A lifting mop bucket

By incorporating a water-blocking ring and a rotating shaft structure into the lift-up mop bucket, the problem of the bucket's height is solved, reducing production and transportation costs, preventing liquid splashing, and improving the user experience.

CN224387413UActive Publication Date: 2026-06-23胡国云

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
胡国云
Filing Date
2025-05-19
Publication Date
2026-06-23

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Abstract

The utility model belongs to the technical field of cleaning supplies, especially point to a kind of elevating type mop bucket, including mop bucket barrel body, water throwing basket is rotationally arranged in mop bucket barrel body;Lifting seat is arranged between water throwing basket and mop bucket barrel body, low position stay part and high position stay part are arranged on lifting seat, water throwing basket can be kept low position stay part or high position stay part by pulling water throwing basket;Including water baffle, water baffle is fixed in the outside of water throwing basket and along with water throwing basket elevating;When water throwing basket is in low position, water baffle and water throwing basket are located in mop bucket barrel body;When water throwing basket is in high position, the upper edge of water baffle and the upper edge of water throwing basket are all higher than mop bucket barrel body, liquid thrown by water throwing basket is shielded by water baffle and along the inner wall of water baffle backflow to mop bucket barrel body;Water throwing basket is in high position, the upper edge of water throwing basket and the upper edge of mop bucket barrel body form height difference L.The utility model provides a kind of elevating type mop bucket, and the height of mop bucket barrel body is reduced.
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Description

Technical Field

[0001] This utility model belongs to the field of cleaning products technology, and specifically refers to a lifting mop bucket. Background Technology

[0002] Mop buckets are common cleaning tools used in daily life for washing and wringing mops. A typical mop bucket consists of a bucket body and a rotating basket. The rotating basket is usually located on one side of the bucket body for wringing, while the other side is for washing the mop. In this type of mop bucket, the washing and wringing chambers are arranged parallel to each other, resulting in a relatively large size and space-consuming design. Therefore, lift-type mop buckets have emerged on the market. In these buckets, the rotating basket is located directly above the bucket body. When the mop needs to be wrung out, the basket rises to the top of the bucket, driving the mop handle to rotate at high speed for rapid wringing. When the mop needs to be washed, the basket descends to the bottom of the bucket body, allowing the mop to be immersed in water for cleaning. The vertical arrangement of the rotating basket and the bucket body in this lift-type mop bucket reduces the overall size of the bucket and saves space.

[0003] For example, Chinese patent CN201420568805.1 describes a centrally mounted lifting mop bucket, comprising a bucket body and a rotating basket. A central shaft is located within the bucket body, and a sleeve that can move up and down along the central shaft is fitted onto the central shaft. The sleeve has a bearing for supporting the rotating basket, which is rotatably mounted on the sleeve. The inner wall of the sleeve has an upper guide groove and a lower guide groove, with a ratchet clearance between them. A guide pin that engages with this ratchet clearance is also located on the central shaft. Rotation of the sleeve on the central shaft allows the guide pin to change position between the vertical clearance of the upper guide groove, the vertical clearance of the lower guide groove, or the ratchet clearance. When the rotating basket is at the top of the bucket body, the mop handle drives the rotating basket to rotate at high speed, generating centrifugal force for dehydration. When the rotating basket is at the bottom of the bucket body, driving the mop handle washes the mop. The product has a stable structure, but it also has some shortcomings: the mop bucket body needs to meet the requirements of high-level spin-drying and low-level cleaning, so the mop bucket body is relatively tall, resulting in high production and transportation costs. In the current e-commerce-dominated environment, this has always been a pain point; especially for foreign trade export companies, the smaller the volume, the larger the container capacity. Summary of the Invention

[0004] The purpose of this invention is to provide a liftable mop bucket with a reduced bucket height.

[0005] The purpose of this utility model is achieved as follows:

[0006] A lifting mop bucket includes a mop bucket body, and a water-spinning basket is rotatably installed inside the mop bucket body; a lifting seat is provided between the water-spinning basket and the mop bucket body, and the lifting seat is provided with a low-position stopping part and a high-position stopping part. Pulling the water-spinning basket can keep the water-spinning basket on the low-position stopping part or the high-position stopping part.

[0007] Includes a water-blocking ring, which is fixed to the outside of the spin basket and rises and falls with the spin basket; when the spin basket is in a low position, both the water-blocking ring and the spin basket are located inside the mop bucket; when the spin basket is in a high position, the upper edges of the water-blocking ring and the upper edges of the spin basket are higher than the mop bucket, and the liquid spun out by the spin basket is blocked by the water-blocking ring and flows back into the mop bucket along the inner wall of the water-blocking ring.

[0008] The spin basket is positioned at a high position, with a height difference L between the upper edge of the spin basket and the upper edge of the mop bucket.

[0009] Furthermore, the upper end of the water-blocking ring is provided with a baffle, which covers the upper end of the water-slinging basket; the baffle can block the splashing water.

[0010] Furthermore, the baffle bends inward to form a concave cavity; as the water-spinning basket rotates, the liquid moves upward along the inner wall of the baffle ring and impacts the concave cavity, which blocks the upward-flowing liquid and allows it to flow back into the mop bucket.

[0011] Furthermore, the bracket is included, the water-spinning basket is rotatably mounted on the bracket, and the water-blocking ring is fixed on the bracket.

[0012] Furthermore, at least two lifting seats are fixedly installed on the mop bucket body, and the side of the lifting seat has a circulation track, on which the low-position stopping part and the high-position stopping part are provided; the bracket or water-blocking ring is provided with a protruding edge that moves along the circulation track, and the protruding edge can stop on the low-position stopping part or the high-position stopping part.

[0013] Furthermore, a rotating shaft is provided in the middle of the bracket, and the rotating shaft is rotatably connected to the water-spinning basket. A wear-resistant sleeve and / or bearing is provided between the rotating shaft and the water-spinning basket.

[0014] Furthermore, the rotating shaft includes a connecting shaft and a positioning shaft. The positioning shaft is fixed / integratedly formed on the bracket. The positioning shaft and the connecting shaft are sleeved together and fastened by a buckle. The upper edge of the connecting shaft is provided with a skirt. The water-spraying basket is sleeved on the rotating shaft and is limited below the skirt.

[0015] Furthermore, both the upper and lower ends of the water-spinning basket are provided with planar bearings; the upper planar bearing abuts against the lower surface of the skirt on one side and against the concave surface of the water-spinning basket on the other side; the lower planar bearing abuts against the concave surface of the water-spinning basket on one side and against the surface of the bracket or the stepped surface of the rotating shaft on the other side.

[0016] Furthermore, a metal shaft is fixedly installed in the middle of the mop bucket body, and a longitudinal through hole is provided in the middle of the shaft. During the lifting and lowering of the water-spinning basket, the metal shaft is always kept in the longitudinal through hole; an annular groove is provided at the upper end of the shaft.

[0017] Furthermore, the bottom of the mop bucket is provided with a plug; the spin basket is in a low position, the plug extends into the gap of the spin basket, and restricts the rotation of the spin basket.

[0018] The outstanding and beneficial technical effects of this utility model compared to the prior art are:

[0019] 1. This utility model features a water-blocking ring that rises and falls synchronously with the spin-off basket. When the spin-off basket is at its highest position, the water-blocking ring extends above the mop bucket, blocking the liquid splashed from the basket and directing it into the mop bucket, effectively preventing splashing. The purpose of the water-blocking ring is to reduce the required height of the mop bucket, ensuring it can hold enough water for the spin-off basket to clean in its lower position without splashing. When the spin-off basket is at its highest position, the water-blocking ring compensates for the insufficient height of the mop bucket. Compared to traditional lift-up mop buckets, the height of the mop bucket in this application is effectively reduced, thereby lowering packaging and transportation costs.

[0020] 2. The water-blocking ring of this utility model has a baffle at its upper end, which covers the upper end of the spin basket. When the spin basket is in a low position, the baffle can block splashed water. Preferably, the baffle is bent inward to form a concave cavity. When the spin basket rotates, the liquid moves upward along the inner wall of the water-blocking ring and impacts the concave cavity. The concave cavity blocks the upward-flowing liquid and allows it to flow back into the mop bucket. By setting a baffle with a concave cavity, liquid splashing is effectively prevented, allowing the spun liquid to flow back into the mop bucket.

[0021] 3. The rotating shaft of this utility model includes a connecting shaft and a positioning shaft that are sleeved together. This structure facilitates assembly by the manufacturer. The connecting shaft can be a component fixed to the bracket or a part integrally formed on the bracket. The worker puts the bearing and / or wear-resistant sleeve on the positioning shaft, then puts the water-spinning basket on the positioning shaft, and finally sleeves and clamps the connecting shaft and the fixing shaft together. Attached Figure Description

[0022] Figure 1 This is a schematic diagram of the water-spinning basket of this utility model in a low position.

[0023] Figure 2 This is a schematic diagram of the internal structure of the water-spinning basket of this utility model in a low position.

[0024] Figure 3 yes Figure 2 A magnified structural diagram at point A;

[0025] Figure 4 yes Figure 2 A magnified structural diagram at point B;

[0026] Figure 5This is one of the structural diagrams of the water-spinning basket of this utility model in a high position;

[0027] Figure 6 This is the second schematic diagram of the water-spinning basket of this utility model in a high position.

[0028] Figure 7 This is a schematic diagram of the internal structure of the water-spinning basket of this utility model in a high position.

[0029] Figure 8 yes Figure 7 A magnified structural diagram at point C;

[0030] Figure 9 This is a structural schematic diagram of the water-spinning basket of this utility model in the removed state;

[0031] Figure 10 This is an exploded structural diagram of the mop bucket body of this utility model;

[0032] Figure 11 yes Figure 10 A magnified structural diagram at point D;

[0033] Figure 12 This is an exploded structural diagram of the water-throwing basket part of this utility model;

[0034] Figure 13 yes Figure 12 A magnified structural diagram at point E;

[0035] Figure 14 yes Figure 12 A magnified structural diagram at point F.

[0036] In the diagram: 1-Mop bucket body; 11-Lifting seat; 111-Circulation track; 112-Low-position stopping section;

[0037] 113-High-position dwelling part; 12-Insertion post; 17-Recess; 18-Pressure ring; 19-Handle; 2-Spinning basket; 21-Spinning basket fitting seat; 211-Spinning basket cavity; 3-Water-blocking ring; 31-Baffle; 32-Baffle bending; 4-Bracket; 41-Raised edge; 5-Rotating shaft; 51-Positioning shaft; 52-Connecting shaft; 521-Skirt; 522-Annular groove; 523-Snap fastener; 53-Metal shaft; 6-Bearing; 7-Wear-resistant sleeve; a-Cavity; L-Height difference between the upper edge of the spinning basket and the upper edge of the mop bucket body. Detailed Implementation

[0038] The present invention will be further described below with reference to the accompanying drawings and specific embodiments. Figure 1-14 As shown:

[0039] A lifting mop bucket includes a mop bucket body 1, with a spin basket 2 rotatably mounted inside the mop bucket body. A lifting seat 11 is provided between the spin basket 2 and the mop bucket body 1. The lifting seat 11 is provided with a low-position stopping part 112 and a high-position stopping part 113. Pulling the spin basket 2 can keep the spin basket at the low-position stopping part or the high-position stopping part. The lifting method of the spin basket is diverse. It can adopt the existing central lifting method, such as the lifting structure in the prior art CN2013208488565, a lifting mop bucket, CN2014205688051, a central axis lifting mop bucket, 2014215481291, a lifting mop bucket, CN202322944292.1, a lifting sliding mechanism for a mop bucket, a mop bucket and cleaning tools, etc. It can also adopt the circumferential lifting structure mentioned below. Any lifting structure that allows the spin basket to stop at the high and low positions is acceptable.

[0040] The system includes a water-blocking ring 3, which is fixed to the outside of the spin basket 2 and moves up and down with it. When the spin basket 2 is in a low position, both the water-blocking ring 3 and the spin basket 2 are inside the mop bucket body 1. When the spin basket 2 is in a high position, the upper edges of both the water-blocking ring and the spin basket are higher than the mop bucket body 1. The liquid splashed out by the spin basket is blocked by the water-blocking ring and flows back into the mop bucket body along the inner wall of the water-blocking ring. When the spin basket 2 is in a high position, a height difference L is formed between the upper edge of the spin basket and the upper edge of the mop bucket body. That is, the sum of the height of the mop bucket body and the height difference L is the height required for the spin basket to splash water when in a high position. By setting the water-blocking ring 3, the required height of the mop bucket body 1 is reduced. Moreover, when the spin basket 2 is in a low position, both the spin basket and the water-blocking ring are inside the mop bucket body, effectively reducing the volume of the packaging box.

[0041] The upper end of the water-blocking ring 3 is provided with a baffle 31, which covers the upper end of the water-spinning basket. The baffle 31 is also bent inward to form a concave cavity a. When the water-spinning basket 2 rotates, the liquid moves upward along the inner wall of the water-blocking ring 3 and impacts the concave cavity a. The concave cavity blocks the upward-flowing liquid and flows it back into the mop bucket. This structure effectively prevents liquid splashing.

[0042] The system includes a bracket 4, with a water-blocking ring 3 fixed to the bracket 4. A rotating shaft 5 is located in the middle of the bracket 4, rotatably connected to the water-spinning basket 2. A wear-resistant sleeve 7 and / or a bearing 6 are provided between the rotating shaft 5 and the water-spinning basket 2. For ease of installation of the water-spinning basket, the rotating shaft is specially designed, specifically as follows: the rotating shaft 5 includes a connecting shaft 52 and a positioning shaft 51. The positioning shaft 51 is fixed / integratedly formed on the bracket. The positioning shaft 51 and the connecting shaft 52 are interlocked and secured by a snap-fit ​​523. First, the water-spinning basket fitting 21, the bearing 6, and the wear-resistant sleeve 7 are sequentially installed on the positioning shaft 51. Then, the positioning shaft 51 and the connecting shaft 52 are interlocked and secured.

[0043] Preferably, a metal shaft 53 is fixedly installed in the middle of the mop bucket body 1, and a recess 17 is provided in the mop bucket body 1 to be fixedly matched with the metal shaft 53. A longitudinal through hole is provided in the middle of the rotating shaft 5. During the lifting and lowering of the water spinner, the metal shaft 53 is always kept in the longitudinal through hole, and the metal shaft always supports the water spinner. This structure makes the water spinner structure more stable.

[0044] A skirt 521 is provided along the upper edge of the connecting shaft 52, and the water-spinning basket sleeve 21 is limited below the skirt 521. Both the upper and lower ends of the water-spinning basket 2 are provided with planar bearings 6; the upper planar bearing abuts against the lower surface of the skirt on one side and against the surface of the cavity 211 of the water-spinning basket on the other side; the lower planar bearing abuts against the surface of the cavity 211 of the water-spinning basket on one side and against the surface of the support or the stepped surface of the rotating shaft on the other side. The planar bearings at the upper and lower ends allow for freer rotation of the water-spinning basket, and several wear-resistant sleeves are also provided between the rotating shaft and the water-spinning basket sleeve to reduce frictional resistance.

[0045] The upper end of the rotating shaft 5 is provided with an annular groove 522. The external mop is clamped onto the annular groove 522, thereby enabling the water-spinning basket to move up and down.

[0046] At least two lifting seats 11 are fixedly installed on the mop bucket body 1, preferably 3-4 lifting seats are evenly distributed. The lifting seats 11 have a circulation track 111 on their side, and the circulation track 111 is provided with a low-position stopping part 112 and a high-position stopping part 113. The bracket or water-blocking ring is provided with a protruding edge 41 that moves along the circulation track, and the protruding edge 41 can stop on the low-position stopping part or the high-position stopping part. Preferably, the lower end of the mop bucket body 1 is provided with a fixed position for limiting the lifting seats, and the upper end of the mop bucket body is fixed with a pressure ring 18, between the lifting seat limiting pressure ring 18 and the fixed position.

[0047] The bottom of the mop bucket body 1 is provided with a plug post 12; the water spin basket 2 is in a low position, the plug post 12 extends into the gap of the water spin basket 2, and restricts the rotation of the water spin basket 2.

[0048] The mop bucket body 1 is also equipped with a handle 19.

[0049] The above embodiments are merely preferred embodiments of the present utility model and are not intended to limit the scope of protection of the present utility model. Therefore, all equivalent changes made to the structure, shape, and principle of the present utility model should be covered within the scope of protection of the present utility model.

Claims

1. A lifting mop bucket, comprising a mop bucket body, wherein a water-spinning basket is rotatably disposed within the mop bucket body; characterized in that: A lifting seat is provided between the spin basket and the mop bucket body. The lifting seat is equipped with a low-position stopping part and a high-position stopping part. Pulling the spin basket can keep the spin basket on the low-position stopping part or the high-position stopping part. Includes a water-blocking ring, which is fixed to the outside of the spin basket and rises and falls with the spin basket; when the spin basket is in a low position, both the water-blocking ring and the spin basket are located inside the mop bucket; when the spin basket is in a high position, the upper edges of the water-blocking ring and the upper edges of the spin basket are higher than the mop bucket, and the liquid spun out by the spin basket is blocked by the water-blocking ring and flows back into the mop bucket along the inner wall of the water-blocking ring. The spin basket is positioned at a high position, with a height difference L between the upper edge of the spin basket and the upper edge of the mop bucket.

2. The lifting mop bucket according to claim 1, characterized in that: The upper end of the water-blocking ring is provided with a baffle, which covers the upper end of the water-spraying basket; the baffle can block the splashing water.

3. The lifting mop bucket according to claim 2, characterized in that: The baffle bends inward to form a concave cavity; as the water-spinning basket rotates, the liquid moves upward along the inner wall of the baffle ring and impacts the concave cavity, which blocks the upward-flowing liquid and returns it to the mop bucket.

4. The lifting mop bucket according to claim 1, 2, or 3, characterized in that: It includes a support frame, a water-spinning basket that rotates on the support frame, and a water-blocking ring that is fixed on the support frame.

5. The lifting mop bucket according to claim 4, characterized in that: At least two lifting seats are fixedly installed on the body of the mop bucket. The side of the lifting seat has a circulation track, and the circulation track is provided with the low-position stopping part and the high-position stopping part. The bracket or water-blocking ring is provided with a protruding edge that moves along the circulation track and can stop on the low-position stopping part or the high-position stopping part.

6. The lifting mop bucket according to claim 4, characterized in that: A rotating shaft is provided in the middle of the bracket, and the rotating shaft is rotatably connected to the water-spinning basket. A wear-resistant sleeve and / or bearing is provided between the rotating shaft and the water-spinning basket.

7. The lifting mop bucket according to claim 6, characterized in that: The rotating shaft includes a connecting shaft and a positioning shaft. The positioning shaft is fixed / integratedly formed on the bracket. The positioning shaft and the connecting shaft are sleeved together and fastened by a buckle. The upper edge of the connecting shaft is provided with a skirt. The water-spraying basket is sleeved on the rotating shaft and is limited below the skirt.

8. The lifting mop bucket according to claim 6 or 7, characterized in that: The water-spinning basket is equipped with planar bearings at both the upper and lower ends; the upper planar bearing abuts against the lower surface of the skirt on one side and against the concave surface of the water-spinning basket on the other side; the lower planar bearing abuts against the concave surface of the water-spinning basket on one side and against the surface of the support or the step surface of the rotating shaft on the other side.

9. The lifting mop bucket according to claim 6 or 7, characterized in that: A metal shaft is fixedly installed in the middle of the mop bucket body, and a longitudinal through hole is provided in the middle of the shaft. During the lifting and lowering of the water-spinning basket, the metal shaft always remains in the longitudinal through hole; an annular groove is provided at the upper end of the shaft.

10. The lifting mop bucket according to claim 1, 2, 3, 6, 7, or 9, characterized in that: The bottom of the mop bucket is provided with a plug; the spin basket is in a low position, the plug extends into the gap of the spin basket and restricts the spin basket from rotating.