 55.

[0031] Furthermore, the bottom of the vehicle body 1 is provided with wheels 8 and wheel axles 81. A sweeping component drive gear 82 is fixed on the wheel axle 81 near the sweeping device. The sweeping component driven gear 54 is fixed on the sweeping shaft 53. A transmission gear 9 is provided between the sweeping component drive gear 82 and the sweeping component driven gear 54. The transmission gear 9 meshes with the sweeping component drive gear 82 and the sweeping component driven gear 54. When the sweeping vehicle is pushed to make the wheels 8 rotate, the sweeping component drive gear 82 on the wheels 8 causes the sweeping component driven gear 54 and the sweeping shaft 53 fixedly connected to the sweeping component driven gear 54 to rotate through the transmission gear 9, thereby causing the sweeping component 51 to rotate, simulating the sweeping operation of the sweeping vehicle.

[0032] Furthermore, the garbage bin tipping mechanism 4 includes a garbage bin 41, a recycling trough 14, and a compression screw rod 42. The recycling trough 14 is located on the rear side of the vehicle body 1, and the garbage bin 41 is hinged to the rear side of the vehicle body. Pushing the garbage bin 41 to rotate along the hinge point can simulate the garbage truck tipping the garbage bin.

[0033] Furthermore, the compression screw 42 is installed in the recycling tank 14. A screw drive shaft 43 is located at the bottom of the compression screw 42, and a screw drive gear 432 is fixed on the screw drive shaft 43. A screw driven gear 421 is located at the end of the compression screw 42, meshing with the screw drive gear 432. A handle 431 is located on one side of the screw drive shaft 43. Rotating the handle 431 causes the screw drive shaft 43 to rotate, which in turn drives the compression screw 42 to rotate via the screw drive gear 432, thus simulating the process of a sweeper compressing garbage and enhancing the playability.

[0034] In this embodiment, the cleaning shaft gear 55 and the driven gear 421 of the screw rod are end face gears.

[0035] Furthermore, the vehicle body 1 on the side with the suction hose 21 is recessed inward to form a placement groove 11. A placement groove switch plate 12 is hinged to the placement groove 11. When the bottom is in suction mode, the handheld suction device can be placed into the placement groove 11.

Claims

1. A novel toy sweeper structure, characterized in that... The device includes a vehicle body, an exhaust fan, a sweeping device, and a trash can emptying mechanism. The vehicle body is equipped with a bottom suction structure and a handheld suction structure. An internal suction chamber is provided within the vehicle body. The exhaust fan, installed within the suction chamber, divides the suction chamber into an upper chamber and a lower chamber. The air inlet of the exhaust fan is located in the upper chamber, and the air outlet is located in the lower chamber. The bottom suction structure includes a bottom suction port and a suction channel. The bottom suction port is located at the bottom of the vehicle body, and the suction channel connects the upper chamber and the bottom suction port. The handheld suction structure includes a suction hose and a handheld nozzle. The suction hose connects the handheld nozzle and the upper chamber. A switching mechanism is provided inside the upper chamber, and the ends of the suction hose and the suction channel are connected to the switching mechanism.

2. The novel toy cleaning vehicle structure according to claim 1, characterized in that... The switching mechanism includes a sliding groove, a switching stop, and a sliding switch. The sliding groove is disposed inside the upper chamber. The switching stop is slidably installed on the sliding groove and can slide on the sliding groove. The top of the dust suction channel is located within the sliding range of the bottom of the sliding stop, and the port of the dust suction hose near the vehicle body is located within the sliding range of the side of the sliding stop.

3. The novel toy cleaning vehicle structure according to claim 2, characterized in that... The top of the suction channel is located in the sliding groove on the side closer to the exhaust fan, and the end of the suction hose is located in the sliding groove on the side away from the exhaust fan.

4. The novel toy cleaning vehicle structure according to claim 3, characterized in that... The sliding groove is provided with a limit post, and the switching stop is provided with a limit groove that is inserted into the limit post. The sliding switch is located on the outside of the vehicle body and passes through the vehicle body to connect with the side of the switching stop.

5. The novel toy cleaning vehicle structure according to claim 4, characterized in that... An air outlet is provided at the bottom of the lower chamber.

6. A novel toy cleaning vehicle structure according to any one of claims 1-5, characterized in that... The cleaning device includes a cleaning component, a cleaning shaft, a cleaning shaft gear, and a cleaning component driven gear. The cleaning components are arranged in pairs, with the two cleaning components in one pair respectively located on the left and right sides of the bottom of the vehicle body. The cleaning shaft is located between the two cleaning components in the same pair. The cleaning shaft gear has two gears, which are respectively fixed on both sides of the cleaning shaft. A cleaning component gear is provided above the cleaning component to mesh with the cleaning shaft gear.

7. The novel toy cleaning vehicle structure according to claim 6, characterized in that... The vehicle body is equipped with wheels and wheel axles at its bottom. A sweeping component drive gear is fixed on the wheel axle near the sweeping device. The sweeping component driven gear is fixed on the sweeping shaft. A transmission gear is provided between the sweeping component drive gear and the sweeping component driven gear. The transmission gear meshes with the sweeping component drive gear and the sweeping component driven gear.

8. A novel toy cleaning vehicle structure according to any one of claims 1-5, characterized in that... The trash can tipping mechanism includes a trash can, a recycling trough, and a compression screw. The recycling trough is located on the rear side of the vehicle body, and the trash can is hinged to the rear side of the vehicle body.

9. The novel toy cleaning vehicle structure according to claim 8, characterized in that... The compression screw is installed in the recycling tank. A screw drive shaft is provided at the bottom of the compression screw. A screw drive gear is fixed on the screw drive shaft. A screw driven gear is provided at the end of the compression screw, which meshes with the screw drive gear. A throttle is provided on one side of the screw drive shaft.