CN220192949U - Scraper structure, cleaning barrel using same and hand-free mop - Google Patents

Abstract

The utility model belongs to the technical field of cleaning tools, and particularly relates to a scraper structure, a cleaning barrel and a hand-free mop using the scraper structure, which solve the problems of poor water scraping effect and laborious reverse movement of the mop to water scraping. The scraper structure is arranged in a cleaning channel of the cleaning mop, the scraper structure comprises a scraper seat and a scraper arranged on the scraper seat, the scraper comprises a hinged end and a rotating end, the hinged end is hinged on the scraper seat, the rotating end is provided with a water scraping part at one side of the mop entering into water scraping, and the scraper seat further comprises a unidirectional limiting structure; when the mop is in relative water scraping with the scraper seat, the unidirectional limiting structure can limit the scraper to rotate so that the water scraping part scrapes the mop, when the mop is in relative water scraping with the scraper seat, the scraper reversely rotates to give way, so that the water scraping part is separated from the mop, and the resistance of mop return is reduced. The scraping and washing effects are good, the return resistance is small, and the return is easy.

Description

Scraper structure, cleaning barrel using same and hand-free mop

Technical Field

The utility model belongs to the technical field of cleaning tools, and particularly relates to a scraper structure, a cleaning barrel using the scraper structure and a hand-free mop.

Background

The mop is a cleaning tool commonly used in daily life of people, and at present, a flat plate type mop is widely used, and for the dehydration mode of the flat plate type mop, three main types are available: firstly, the operation is troublesome due to the pedal extrusion type, and the dehydration effect is general; secondly, centrifugal spin-drying is relatively complex in structure and relatively high in cost; thirdly, hand-push extrusion type dehydration is laborious to operate and not strong in operability.

The patent with publication number CN112674670A discloses a mop bucket for cleaning and squeezing a mop, wherein the mop comprises a mop head and a mop handle, the mop head can be put into the mop bucket for cleaning and squeezing when being rotated to be parallel to the mop handle, and the mop bucket comprises a water storage area and a cleaning and squeezing area; the upper end of the mop bucket is provided with a water guide piece and a water scraping piece; after the mop head enters the cleaning and squeezing area, the water guide piece guides water in the water storage area to the mop head, and the water scraping piece scrapes water on the mop head and flows back to the water storage area along the water scraping piece.

In the prior art, the scraping plate is reset through the spring, and when the mop is to be withdrawn, the scraping plate has a large retarding force on the mop due to the action of the spring, so that the withdrawal of the mop is laborious.

Disclosure of Invention

The utility model aims at solving the problems in the prior art and provides a scraper structure which has good scraping effect and saves labor and is easy when a mop moves reversely in the scraping direction.

Another object of the present utility model is to provide a cleaning bucket using the doctor blade structure, which solves the above-mentioned problems of the prior art.

Another object of the present utility model is to provide a hands-free mop using the scraper structure, which solves the above-mentioned problems of the prior art.

The aim of the utility model can be achieved by the following technical scheme: the scraper structure is arranged in a cleaning channel of the cleaning mop, the scraper structure comprises a scraper seat and a scraper arranged on the scraper seat, the scraper comprises a hinged end and a rotating end, the hinged end is hinged on the scraper seat, the rotating end is provided with a water scraping part at one side of the mop entering into water scraping, and the scraper seat further comprises a unidirectional limiting structure; when the mop is in relative water scraping with the scraper seat, the unidirectional limiting structure can limit the scraper to rotate so that the water scraping part scrapes the mop, when the mop is in relative water scraping with the scraper seat, the scraper reversely rotates to give way, so that the water scraping part is separated from the mop, and the resistance of mop return is reduced.

The rotatable scraper is arranged on the scraper seat, the scraping part is arranged on the scraper and used for realizing the scraping function of the mop, the scraping part is arranged on one side which is close to the mop and enters into the start of scraping, the unidirectional limiting structure plays a limiting role on the scraper, the scraper is limited to rotate when scraping water, the contact between the scraping part and the mop is kept, the scraper reversely rotates and rotates to incline when the mop returns to the original position, the scraping part points to the returning direction of the mop, the scraping part is separated from the contact with the mop, the resistance of the returning and withdrawing of the mop is reduced, and the mop is more labor-saving.

In the scraper structure, the unidirectional limiting structure comprises a V-shaped groove, the V-shaped groove is formed in the scraper seat, the hinged end is hinged to the bottom of the V-shaped groove, the V-shaped groove comprises a first limiting surface and a second limiting surface, the rotating end is driven by the mop to scrape water, the scraper abuts against the first limiting surface, and the scraper abuts against the second limiting surface when the mop returns.

The scraper is hinged in the V-shaped groove, the rotation of the scraper is limited between the first limiting surface and the second limiting surface, the scraper is propped against the first limiting surface and is limited to rotate when the mop is scraped, the scraper is guaranteed to keep in contact with the mop to realize the water scraping function, the scraper can be propped against the second limiting surface when the mop is retracted, the water scraping part is not contacted with the mop any more, or the water scraping part can be contacted with the mop along the return direction of the mop, the resistance to the return of the mop is small, the other side of the end part of the scraper is contacted with the mop, and the scraper can be driven to rotate to a water scraping state when the movement direction of the mop is adjusted to the water scraping direction.

In the scraper structure, the first limiting surface is obliquely arranged and is inclined towards the water scraping direction of the mop.

The first limiting surface is obliquely arranged, the wiping direction of the mop is inclined, and when the mop is wiped, the scraper is abutted against the first limiting surface and is in an inclined state, and as the wiping part is positioned at one side close to the mop and protrudes, the wiping part can keep contact with the mop to realize the wiping function.

In the scraper structure, the first limiting surface is arranged horizontally or slightly inclined towards the return direction of the mop.

As a parallel scheme of the first limiting surface, the first limiting surface is horizontal or slightly inclined, which is equivalent to that the scraper is vertical or approximately vertical to the mop, and at the moment, the water scraping part protrudes out of the end part of the scraper in the horizontal direction, so that the water scraping part can keep contact with the mop to realize water scraping.

In the scraper structure, the second limiting surface is obliquely arranged and is inclined towards the return direction of the mop.

The second limiting surface is obliquely arranged, the return direction of the mop is inclined, and when the mop returns, the scraper abuts against the second limiting surface, namely, the scraper is inclined along the direction of the mop, so that the resistance to the return of the mop is small.

In the scraper structure, the water scraping part comprises a small scraping strip, and the small scraping strip is fixedly arranged on one side of the rotating end, which is close to the second limiting surface.

The small scraping strip is arranged on the rotating end, the water scraping function is achieved, the small scraping strip is arranged on one side close to the second limiting surface, when water is scraped, the small scraping strip can be in contact with the mop to achieve water scraping, when the mop returns, the scraper is arranged between the small scraping strip and the mop, namely the water scraping portion can not prop against the mop, and therefore the mop returns to be labor-saving.

In the scraper structure, the small scraping strip obliquely extends out of the end part of the rotating end, and when the mop scrapes water, the small scraping strip is exposed out of contact with the mop to realize water scraping.

The length direction of the section of the scraper is seen, the small scraping strip is more protruded than the front end of the rotating end, when the scraper scrapes water, the scraper abuts against the first limiting surface, and at the moment, the small scraping strip reversely points to the mop, so that a good water scraping effect is ensured.

In the above scraper structure, the scraper is made of hard materials.

The scraper is made of hard materials, and particularly keeps rigidity when abutting against the first limiting surface, so that the scraping part and the mop are kept in close contact, and the scraping function is smoothly realized.

Another object of the present utility model is to provide a cleaning barrel using the above scraper structure, which comprises a barrel body, wherein a cleaning channel is arranged in the barrel body, and the scraper structure is arranged in the cleaning barrel.

The scraper structure is fixedly arranged in the cleaning barrel, and the mop can be used for cleaning and scraping water in the cleaning barrel, so that the operation is convenient.

Another object of the present utility model is to provide a hands-free mop with the above-mentioned scraper structure, which comprises a mop rod and a mop rotatably connected to the end of the mop rod, wherein the outside of the mop rod is sleeved with a wiper rack, and when the mop rotates to be parallel to the mop rod, the wiper rack can be sleeved on the mop and reciprocate along the mop to achieve wiping, and the scraper structure is arranged in the wiper rack.

Above-mentioned scraper structure sets up on scraping the water frame, and the mop rotates to be connected on the mop pole, and the mop can rotate to being parallel with the mop pole promptly to form the cooperation with scraping the water frame, scrape the water frame and can overlap and locate on the mop, the mop is scraping the in-process of water frame reciprocating motion, and scraper structure is specific to realizing scraping the water effect to the mop, and is practical convenient.

In contrast to the prior art, the method has the advantages that,

1. the scraper with the scraper structure can rotate in the V-shaped groove, when the scraper scrapes water, the scraper abuts against the first limiting surface, the water scraping part arranged on one side of the end part of the rotating end tightly contacts the mop against the water scraping direction to achieve a good water scraping effect, when the mop returns, the scraper rotates to abut against the second limiting surface, and at the moment, the small scraping strip points to the returning direction of the mop, and is not tightly contacted with the mop any more, so that the returning of the mop is more labor-saving;

2. the cleaning barrel with the scraper structure is provided with the scraper structure in the barrel body, so that the mop can be cleaned and scraped in the barrel body, the cleaning effect is improved, the extra water scraping work is avoided, and the cleaning barrel is practical and convenient;

3. this use no-hand-washing mop of scraper structure is provided with scrapes the water frame, is equipped with the scraper structure in the water frame of scraping, scrapes the water frame and can overlap on the mop, and at the relative mop reciprocating motion in-process of scraping the water frame, the scraper structure specifically realizes scraping the water effect to the mop, scrapes the water effectually, and when the mop moves to the opposite direction of scraping, more laborsaving, the mop can wash water with scraping water in order to wash the mop fast effectively, convenient to use.

Drawings

Fig. 1 is a schematic sectional structure of a cleaning bucket using a scraper structure (mop-scraping state) of embodiment 1;

fig. 2 is a schematic sectional structure of a cleaning bucket using a scraper structure of embodiment 1 (mop return state);

fig. 3 is a schematic cross-sectional structure of the doctor blade structure of embodiment 1;

fig. 4 is a schematic cross-sectional structure of a cleaning bucket using a scraper structure (mop-scraping state) of example 2;

fig. 5 is a schematic sectional structure of a cleaning bucket using a scraper structure of example 2 (mop return state);

FIG. 6 is a schematic cross-sectional view of a hands-free mop (mop-wiping state) using a scraper structure of example 3;

fig. 7 is a schematic sectional view of a hand-free mop (mop-return state) using the scraper structure of example 3.

In the figure, a scraper structure 1, a scraper seat 2, a one-way limiting structure 21, a V-shaped groove 22, a first limiting surface 23, a second limiting surface 24, a scraper 3, a hinged end 31, a rotating end 32, a scraping part 33, a small scraping strip 34, a cleaning channel 4, a scraping frame 5, a mop 61, a mop rod 62 and a barrel body 7.

Detailed Description

The following are specific embodiments of the present utility model and the technical solutions of the present utility model will be further described with reference to the accompanying drawings, but the present utility model is not limited to these embodiments.

Example 1

1-3, a scraper structure 1 is disposed in a cleaning channel 4 of a cleaning mop, the scraper structure 1 comprises a scraper seat 2 and a scraper 3 disposed on the scraper seat 2, the scraper 3 comprises a hinged end 31 and a rotating end 32, the hinged end 31 is hinged on the scraper seat 2, the rotating end 32 is provided with a water scraping part 33 at one side of the mop 61 entering into water scraping, and the scraper seat 2 further comprises a unidirectional limiting structure 21; when the mop 61 scrapes water relative to the scraper seat 2, the unidirectional limiting structure 21 can limit the scraper 3 to rotate so that the water scraping part 33 scrapes water for the mop 61, and when the mop 61 returns relative to the scraper seat 2, the scraper 3 reversely rotates to yield so that the water scraping part 33 is separated from the mop 61, and the return resistance of the mop 61 is reduced.

Specifically, set up rotatable scraper 3 on the scraper seat 2, be provided with on scraper 3 and scrape water portion 33 for realize the function of scraping to mop 61, scrape water portion 33 and set up in being close to the one side that mop 61 got into and begin scraping, the upside of scraper 3 is located to water portion 33 in this embodiment, one-way limit structure 21 plays spacing effect to scraper 3, when scraping, restriction scraper 3 rotates, keep scraping water portion 33 and mop 61's contact, when mop 61 returns, scraper 3 reverse rotation changes to the slant, directional mop 61 return direction, it is out of contact to scrape water portion 33 and mop 61, reduce the resistance that mop 61 return was withdrawn, it is more laborsaving.

As shown in fig. 1 and 2, the cleaning barrel using the scraper structure 1 comprises a barrel body 7, wherein a cleaning channel 4 is arranged in the barrel body 7, and the scraper structure 1 is arranged in the barrel body 7

Specifically, the scraper structure 1 is fixedly arranged in the cleaning barrel, the mop 61 can be cleaned and scraped in the barrel body 7, and the operation is convenient.

As shown in fig. 3, the unidirectional limiting structure 21 includes a V-shaped groove 22, the V-shaped groove 22 is formed on the scraper seat 2, the hinge end 31 is hinged at the bottom of the V-shaped groove 22, the V-shaped groove 22 includes a first limiting surface 23 and a second limiting surface 24, when the rotating end 32 is driven by the mop 61 to scrape water, the scraper 3 abuts against the first limiting surface 23, and when the mop 61 returns, the scraper 3 abuts against the second limiting surface 24. The first stopper surface 23 is inclined and inclined in the wiping direction of the mop 61. The second limiting surface 24 is inclined and inclined in the returning direction of the mop 61.

Specifically, the scraper 3 is hinged in the V-shaped groove 22, the rotation of the scraper 3 is limited between the first limiting surface 23 and the second limiting surface 24, when the mop is scraped, the scraper 3 is abutted against the first limiting surface 23 and is limited to rotate, the scraper 3 is guaranteed to keep contact with the mop 61 to realize the scraping function, when the mop 61 is retracted, the scraper 3 is abutted against the second limiting surface 24, the scraping part 33 is separated from the mop 61, the resistance to the returning of the mop 61 is small, the other side of the end part of the scraper 3 is contacted with the mop 61, and when the movement direction of the mop 61 is adjusted to the scraping direction, the scraper 3 can be driven to rotate to a scraping state.

The first limiting surface 23 is obliquely arranged, and is inclined downward in the wiping direction of the mop 61, and when wiping, the scraper 3 abuts against the first limiting surface 23, and in an inclined state, the wiper portion 33 is located at the upper side of the scraper 3 and protrudes, so that the wiper portion 33 can keep contact with the mop 61 to realize a wiping function. The second limiting surface 24 is obliquely arranged, and is inclined to the return direction of the mop 61, in this embodiment, the mop 61 is obliquely upward, and when the mop 61 returns, the scraper 3 abuts against the second limiting surface 24, namely, is inclined along the direction of the mop 61, so that the resistance to the return of the mop 61 is small.

Preferably, the wiper portion 33 includes a small wiper 34, and the small wiper 34 is fixedly disposed on the rotating end 32 near the side of the second limiting surface 24. The small scraping strip 34 obliquely extends out of the end part of the rotating end 32, and when the mop 61 scrapes water, the small scraping strip 34 is exposed out of contact with the mop 61 to realize water scraping.

In other words, the small scraping strip 34 is disposed on the rotating end 32, and specifically realizes the scraping function, the small scraping strip 34 is on one side close to the second limiting surface 24, and can contact with the mop 61 to realize the scraping when the mop 61 is in return, the scraper 3 is disposed between the small scraping strip 34 and the mop 61, that is, the scraping part 33 cannot prop against the mop 61, the mop 61 is in return labor-saving, the small scraping strip 34 protrudes more than the front end of the rotating end 32 in the length direction of the section of the scraper 3, and when the scraper is in scraping, the scraper 3 props against the first limiting surface 23, and at this time, the small scraping strip 34 reversely points to the mop 61, so that a good scraping effect is ensured.

Preferably, the scraper 3 is made of hard material, and particularly keeps rigidity when abutting against the first limiting surface 23, so that the scraping part 33 is kept in close contact with the mop 61, and the scraping function is smoothly realized.

The specific working principle is as follows: in the initial state, the scraper 3 is inclined downwards and is abutted against the first limiting surface 23, the small scraping strip 34 is exposed, when the mop 61 enters the cleaning channel 4, the cleaning surface of the mop 61 is tightly contacted with the small scraping strip 34, and the small scraping strip 34 achieves the water scraping effect; when the mop 61 returns, the scraper 3 is driven by the mop 61 to swing upwards and is abutted against the second limiting surface 24, and at the moment, the small scraper 34 points upwards and is separated from contact with the mop 61, and the other side of the scraper 3 is contacted with the mop 61; when the mop 61 is used for wiping again, the mop 61 moves downwards to drive the scraper 3 to swing to abut against the first limiting surface 23, and the small scraping strip 34 is in close contact with the mop 61 to start wiping; the mop 61 is cleaned and shaved by repeating this operation.

Example 2

The specific operation principle of the present embodiment is basically the same as that of embodiment 1, except for the first limiting surface 23.

In the specific embodiment, as shown in fig. 4 and 5, the first limiting surface 23 is horizontally disposed.

Specifically, the first limiting surface 23 is horizontal, which corresponds to that the scraper 3 is vertical to the mop 61, at this time, in the horizontal direction, the water scraping part 33 protrudes from the end part of the scraper 3, so that the water scraping part 33 can keep contact with the mop 61 to scrape water, in this embodiment, when the mop 61 returns, the stroke of the scraper 3 needs to be shorter, and the returning of the mop 61 is more labor-saving.

Example 3

The specific working principle of this embodiment is basically the same as that of embodiment 1, except that the scraper structure 1 is provided in a hands-free mop.

The embodiment is shown in fig. 6 and 7, and the hand-free mop 61 with the scraper structure 1 comprises a mop rod 62 and a mop 61 rotatably connected to the end part of the mop rod 62, wherein the outer side of the mop rod 62 is sleeved with a water scraping frame 5, and when the mop 61 rotates to be parallel to the mop rod 62, the water scraping frame 5 can be sleeved on the mop 61 and can reciprocate along the mop 61 to realize water scraping, and the scraper structure 1 is arranged in the water scraping frame 5.

Specifically, the scraper structure 1 is arranged on the wiper frame 5, the mop 61 is rotationally connected to the mop rod 62, namely, the mop 61 can be rotated to be parallel to the mop rod 62 so as to be matched with the wiper frame 5, the wiper frame 5 can be sleeved on the mop 61, and the mop 61 can achieve a wiping effect on the mop 61 in the reciprocating motion process of the wiper frame 5, so that the scraper structure 1 is practical and convenient.

The specific working principle is as follows: when the mop 61 is to be cleaned, the mop 61 is rotated to be parallel to the mop rod 62, the wiper rack 5 is pulled to be sleeved on the mop 61 to reciprocate, the first limiting surface 23 is arranged obliquely upwards in the embodiment, and the wiper part 33 is arranged at the lower side of the scraper 3. When the wiper frame 5 moves downwards relative to the mop 61, the scraper 3 is propped against the first limiting surface 23 obliquely upwards, and the small wiper strip 34 is in close contact with the mop 61, so that the wiping function is realized; when the wiper frame 5 rotates relative to the mop 61 and moves upwards to return, the wiper 3 is driven by the mop 61 to rotate to abut against the second limiting surface 24 obliquely downwards, at the moment, the small wiper strip 34 points downwards to be separated from contact with the mop 61, the other side of the wiper 3 contacts with the mop 61, the return resistance of the wiper frame 5 is small, and the return is easy. With such repeated scraping and washing operations in combination with rinsing, the mop 61 can conveniently complete washing and scrape most of the water.

Of course, the doctor structure 1 of the present embodiment may be replaced with the doctor structure 1 of embodiment 2.

The specific embodiments described herein are offered by way of example only to illustrate the spirit of the utility model. Those skilled in the art may make various modifications or additions to the described embodiments or substitutions thereof without departing from the spirit of the utility model or exceeding the scope of the utility model as defined in the accompanying claims.

Claims (10)

1. The utility model provides a scraper structure, sets up in clean passageway (4) of clean mop, its characterized in that, scraper structure (1) include scraper blade holder (2) and set up scraper (3) on scraper blade holder (2), scraper (3) include articulated end (31) and rotation end (32), articulated end (31) articulated on scraper blade holder (2), rotation end (32) be equipped with in mop (61) get into one side of scraping and scrape water portion (33), scraper blade holder (2) still include unidirectional limiting structure (21); when the mop (61) scrapes water relative to the scraper seat (2), the unidirectional limiting structure (21) can limit the scraper (3) to rotate so that the water scraping part (33) scrapes water relative to the mop (61), when the mop (61) returns relative to the scraper seat (2), the scraper (3) reversely rotates to give way, so that the water scraping part (33) is separated from the mop (61), and the return resistance of the mop (61) is reduced.

2. The scraper structure according to claim 1, wherein the unidirectional limiting structure (21) comprises a V-shaped groove (22), the V-shaped groove (22) is formed in the scraper seat (2), the hinged end (31) is hinged to the bottom of the V-shaped groove (22), the V-shaped groove (22) comprises a first limiting surface (23) and a second limiting surface (24), and the scraper (3) abuts against the first limiting surface (23) when the rotating end (32) is driven by the mop (61) to scrape water, and the scraper (3) abuts against the second limiting surface (24) when the mop (61) returns.

3. A scraper structure according to claim 2, characterized in that the first limit surface (23) is inclined in a direction inclined to the direction of scraping of the mop (61).

4. The scraper structure according to claim 2, wherein the first limiting surface (23) is disposed horizontally or slightly inclined to the returning direction of the mop (61).

5. A scraper structure according to claim 2, 3 or 4, characterized in that the second limit surface (24) is inclined in a direction inclined to the return direction of the mop (61).

6. The scraper structure according to claim 2, wherein the wiper portion (33) includes a small wiper strip (34), and the small wiper strip (34) is fixedly disposed on a side of the rotating end (32) near the second limiting surface (24).

7. The scraper structure according to claim 6, wherein the small scraping strip (34) extends obliquely out of the end of the rotating end (32), and when the mop (61) scrapes water, the small scraping strip (34) is exposed to contact the mop (61) to realize water scraping.

8. Doctor blade structure according to any of claims 1-4, characterized in that the doctor blade (3) is made of a hard material.

9. A cleaning barrel using the scraper structure of claim 1, comprising a barrel body (7), wherein a cleaning channel (4) is arranged in the barrel body (7), and the cleaning barrel is characterized in that: the scraper structure (1) is arranged in the barrel body (7).

10. The utility model provides a wash-by-hand mop of application claim 1, includes mop pole (62) and rotatable mop (61) of connecting in mop pole (62) tip, mop pole (62) outside cover be equipped with and scrape water rack (5), when mop (61) rotate to be parallel with mop pole (62) scrape water rack (5) can overlap and locate mop (61) and realize scraping water along mop (61) reciprocating motion, its characterized in that, scraper structure (1) set up in scrape water rack (5).