Building floor cleaning integrated device

By combining metal and rubber scrapers, the problem of difficult-to-clean dirt on rubber scrapers is solved, resulting in improved cleaning performance and a longer scraper lifespan, ensuring efficient collection of dirt.

CN224369747UActive Publication Date: 2026-06-19NANNING SINING CLEANING CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
NANNING SINING CLEANING CO LTD
Filing Date
2025-05-23
Publication Date
2026-06-19

AI Technical Summary

Technical Problem

In existing cleaning devices, wastewater and garbage easily adhere to the rubber scraper during the cleaning process, causing bacterial clusters or spots to appear on the scraper surface, affecting aesthetics and cleanliness, and making it difficult to clean effectively.

Method used

The system employs a combination of metal and rubber scrapers. Wastewater is collected through a drain pipe and a connecting pipe. The vertical movement of the metal scraper removes dirt from the outer wall of the rubber scraper, and the wastewater is collected centrally through a suction hole and a suction pipe. The design of the support bar and guide rod ensures stability and cleaning effect.

Benefits of technology

It effectively cleans dirt from the outer wall of the rubber scraper, prevents bacterial growth, improves the cleanliness and service life of the scraper, and ensures the integrity and efficiency of dirt collection.

✦ Generated by Eureka AI based on patent content.

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    Figure CN224369747U_ABST
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Abstract

The utility model relates to cleaning device technical field, specifically is a kind of building ground cleaning integrated device, including support strip, metal scraper and support arm, support strip upper end outer wall one side is welded with drain pipe, the outer wall screw thread connection of drain pipe upper end is connected with communicating pipe, support strip lower end outer wall is provided with metal scraper, the outer wall welding of metal scraper is equidistantly parallelly distributed with suction pipe, the outer wall welding of metal scraper both sides is with support arm, the outer wall screw connection of support arm upper end is with guide rod, the outer wall welding of metal scraper both sides is with footboard, reach the purpose of cleaning rubber scraper, avoid dirty thing to stay in rubber scraper outer wall, avoid the bacteria breeding and lead to the bacteria group or bacteria plaque, to be able to guarantee the relative cleanness of rubber scraper, improve the service life of rubber scraper.
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Description

Technical Field

[0001] This utility model relates to the field of cleaning device technology, specifically to an integrated cleaning device for building floors. Background Technology

[0002] Building floors typically consist of a surface layer, a subbase, a base layer, and a structural layer. The surface layer is the topmost layer of the entire floor and is in direct contact with users and the environment. To maintain the cleanliness of the surface, it needs to be cleaned using integrated cleaning equipment. Integrated cleaning equipment is a device that can efficiently and conveniently perform various cleaning operations on building floors. Widely used types include walk-behind floor scrubbers, ride-on sweeper-scrubbers, and robotic floor scrubbers. Ride-on sweeper-scrubbers are mainly used for cleaning large areas of floors, such as shopping malls, factory workshops, and parking lots. This type of equipment generally has a large cleaning width and water tank capacity, enabling it to complete a large amount of cleaning work in a short time.

[0003] The all-in-one machine uses a motor to drive the brush disc to rotate. The bristles on the brush disc contact the ground, rubbing and scrubbing to loosen stains, dust, and other grime. Simultaneously, water from the clean water tank is piped to the brush disc, working with the bristles to further dissolve and dilute the dirt, making it easier to remove. While washing, a rubber squeegee adheres closely to the ground, and a vacuum pump generates negative pressure to suck the wastewater and debris into a wastewater tank, ensuring the floor dries quickly.

[0004] While existing cleaning devices offer numerous benefits during use, they still suffer from several drawbacks. Their cleaning performance with rubber squeegees is inadequate. When the squeegee pushes and collects wastewater and debris on the ground, some of the wastewater and debris adheres to the squeegee surface. This dirt is difficult to clean, leading to bacterial clusters or spots appearing on the squeegee surface from the wastewater and debris, affecting both the squeegee's appearance and its cleanliness. Utility Model Content

[0005] To address the problems in the existing technology, this utility model provides an integrated building floor cleaning device.

[0006] The technical solution adopted by this utility model to solve its technical problem is an integrated building floor cleaning device, including a support bar, a metal scraper and a support arm. A drain pipe is welded to one side of the upper outer wall of the support bar, and a connecting pipe is threaded to the upper outer wall of the drain pipe. A metal scraper is provided on the lower outer wall of the support bar, and suction pipes that are equally spaced and parallel are welded to the outer wall of the metal scraper. Support arms are welded to both outer walls of the metal scraper, and guide rods are screwed to the upper outer walls of the support arms. Foot pedals are welded to both outer walls of the metal scraper.

[0007] By adopting the above technical solution, the sewage collected on the ground by the rubber scraper can be collected by the matching sewage collection device through the sewage pipe and connecting pipe. When the staff steps on the foot pedal, the foot pedal and the metal scraper will move vertically on the outer wall of the rubber scraper. Thus, the metal scraper can scrape the dirt attached to the outer wall of the rubber scraper, thereby cleaning the rubber scraper and preventing dirt from remaining on the outer wall of the rubber scraper. This prevents the growth of bacteria that may cause bacterial clusters or spots, thus ensuring the relative cleanliness of the rubber scraper and improving its service life.

[0008] Specifically, a connecting frame is screwed to one side of the upper outer wall of the support bar, and a fixing arm is screwed to both sides of the upper outer wall of the support bar. The two fixing arms are distributed on both sides of the connecting frame, and an auxiliary wheel is pinned to the lower outer wall of the fixing arm.

[0009] By adopting the above technical solution, the support strip can be connected to the floor scrubber through the connector, ensuring that the support strip can move with the floor scrubber. The fixed arm can provide auxiliary support for the support strip through the auxiliary wheels, ensuring the stability of the support strip during movement.

[0010] Specifically, a rubber scraper is bonded and fixed to one side of the lower outer wall of the support strip. The rubber scraper is arranged in an arc shape, located inside the metal scraper, and the outer wall of the rubber scraper is in contact with the inner wall of the metal scraper.

[0011] By adopting the above technical solution, the rubber material of the rubber scraper is flexible and adheres tightly to the ground, which can move and collect water stains that remain on the ground, making it easier to collect sewage in the future. When the metal scraper moves vertically on the outer wall of the rubber scraper, it can scrape and clean the dirt on the outer wall of the rubber scraper.

[0012] Specifically, the outer wall of the metal scraper is provided with equally spaced parallel suction holes, which are designed in an L-shape and are connected to the inside of the suction pipe.

[0013] By adopting the above technical solution, the L-shaped suction hole can control the suction direction of the dirt. After the metal scraper pushes the dirt off the outer wall of the rubber scraper, the suction hole, together with the suction pipe, can collect the detached dirt in a concentrated manner. The multiple suction holes can ensure the suction coverage area and ensure the integrity of the collection of dirt detached from the outer wall of the rubber scraper.

[0014] Specifically, a quick connector is threaded onto one side of the outer wall of the connecting pipe, and a rubber diverter is interference-fitted onto one side of the upper outer wall of the suction pipe, with the other end of the rubber diverter inserted into the quick connector.

[0015] By adopting the above technical solution, the suction pipe is connected to the inside of the connecting pipe through the rubber diversion pipe and quick connector, so that the turbidity sucked by the suction hole can be collected into the sewage collection device. Moreover, due to the flexibility of the rubber diversion pipe, it can adapt to different usage positions of the metal scraper.

[0016] Specifically, guide holes are provided on both outer walls of the support bar, the diameter of the guide rod is smaller than the inner diameter of the guide hole, and the guide rod is located inside the guide hole.

[0017] By adopting the above technical solution, the guide hole and guide rod can limit the movement trajectory of the metal scraper, thereby ensuring the stability of the relative movement trajectory of the metal scraper on the outer wall of the rubber scraper.

[0018] Specifically, a support spring is sleeved on the outer wall of the guide rod, and the support spring is distributed between the support bar and the guide rod. The end of the guide rod is elastically connected to the upper end face of the support bar through the support spring.

[0019] By adopting the above technical solution, the elastic force of the support spring supports the guide rod, ensuring the initial stability of the metal scraper and the guide rod. After the worker steps on the foot pedal to drive the metal scraper to move vertically downward on the outside of the rubber scraper, the elastic force of the support spring can push the guide rod upward to reset, facilitating the next use of the device.

[0020] The beneficial effects of this utility model are:

[0021] (1) The building floor cleaning integrated device described in this utility model uses a metal scraper to scrape the dirt attached to the outer wall of the rubber scraper, thereby cleaning the rubber scraper, preventing dirt from lingering on the outer wall of the rubber scraper, and preventing bacterial growth that could lead to bacterial clusters or spots. This ensures the relative cleanliness of the rubber scraper and improves its service life.

[0022] (2) The building floor cleaning integrated device described in this utility model has a metal scraper that pushes out the dirt on the outer wall of the rubber scraper. The suction hole and suction pipe can collect the dirt that has fallen off. The multiple suction holes can ensure the suction coverage area and ensure the integrity of the collection of dirt that has fallen off the outer wall of the rubber scraper. Attached Figure Description

[0023] The present invention will be further described below with reference to the accompanying drawings and embodiments.

[0024] Figure 1 This is a schematic diagram of the main body of the support strip structure of this utility model;

[0025] Figure 2 This is a schematic diagram of the rotating support bar structure of this utility model;

[0026] Figure 3 This is a schematic diagram showing the disassembled structure of the metal scraper of this utility model;

[0027] Figure 4 This is an exploded view of the support strip structure of this utility model;

[0028] Figure 5 This is an exploded view of the support arm structure of this utility model;

[0029] Figure 6 This is a partial cross-sectional view of the metal scraper structure of this utility model.

[0030] In the diagram: 1. Support bar; 11. Rubber scraper; 12. Connecting frame; 13. Fixed arm; 14. Sewage pipe; 15. Connecting pipe; 16. Guide hole; 17. Auxiliary wheel; 2. Metal scraper; 21. Foot pedal; 22. Suction pipe; 23. Rubber diversion pipe; 24. Support arm; 25. Guide rod; 26. Support spring; 27. Suction hole. Detailed Implementation

[0031] To make the technical means, creative features, objectives and effects of this utility model easier to understand, the present utility model will be further described below in conjunction with specific embodiments.

[0032] To save manpower and improve efficiency, as one embodiment of this utility model, such as Figure 1 , Figure 2 , Figure 3 , Figure 4 , Figure 5 , Figure 6 As shown, the integrated building floor cleaning device of this utility model includes a support bar 1, a metal scraper 2, and a support arm 24. A drain pipe 14 is welded to one side of the upper outer wall of the support bar 1, and a connecting pipe 15 is threaded to the upper outer wall of the drain pipe 14. A metal scraper 2 is provided on the lower outer wall of the support bar 1. A suction pipe 22 is welded to the outer wall of the metal scraper 2 at equal intervals and parallel distribution. Support arms 24 are welded to both outer walls of the metal scraper 2. A guide rod 25 is screwed to the upper outer wall of the support arm 24. Foot pedals 21 are welded to both outer walls of the metal scraper 2.

[0033] During use, the wastewater collected by the rubber scraper 11 can be collected by the wastewater collection device through the drain pipe 14 and the connecting pipe 15. When the staff steps on the foot pedal 21, the foot pedal 21 and the metal scraper 2 will move vertically on the outer wall of the rubber scraper 11. Thus, the metal scraper 2 achieves the purpose of scraping the dirt attached to the outer wall of the rubber scraper 11, thereby cleaning the rubber scraper 11 and preventing dirt from accumulating on the outer wall of the rubber scraper 11, avoiding bacterial growth that could lead to bacterial clusters or spots. This ensures the relative cleanliness of the rubber scraper 11 and extends its service life.

[0034] For assembly, exemplarily, such as Figure 1 As shown, a connecting frame 12 is screwed to one side of the upper outer wall of the support bar 1, and a fixing arm 13 is screwed to both sides of the upper outer wall of the support bar 1. The two fixing arms 13 are distributed on both sides of the connecting frame 12, and an auxiliary wheel 17 is pinned to the lower outer wall of the fixing arm 13.

[0035] During use, the support bar 1 can be connected to the floor scrubber through the connector to ensure that the support bar 1 can move with the floor scrubber. The fixed arm 13 can provide auxiliary support for the support bar 1 through the auxiliary wheel 17 to ensure the stability of the support bar 1 during movement.

[0036] To promote wastewater treatment, for example, such as Figure 2 As shown, a rubber scraper 11 is bonded and fixed to one side of the lower outer wall of the support strip 1. The rubber scraper 11 is arranged in an arc shape. The rubber scraper 11 is located inside the metal scraper 2, and the outer wall of the rubber scraper 11 is in contact with the inner wall of the metal scraper 2.

[0037] When in use, the rubber material of the rubber scraper 11 is flexible and adheres tightly to the ground, which can push the water stains that remain on the ground to move and collect, making it easier to collect sewage in the future. When the metal scraper 2 moves vertically on the outer wall of the rubber scraper 11, it can scrape and clean the dirt on the outer wall of the rubber scraper 11.

[0038] For the purpose of vacuuming, for example, such as Figure 3 As shown, the outer wall of the metal scraper 2 is provided with equally spaced parallel suction holes 27. The suction holes 27 are designed in an L-shape and are connected to the inside of the suction pipe 22.

[0039] When in use, the L-shaped suction hole 27 can control the suction direction of the dirt. After the metal scraper 2 pushes the dirt off the outer wall of the rubber scraper 11, the suction hole 27, together with the suction pipe 22, can collect the detached dirt. The multiple suction holes 27 can ensure the suction coverage area and ensure the integrity of the collection of dirt detached from the outer wall of the rubber scraper 11.

[0040] For the purpose of vacuuming, for example, such as Figure 3 As shown, a quick connector is threaded onto one side of the outer wall of the connecting pipe 15, and a rubber diverter pipe 23 is interference-fitted onto one side of the upper outer wall of the suction pipe 22, with the other end of the rubber diverter pipe 23 inserted into the quick connector.

[0041] In use, the suction pipe 22 is connected to the inside of the connecting pipe 15 through the rubber diverter pipe 23 and the quick connector, so that the turbidity sucked by the suction hole 27 can be collected into the sewage collection device. Moreover, due to the flexibility of the rubber diverter pipe 23, it can adapt to different usage positions of the metal scraper 2.

[0042] To control the movement trajectory, for example, such as Figure 5 As shown, guide holes 16 are provided on both outer walls of the support bar 1. The diameter of the guide rod 25 is smaller than the inner diameter of the guide hole 16, and the guide rod 25 is located inside the guide hole 16.

[0043] In use, the guide hole 16 and the guide rod 25 can restrict the movement trajectory of the metal scraper 2, thereby ensuring the stability of the relative movement trajectory of the metal scraper 2 on the outer wall of the rubber scraper 11.

[0044] To maintain the usage location, for example, such as Figure 5 As shown, a support spring 26 is sleeved on the outer wall of the guide rod 25. The support spring 26 is distributed between the support bar 1 and the guide rod 25. The end of the guide rod 25 is elastically connected to the upper end face of the support bar 1 through the support spring 26.

[0045] During use, the elastic force of the support spring 26 supports the guide rod 25, ensuring the initial stability of the metal scraper 2 and the guide rod 25. After the operator steps on the foot pedal 21 to drive the metal scraper 2 to move vertically downward outside the rubber scraper 11, the elastic force of the support spring 26 can push the guide rod 25 upward to reset, facilitating the next use of the device.

[0046] When in use, the device is connected to the floor scrubber via the connecting frame 12 on the support bar 1, ensuring that the device can move with the main unit. When the device moves with the main unit, the arc-shaped rubber scraper 11 adheres tightly to the ground due to its flexibility, scraping and collecting water stains and dirt in the arc-shaped area. The sewage collection device can extract and collect water stains and dirt through the sewage pipe 14 and the connecting pipe 15.

[0047] When the rubber scraper 11 needs cleaning, the operator steps on the foot pedal 21, causing the metal scraper 2 to move vertically downward under the limit of the guide rod 25 and the guide hole 16, and compressing the support spring 26. The inner wall of the metal scraper 2 is in close contact with the outer wall of the rubber scraper 11, and as it moves downward, it scrapes off the attached dirt. The scraped dirt is collected simultaneously through the L-shaped suction hole 27, the suction pipe 22 and the discharge pipe 14.

[0048] After the operator releases the foot pedal 21, the support spring 26 releases its elastic force, pushing the guide rod 25 to move upward, thereby causing the metal scraper 2 and the foot pedal 21 to return to their initial positions.

[0049] It should be noted that this utility model is an integrated building floor cleaning device. All components in this utility model are known to those skilled in the art, and their structure and principle can be learned by those skilled in the art through technical manuals or conventional experimental methods.

[0050] The foregoing has shown and described the basic principles, main features, and advantages of this utility model. Those skilled in the art should understand that this utility model is not limited to the above embodiments. The descriptions of the above embodiments and specifications are merely illustrative of the principles of this utility model. Various changes and modifications can be made to this utility model without departing from its spirit and scope, and all such changes and modifications fall within the scope of protection claimed by this utility model. The scope of protection of this utility model is defined by the appended claims and their equivalents.

Claims

1. A building floor cleaning integrated device, characterized by, The device includes a support bar (1), a metal scraper (2), and a support arm (24). A drain pipe (14) is welded to one side of the upper outer wall of the support bar (1). A connecting pipe (15) is threaded to the upper outer wall of the drain pipe (14). A metal scraper (2) is provided on the lower outer wall of the support bar (1). A suction pipe (22) with equal and parallel distribution is welded to the outer wall of the metal scraper (2). Support arms (24) are welded to both outer walls of the metal scraper (2). A guide rod (25) is screwed to the upper outer wall of the support arm (24). Foot pedals (21) are welded to both outer walls of the metal scraper (2).

2. The integrated floor cleaning device of claim 1, wherein, The upper outer wall of the support bar (1) is screwed to a connecting frame (12), and the upper outer wall of the support bar (1) is screwed to both sides of a fixing arm (13). The two fixing arms (13) are distributed on both sides of the connecting frame (12), and the lower outer wall of the fixing arm (13) is pinned to an auxiliary wheel (17).

3. The integrated floor cleaning apparatus of claim 1, wherein, A rubber scraper (11) is bonded and fixed to one side of the lower outer wall of the support strip (1). The rubber scraper (11) is arranged in an arc shape. The rubber scraper (11) is located inside the metal scraper (2), and the outer wall of the rubber scraper (11) is in contact with the inner wall of the metal scraper (2).

4. The integrated floor cleaning apparatus of claim 1, wherein, The outer wall of the metal scraper (2) is provided with equally spaced parallel suction holes (27), the suction holes (27) are designed in an L shape, and the suction holes (27) are connected to the inside of the suction pipe (22).

5. The integrated building floor cleaning device according to claim 1, characterized in that, The connecting pipe (15) has a quick connector threaded on one side of its outer wall, and a rubber diverter pipe (23) is interference-fitted on one side of the upper outer wall of the suction pipe (22), with the other end of the rubber diverter pipe (23) inserted into the quick connector.

6. The integrated floor cleaning apparatus of claim 1, wherein, The outer walls on both sides of the support bar (1) are provided with guide holes (16), the diameter of the guide rod (25) is smaller than the inner diameter of the guide hole (16), and the guide rod (25) is located inside the guide hole (16).

7. The integrated floor cleaning apparatus of claim 1, wherein, The outer wall of the guide rod (25) is fitted with a support spring (26), which is distributed between the support bar (1) and the guide rod (25). The end of the guide rod (25) is elastically connected to the upper end face of the support bar (1) through the support spring (26).