CN215424467U - Handheld extrusion water scraping tool - Google Patents

Abstract

The utility model relates to a handheld squeezing and wiping tool which is used as an accessory of a flat mop and is matched with the flat mop for use, the flat mop comprises a flat mop head, and a wiping object is arranged on the bottom surface of the flat mop head, wherein the handheld squeezing and wiping tool is an independent object and is provided with a handheld handle, a pressing and wiping part for squeezing and wiping the wiping object, and a supporting part which is arranged opposite to the pressing and wiping part, a squeezing opening is formed between the pressing and wiping part and the supporting part, one end of the flat mop head is inserted into the squeezing opening, the pressing force is applied to the wiping object by the pressing and wiping part due to the limitation of the squeezing opening, and then the wiping object is moved and squeezed and wiped by the relative movement between the pressing and wiping object.

Description

Handheld extrusion water scraping tool

Technical Field

The utility model belongs to a cleaning tool, can be used as an accessory of a flat mop in cooperation with the flat mop, and is a tool capable of squeezing and wiping water on a wiping object on the flat mop.

Background

The flat mop is a popular mop, which comprises a mop rod and a flat mop head, wherein the flat mop head comprises a flat plate body and a wiping material arranged on the bottom surface of the flat plate body, the flat mop is convenient to use when used for wiping the floor, and is inconvenient in cleaning and dewatering the wiping material, the wiping material is usually formed by compounding and sewing multiple layers of sheet materials such as fiber fabrics, sponges and the like, and the utility model focuses on dewatering the cleaned wiping material. When it is desired to clean and dewater a wipe, there are several methods, method 1: the wiping objects are taken off from the flat plate body, the wiping objects are manually cleaned like clothes washing, and the wiping objects are screwed off and then are arranged on the bottom surface of the flat plate body, so that the labor intensity of the method is high, and the wiping surface is not sanitary when the hands touch the wiping surface; the method 2 comprises the following steps: the flat mop is provided with a handheld scraper-shaped accessory, the tool is held by hands to press the wiping object and move on the wiping surface of the wiping object, and the wiping surface of the wiping object is scraped; the method 3 comprises the following steps: the patent with the application number CN201420624020.1 and the name of 'a self-squeezing horizontal plate mop' introduces a method that the lower end of a mop rod is sleeved with a strip sleeve, the lower end of the strip sleeve is provided with a strip head, the strip head is provided with a through hole, and the through hole is provided with a water squeezing mechanism, so that the hand is not required to be wetted, but the transmission mechanism is complicated, the longer mop rod is not easy to handle, and water is easily squeezed outside a cleaning pool or a mop barrel during water squeezing; the method 4 comprises the following steps: the application number CN201610658179.9, entitled "a squeezing flat mop cleaning tool", describes a method for making a flat mop head upright, making the flat mop head match with a cleaning mechanism on a mop bucket and making the flat mop head move up and down, a scraping structure arranged on the cleaning mechanism on the mop bucket is used for dewatering wiping articles, the method is more convenient for dewatering, the disadvantage is that a customized mop bucket needs to be matched, the mop bucket needs to receive water before use and pour water after use, the wiping articles on the upright flat mop head can be completely immersed in the water only when the water level added in the mop bucket is higher, thereby causing the waste of water, and the cleaning tool is especially not suitable for small-area places needing to be frequently wiped in a kitchen, a toilet and the like, the inner wall of the mop bucket is not easy to clean after use, and the inside of the bucket is a place for storing dirt and containing dirt.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model provides a squeezing wiper tool capable of being operated by hands, which is used as an accessory of a flat mop and is matched with the flat mop.

In order to solve the above technical problems, the utility model comprises the following contents:

the utility model provides a handheld extrusion wiping tool, as dull and stereotyped mop's annex with dull and stereotyped mop is supporting to be used, dull and stereotyped mop includes mop pole and dull and stereotyped mop head, the lower extreme of mop pole with the upper portion swing joint of dull and stereotyped mop head, the bottom surface of dull and stereotyped mop head is equipped with wiping material, its characterized in that: the handheld squeezing and water scraping tool is an independent object, a handle for holding is arranged on the handheld squeezing and water scraping tool, a pressing water scraping piece for squeezing and water scraping of the wiper and a supporting piece opposite to the pressing water scraping piece are further arranged on the handheld squeezing and water scraping tool, and a squeezing opening is formed between the pressing water scraping piece and the supporting piece; the squeezing wiping process is that one hand is used for controlling the flat mop head, the other hand is used for holding the handle on the handheld squeezing wiping tool, one end of the flat mop head is inserted into the squeezing opening, the supporting piece is abutted against the plane parallel to and opposite to the wiping surface of the wiper on the flat mop head, due to the limitation of the squeezing opening, the pressing wiping piece exerts pressing force on the wiper, and then the wiping is moved and squeezed to wipe through the relative movement between the pressing wiping piece and the wiper.

Preferably, an inverted U-shaped handle is arranged at the center of the upper part of the flat mop head, the outer sides of straight edges at two sides of the inverted U-shaped handle are respectively provided with 1 circular shaft-shaped convex connecting component, 2 circular shaft-shaped convex connecting components are respectively provided with a circular shaft, and the circular shafts are on the same axis; the mop is characterized in that the lower end of the mop rod is provided with a clamping seat which is also in an inverted U shape, the lower ends of straight edges at two sides of the inverted U-shaped clamping seat are provided with open concave connecting parts, open grooves formed in the open concave connecting parts are in rotating fit with the round shaft formed in the convex connecting parts, and the inverted U-shaped handle can be covered when the inverted U-shaped clamping seat rotates to a position vertical to the wiping surface of the wiper; the opening-shaped concave connecting component is also provided with an elastic deformation mechanism matched with the round shaft, the elastic deformation mechanism generates maximum elastic deformation when being matched with the diameter of the round shaft, the elastic deformation mechanism overcomes the elasticity, the connection and the separation of the round shaft-shaped convex connecting component and the opening-shaped concave connecting component can be realized, and the connection and the separation of the mop rod and the flat mop head can also be realized.

Preferably, the flat mop head comprises a connecting seat and a flat plate body, the upper part of the connecting seat is movably connected with the lower end of the mop rod, the lower part of the connecting seat is connected with the upper part of the flat plate body, the connection is detachable and mountable, the bottom surface of the flat plate body is provided with the wiping object, and the upper part of the flat plate body is also provided with a handle.

As a further preference, the number of the flat plate bodies may be 1 or 2.

Preferably, when the extrusion wiping operation is performed, the cross section of the contact part of the pressing wiping piece and the wiper is in a tapered shape from large to small, and the foremost end of the pressing wiping piece at the extrusion opening is in a linear shape with a sharp corner or in a small plane shape with a width smaller than 2 mm.

Preferably, the pressing wiper element is rotatably arranged on the handheld pressing wiper tool, and the size of the extrusion opening can be changed by the rotation of the pressing wiper element.

As a further preference, the hand-held extrusion wiping tool can reciprocate relative to the wiper, and the hand-held extrusion wiping tool is further provided with a limiting mechanism for limiting the rotation range of the compression wiping piece, when the hand-held extrusion wiping tool moves in a certain direction relative to the wiper, the wiper drives the compression wiping piece to rotate, and the compression wiping piece rotates to a position limited by the limiting mechanism, and then the compression wiping piece is in a narrow position relative to the supporting piece; when the handheld squeezing wiper tool moves in the opposite direction relative to the wiper, the wiper drives the pressing wiper to rotate in the opposite direction, the pressing wiper rotates to another position limited by the limiting mechanism, and the pressing wiper is in a wide position relative to the supporting piece.

Preferably, the support member is a rotatable roller-like structure.

Preferably, the hand-held wiper tool is further provided with a comb-shaped wiping mechanism.

By implementing the utility model, when the wiping material on the flat mop head needs to be dewatered after being cleaned, the flat mop head is controlled by one hand, the handle on the handheld squeeze wiping tool is held by the other hand, one end of the flat mop head is inserted into the squeezing opening, the supporting piece is abutted against the plane parallel to and opposite to the wiping surface of the wiping material on the flat mop head, the squeezing wiping piece exerts pressing force on the wiping material due to the limitation of the squeezing opening, and then the handheld squeeze wiping tool and the wiping material are moved relatively for a plurality of times through the relative movement between the squeezing wiping piece and the wiping material so as to wipe off excessive moisture contained in the wiping material and achieve the required wiping moisture.

The mop has the advantages that the flat mop head or the flat body on the flat mop head can be conveniently detached, the flat mop head or the flat body is also provided with the handle, the flat mop head or the flat body with small volume can be conveniently cleaned in a water pool, and the handheld squeezing water scraping tool can be conveniently used for dewatering operation in the water pool.

In summary, the hand-held squeezing and water scraping tool has a simple structure, does not need to be additionally provided with a mop bucket, and is flexible and convenient in dehydration operation, so that the utility model has outstanding advantages.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a diagram illustrating a structure according to an embodiment of the present invention;

FIG. 2 is an exploded view of the structure of the embodiment;

FIG. 3 is a view showing an explanatory view of a dewatering operation of the embodiment in which one hand holds a handle of the flat mop head and the other hand holds a handle of the wiper tool;

FIG. 4 is a view showing the construction of the hand-held wiper tool when the wiper member is rotated to a narrow position in this embodiment;

FIG. 5 is an explanatory view showing a structure in which the hand-held wiper blade and the wiper are moved relative to each other when the wiper member is rotated to a narrow position in this embodiment;

FIG. 6 is a view showing the construction of the hand-held squeeze wiper tool in the embodiment in which the squeeze wiper member is rotated to a wide position;

FIG. 7 is an explanatory view showing the structure in which the hand-held wiper blade and the wiper are moved relative to each other when the wiper member is rotated to the wide position in this embodiment;

FIG. 8 is a view illustrating a structure according to another embodiment of the present invention;

fig. 9 is an exploded view of the structure of this embodiment;

fig. 10 is a view showing an explanatory view of a dewatering operation of the embodiment in which one hand holds a handle of one of the flat plate bodies and the other hand holds a handle of the wiper blade to squeeze the same.

Detailed Description

The utility model is further described with reference to the following figures and examples.

Fig. 1 is a view illustrating a structure according to an embodiment of the present invention, and fig. 2 is an exploded view illustrating the structure of the embodiment. As shown in fig. 1 and 2, the flat mop has a hand-held wiper blade (3) as an accessory, and the hand-held wiper blade (3) is used with the flat mop; the flat mop comprises a mop rod (1) and a flat mop head (2), a wiping object (23) is arranged on the bottom surface of the flat mop head (2), the mop rod (1) and the flat mop head (2) are separable, and a handle (21) is further arranged on the upper portion of the flat mop head (2). As shown in fig. 1 and 2, the hand-held extrusion wiper tool (3) is an independent object, the hand-held extrusion wiper tool (3) comprises a hand-held handle (31), 2 vertical walls (34), 2 rotating shafts (35), 2 supporting members (33), 1 extrusion wiper member (32), a narrow-position limiting vertical rib (36) and a wide-position limiting round corner (37), wherein the vertical walls (34) are arranged oppositely, the lower end of each vertical wall (34) is provided with a round hole, the two ends of each compression wiper member (32) are provided with rotating shafts, the extrusion wiper member (32) is rotatably connected to the 2 vertical walls (34), the upper parts of the vertical walls (34) are provided with the rotating shafts (35), the inner holes of the circular supporting members (33) are rotatably connected with the rotating shafts (35), as shown in fig. 1 and 2, the compression wiper member (32) and the supporting members (33) on the hand-held extrusion wiper tool (3) are arranged oppositely, an extrusion opening is formed between the pressing water scraping piece (32) and the supporting piece (33), and the size of the extrusion opening is designed in advance. As shown in fig. 1 and 2, the distance between the 2 parallel vertical walls (34) is slightly larger than the width of the flat mop head, one end of the wiper (23) is sewn with a bag-shaped end (23A) which can be sleeved with a positioning sheet (24) on the flat mop head (2), the wiper (23) is sleeved and connected with the flat mop head (2) in a stressed manner at the end, and the large plane of the wiper (23) is fixed on the bottom surface of the flat mop head (2) by nylon fasteners. Fig. 3 is a use explanatory view of the embodiment, in which one hand holds a handle on a flat mop head and the other hand holds a handle on a hand-held squeeze wiper tool to perform a dewatering operation, as shown in fig. 3, the process of squeezing and wiping the wiper (23) by using the hand-held squeeze wiper tool (3) is to hold the inverted U-shaped handle (21) on the upper portion of the flat mop head (2) with one hand, hold the handle (31) on the hand-held squeeze wiper tool (3) with the other hand, insert one end of the flat mop head (2) connected with the wiper (23) in a sleeving manner into the squeezing port of the hand-held squeeze wiper tool (3), the cylindrical surface of the annular support member (33) abuts against the upper end surfaces of two ribs (25) on the upper portions of the flat mop head (2), and the upper end surfaces of the ribs (25) are parallel to but opposite to the wiping surface of the wiper (23), due to the limitation of the extrusion opening, the pressing wiper (32) applies pressing force to the wiper (23), the wiper (23) is fully compressed at the extrusion opening, and then the pressing wiper (32) and the wiper (23) are moved relatively through the operation of two hands, so that the wiper (23) is moved and squeezed to wipe water.

Fig. 4 is an explanatory view of a structure of the hand-held wiper blade when the wiper blade of this embodiment is rotated to a narrow position, fig. 5 is an explanatory view of a structure of the hand-held wiper blade and the wiper blade of this embodiment that move relative to each other when the wiper blade is rotated to a narrow position, fig. 6 is an explanatory view of a structure of the hand-held wiper blade of this embodiment that is rotated to a wide position, and fig. 7 is an explanatory view of a structure of the hand-held wiper blade and the wiper blade of this embodiment that move relative to each other when the wiper blade is rotated to a wide position. As shown in fig. 2, the pressing wiper element (32) is rotatably mounted on the hand-held wiper tool (3), and in conjunction with fig. 4 to 7, the size of the pressing opening can be changed by rotating the pressing wiper element (32). As shown in fig. 3, 4 and 5, when operated by two hands, the hand-held squeeze wiper (3) can move back and forth relative to the wiper (23) on the flat mop head (2), as shown in fig. 4 and 5, when the flat mop head (2) and/or the hand-held squeeze wiper (3) move in the direction of the arrow shown in fig. 5, the wiper (23) will rub against each other during the relative movement due to the squeezing of the wiper (23) by the squeeze wiper (32) at the squeezing opening, the wiper (23) will drive the squeeze wiper (32) to rotate to the position shown in fig. 4 and 5, in which the rotation of the squeeze wiper (32) is restrained and positioned by the front end face of the narrow position restraining rib (36), and the squeeze wiper (32) is in the narrow position relative to the support (33), in this position, the size of the pressing port is H1, the size of the pressing port is set to be as small as possible H1, the wiper (23) is sufficiently pressed, and moisture in the wiper (23) is easily squeezed out by the relative movement. The other end of the flat mop head (2) is also provided with a stop block (26), when the stop block (26) contacts the support member (33), the flat mop head (2) and/or the handheld squeezing wiper tool (3) can not move continuously and needs to move reversely, as shown in figures 6 and 7, the direction of the arrow in figure 7 needs to move, at the moment, the wiper (23) at the extrusion opening contacts and rubs against the squeezing wiper member (32), the squeezing wiper member (32) which is originally in the narrow position is driven by the wiper (23) at the extrusion opening and rotates reversely to the position as shown in figures 6 and 7, at the moment, the rotation of the squeezing wiper member (32) is limited by the cylindrical surface of the wide position limiting round corner (37), at the moment, the squeezing wiper member (32) is in the wide position relative to the support member (33), in this position, the extrusion opening has dimensions H2, H2 > H1, the wipe (23) is not sufficiently compressed, the relative movement is easier to operate with two hands, but the wiping effect is poor. The relative movement of the narrow position is the extrusion wiping operation, and the relative movement of the wide position is to perform the extrusion wiping operation next time after returning. The relative reciprocating movement is repeated for several times, so that the water on the wiping material (23) can be scraped off to reach the humidity suitable for wiping the ground.

As shown in fig. 4 and 5, when wiping with water by squeezing is performed, the cross section of the contact portion between the wiper blade (23) and the wiper blade (32) is tapered from large to small, and the tip of the wiper blade (32) at the squeezing port is linear or has a sharp corner, or has a small flat shape with a width of less than 2 mm, such as a linear shape with a cutting edge, which is easily scratched by an operator during use and has a low strength at the cutting edge, so that in the present embodiment, a small flat shape with a width of 1 mm is used. The width is required to be less than 2 mm because the smaller front end shape helps to effectively press the wiper (23) and improves the reliability of the wiping operation.

Fig. 1 to 7 show, support piece (33) are the ring form, with pivot (35) are connected for rotating, also the support piece (33) is rotatable roller column structure, is carrying out when the extrusion is scraped water and is operated, the outer face of cylinder of support piece (33) supports the up end of two protruding muscle (25) in dull and stereotyped mop head (2) upper portion both sides be rolling friction when moving each other, compare sliding friction, the operation of both hands can be laborsaving some during rolling friction.

As shown in fig. 1 and 2, the flat mop used with the handheld squeeze wiper (3) is a flat mop in which the mop rod (1) and the flat mop head (2) can be conveniently detached and installed, the upper portion of the flat mop head (2) is provided with an inverted "U" -shaped handle (21) and 2 circular shaft-shaped convex connecting components (22), the circular shaft-shaped convex connecting components (22) are arranged at the outer sides of the straight edges at the two sides of the inverted "U" -shaped handle (21), the circular shaft-shaped convex connecting components (22) comprise outer blocking pieces (22A), inner blocking pieces (22C) and circular shafts (22B), the circular shafts (22B) on the 2 circular shaft-shaped convex connecting components (22) at the 2 sides are on the same axis and have the same diameter, and the axis is parallel to the wiping surface of the wiper (23); as shown in fig. 1 and 2, the clamping seat (11) provided at the lower end of the mop rod (1) is also in an inverted U shape, the lower ends of the straight edges at both sides of the inverted U-shaped clamping seat (11) are provided with open concave connecting components (111), the open concave connecting components (111) are further provided with open grooves (111A), 2 open grooves (111A) are provided at the outer sides of the straight edges at both sides of the inverted U-shaped clamping seat (11), the upper part of the open groove (111A) is provided with a cylindrical surface with a half circumference, the lower part is provided with 2 vertical planes tangential to the cylindrical surface, and the open groove (111A) is rotatably matched with the circular shaft (22B); furthermore, the open-shaped concave connecting part (111) is further provided with an elastic deformation mechanism (111B) which is matched with a circular shaft (22B) arranged on the circular-shaft-shaped convex connecting part (22), 2 elastic deformation mechanisms (111B) are arranged on the inner sides of straight edges at two sides of the inverted U-shaped clamping seat (11), as shown in fig. 2, the elastic deformation mechanisms (111B) are separated from the open grooves (111A) by thin grooves, the upper part of each elastic deformation mechanism (111B) is also provided with 2 thin grooves tangent to the cylindrical surface, the middle of the upper part is provided with about 1/4 circumferential cylindrical surfaces, the existence of the thin grooves facilitates the elastic deformation mechanisms (111B) to generate elastic deformation, the lower part of each elastic deformation mechanism (111B) is provided with a contact cambered surface (111B1), and the upper part of each contact cambered surface (111B1) is provided with a small section of a cylinder which extends downwards after the cylindrical surfaces of about 1/4 circumferences pass through the diameter of the cylinder surfaces The cylindrical surface can also be matched with the circular shaft (22B) in a rotating way, the minimum distance size of the opening of 2 opposite contact arc surfaces (111B1) on the elastic deformation mechanism (111B) is smaller than the diameter size of the circular shaft (22B), when the round shaft (22B) is to be placed in the open groove (111A), the round shaft is blocked by the contact cambered surface (111B1), and the elastic deformation mechanism (111B) is forced to generate elastic deformation under the action of external force, and when the contact cambered surface (111B1) on the elastic deformation mechanism (111B) is matched with the diameter of the circular shaft (22B) to generate maximum elastic deformation, the round shaft (22B) can be arranged in the open groove (111A), and similarly, the round shaft (22B) can be separated from the open concave connecting component (111) by overcoming the elasticity of the elastic deformation mechanism (111B). In summary, by overcoming the elastic force of the elastic deformation mechanism (111B), the round shaft-shaped convex connecting component (22) and the open-shaped concave connecting component (111) can be installed or separated, so that the installation or the detachment of the mop rod (1) and the flat mop head (2) can be conveniently realized. As shown in fig. 1 and 2, when the inverted "U" engaging base (11) is rotated to a position perpendicular to the wiping surface of the wiper (23), the inverted "U" handle (21) can be covered. As shown in FIG. 2, the outer flap (22A) and the inner flap (22C) of the round shaft-shaped male coupling member (22) are chamfered at their edges to facilitate guiding the coupling of the round shaft-shaped male coupling member (22) with the split female coupling member (111). In this embodiment, the minimum distance between the two opposite contact arc surfaces (111B1) of the elastic deformation mechanism (111B) at the opening does not need to be too small, so that the mop rod (1) and the flat mop head (2) do not fall off when the mop rod (1) is lifted upwards.

Fig. 8 is a view illustrating a structure according to another embodiment of the present invention, and fig. 9 is an exploded view illustrating the structure of the embodiment. As shown in fig. 8 and 9, the flat mop has a hand-held wiper blade (3) as an accessory, and the hand-held wiper blade (3) is used with the flat mop; dull and stereotyped mop includes mop pole (1) and dull and stereotyped mop head (2), dull and stereotyped mop head (2) include 1 connecting seat (21) and 2 the same dull and stereotyped bodies (22), the lower extreme of mop pole (1) is equipped with connector (11), be equipped with 2 pivot (111) on an axis on connector (11), the upper portion of connecting seat (21) is equipped with 2 pivot holes (212), the lower extreme of mop pole (1) with the upper portion of connecting seat (21) forms to rotate through pivot (111) and the normal running fit of pivot hole (212) and is connected, and is non-detachable and connects. The lower part of the connecting seat (21) is provided with 2 flat bodies (22), the lower end surface of the connecting seat (21) is contacted with the upper end surface (222) of the flat body (22), the upper central position of each flat body (22) is provided with a handle (221), the bottom surface of each flat body is provided with a wiper (223), as shown in figures 8 and 9, the handle (221) is in an inverted U shape, the connecting seat (21) is provided with 2 open annular rings (211), the inverted U-shaped handle (221) can be inserted into the annular rings (211), the root parts of the cylindrical parts at the two ends of the inverted U-shaped handle (221) are provided with steps (221A), the side surface of the cylindrical step (221A) comprises about 1/3 cylindrical surfaces with circumference and 2 small straight surfaces, and the cylindrical surfaces and the 2 small straight surfaces are made of thermoplastic elastomer, the inner side surface of the annular ring-shaped object (211) also comprises a corresponding cylindrical surface and a corresponding straight surface, the cylindrical surface and the small straight surface of the cylindrical step (221A) and the cylindrical surface and the straight surface of the inner side of the annular ring-shaped object (211) are made of common hard plastics and are in interference fit with each other with friction force, the friction force is overcome, the inverted U-shaped handle (221) can be inserted into or pulled out of the annular ring-shaped object (211), and therefore 2 flat plates (22) and the connecting seat (21) can be assembled and disassembled, and can be detachably connected.

As shown in fig. 8 and 9, the hand-held extrusion wiper tool (3) is an independent object, the hand-held extrusion wiper tool (3) comprises a handle (31) for hand holding, 2 vertical walls (34), 2 supporting members (33) and 1 extrusion wiper member (32), 2 vertical walls (34) are oppositely arranged, the extrusion wiper member (32) is arranged at the lower part of the 2 vertical walls (34) and is communicated with the 2 vertical walls (34), as shown in fig. 9, the cross section of the extrusion wiper member (32) is a cone with a sharp corner at the top from large to small, the cylindrical supporting member (33) is arranged at the upper part of the vertical wall (34), as shown in fig. 8 and 9, the pressing wiper member (32) on the hand-held extrusion wiper tool (3) and the supporting members (33) are oppositely arranged, and an extrusion port is formed between the pressing wiper member (32) and the supporting members (33), the size of the extrusion opening is designed in advance. As shown in fig. 8 and 9, the distance between the 2 parallel vertical walls (34) is slightly larger than the width of the flat plate body (22), one end of the wiper (223) is sewn with a bag-shaped end (223A) which can be sleeved with a positioning sheet (224) on the flat plate body, the wiper (223) is connected with the end of the flat plate body (22) in a sleeved manner and can be stressed, and the large plane of the wiper (223) is fixed on the bottom surface of the flat plate body (22) by nylon fasteners.

Fig. 10 is a view showing an explanatory view of a dewatering operation of the embodiment in which one hand holds a handle of one of the flat plate bodies and the other hand holds a handle of the wiper blade to squeeze the same. As shown in fig. 10, the wiping material (223) is squeezed by the hand-held squeeze wiping tool (3) by holding the inverted U-shaped handle (221) on the upper portion of 1 of the flat plate bodies (22) with one hand, holding the handle (31) on the hand-held squeeze wiping tool (3) with the other hand, inserting one end of the flat plate body (22) to which the wiping material (223) is connected in a sleeving manner into the squeezing port of the hand-held squeeze wiping tool (3), the cylindrical surface of the cylindrical support member (33) is abutted against the upper end surface (222) of the flat plate body (22), the upper end surface (222) is parallel to but opposite to the wiping surface of the wiping material (223), and the squeezing water scraper (32) applies a squeezing force to the wiping material (223) due to the restriction of the squeezing port, and the wiping material (223) is sufficiently compressed at the squeezing port, and then the pressing water scraping piece (32) and the wiping object (223) are relatively moved through the operation of two hands, so that the wiping object (223) is moved, squeezed and scraped, and the operation is repeated for several times, so that the wiping object (223) can reach the humidity suitable for wiping the ground.

As shown in fig. 8, 9 and 10, the flat mop has 2 flat bodies (22), and the width of each flat body (22) is smaller by about 50% in this embodiment than that of a flat mop having only 1 flat body, so that the friction force is smaller by about 50% when the hand-held squeeze wiping tool (3) is used for wiping, and the operation is more labor-saving.

As shown in fig. 8, 9 and 10, a comb-shaped scraping mechanism (35) is further disposed on a side surface of the hand-held squeeze wiper tool (3), and when a cleaning operation is performed in a water tank, the hand-held handle (31) can be held by hand to scrape the wiping surface of the wiper (223) by the comb-shaped scraping mechanism (35), so that the cleaning efficiency can be improved compared with a case of only using a water tap for washing.

It is stated that, in the above 2 embodiments, the flat mop head or the flat body on the flat mop head is convenient to disassemble and assemble, and the handles are arranged on the upper parts of the flat mop head and the flat body, so that the washing and dewatering operations in the pool are more convenient, and the practicability of the utility model is more prominent. However, other combined flat mops can also be applicable to the utility model, for example, the mop rod can not be separated, the flat mop head is controlled by holding the mop rod by hand, and the hand-held squeezing wiper tool is matched for dewatering; or the connecting seat and the flat plate body are not detachable, but the lower end of the mop rod and the upper part of the connecting seat are detachable, the connecting seat is held by hand to control the flat plate body, and the hand-held squeezing water scraping tool is matched for dewatering. Therefore, in the above description of the present invention and the detailed description thereof, only 2 representative embodiments are described, and not all the details are described.

Claims (9)

1. The utility model provides a handheld extrusion wiping tool, as dull and stereotyped mop's annex with dull and stereotyped mop is supporting to be used, dull and stereotyped mop includes mop pole and dull and stereotyped mop head, the lower extreme of mop pole with the upper portion swing joint of dull and stereotyped mop head, the bottom surface of dull and stereotyped mop head is equipped with wiping material, its characterized in that: the handheld squeezing and water scraping tool is an independent object, a handle for holding is arranged on the handheld squeezing and water scraping tool, a pressing water scraping piece for squeezing and water scraping of the wiper and a supporting piece opposite to the pressing water scraping piece are further arranged on the handheld squeezing and water scraping tool, and a squeezing opening is formed between the pressing water scraping piece and the supporting piece; the squeezing wiping process is that one hand is used for controlling the flat mop head, the other hand is used for holding the handle on the handheld squeezing wiping tool, one end of the flat mop head is inserted into the squeezing opening, the supporting piece is abutted against the plane parallel to and opposite to the wiping surface of the wiper on the flat mop head, due to the limitation of the squeezing opening, the pressing wiping piece exerts pressing force on the wiper, and then the wiping is moved and squeezed to wipe through the relative movement between the pressing wiping piece and the wiper.

2. A hand-held wiper tool as defined in claim 1, wherein: an inverted U-shaped handle is arranged in the center of the upper portion of the flat mop head, 1 circular shaft-shaped convex connecting component is arranged on each of the outer sides of straight edges of two sides of the inverted U-shaped handle, circular shafts are arranged on 2 circular shaft-shaped convex connecting components, and the circular shafts are on the same axis; the mop is characterized in that the lower end of the mop rod is provided with a clamping seat which is also in an inverted U shape, the lower ends of straight edges at two sides of the inverted U-shaped clamping seat are provided with open concave connecting parts, open grooves formed in the open concave connecting parts are in rotating fit with the round shaft formed in the convex connecting parts, and the inverted U-shaped handle can be covered when the inverted U-shaped clamping seat rotates to a position vertical to the wiping surface of the wiper; the opening-shaped concave connecting component is also provided with an elastic deformation mechanism matched with the round shaft, the elastic deformation mechanism generates maximum elastic deformation when being matched with the diameter of the round shaft, the elastic deformation mechanism overcomes the elasticity, the connection and the separation of the round shaft-shaped convex connecting component and the opening-shaped concave connecting component can be realized, and the connection and the separation of the mop rod and the flat mop head can also be realized.

3. A hand-held wiper tool as defined in claim 1, wherein: the mop head comprises a connecting seat and a flat plate body, the upper part of the connecting seat is movably connected with the lower end of the mop rod, the lower part of the connecting seat is connected with the upper part of the flat plate body, the connection is detachable, the bottom surface of the flat plate body is provided with the wiping object, and the upper part of the flat plate body is also provided with a handle.

4. A hand-held wiper tool as defined in claim 3, wherein: the number of the flat plate bodies can be 1 or 2.

5. A hand-held wiper tool as claimed in any one of claims 1 to 4, wherein: when carrying out extrusion and scraping water operation, compress tightly scrape water spare with the shape of wiper contact segment cross-section is by big toper to little, and is in extrusion mouthful department compress tightly the foremost end of scraping water spare or the linear of closed angle, or the little plane that the width is less than 2 millimeters.

6. A hand-held wiper tool as claimed in any one of claims 1 to 4, wherein: the pressing water scraping piece is rotatably arranged on the handheld squeezing water scraping tool, and the size of the squeezing opening can be changed by the rotation of the pressing water scraping piece.

7. A hand-held wiper tool as defined in claim 6, wherein: the handheld squeezing and wiping tool can reciprocate relative to the wiper and is also provided with a limiting mechanism for limiting the rotation range of the pressing and wiping part, when the handheld squeezing and wiping tool moves towards a certain direction relative to the wiper, the wiper drives the pressing and wiping part to rotate and the pressing and wiping part rotates to a position limited by the limiting mechanism, and at the moment, the pressing and wiping part is in a narrow position relative to the supporting part; when the handheld squeezing wiper tool moves in the opposite direction relative to the wiper, the wiper drives the pressing wiper to rotate in the opposite direction, the pressing wiper rotates to another position limited by the limiting mechanism, and the pressing wiper is in a wide position relative to the supporting piece.

8. A hand-held wiper tool as claimed in any one of claims 1 to 4, wherein: the supporting piece is a rotatable roller-shaped structure.

9. A hand-held wiper tool as claimed in any one of claims 1 to 4, wherein: the handheld squeezing water scraping tool is also provided with a comb-shaped scraping mechanism.

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