CN219895638U - Squeezing rack with multiple squeezing amounts and self-smoothing horizontal plate mop - Google Patents

Abstract

The utility model relates to a squeezing frame with multiple squeezing amounts and a self-smoothing horizontal plate mop, wherein the squeezing frame comprises: the squeezing frame body is provided with a water stroking channel for the mop head to pass through; a water smoothing-out part which is arranged on the squeezing frame body, and a water smoothing-out opening is formed between the water smoothing-out part and a corresponding area of the inner wall of the water smoothing-out channel; the water stroking parts are movably arranged on the squeezing frame body in a position-adjustable mode, can be selectively positioned at least two positions, and are positioned at different positions, and the stroking intervals of the stroking nozzles corresponding to the water stroking parts are different. When the water smoothing piece moves to different positions relative to the squeezing frame body, the water smoothing intervals of the water smoothing opening are different, so that the squeezing frame has squeezing amounts of different gears, a user can select according to actual needs, the mop head has different water contents after squeezing, and the mopping needs of different scenes of the user are met.

Description

Squeezing rack with multiple squeezing amounts and self-smoothing horizontal plate mop

Technical Field

The utility model relates to the technical field of flat mops, in particular to a multi-gear extrusion frame and a self-smoothing horizontal plate mop.

Background

The flat mop capable of automatically smoothing out water in the market at present generally comprises a mop rod and a flat mop head movably connected to the lower end of the mop rod, wherein a water smoothing frame capable of sliding up and down along the mop rod is further arranged on the mop rod, the water smoothing frame is provided with a water smoothing opening, the flat mop head can penetrate into the water smoothing opening of the water smoothing frame, and after the flat mop head enters the water smoothing opening, the water smoothing frame is pushed and pulled back and forth to enable the water smoothing frame to move back and forth to squeeze water for wiping objects on the flat mop head.

Such a flat mop capable of self-cleaning water is disclosed in Chinese patent application No. CN201410580194.7 (publication No. CN 104337477A), no. CN202120988471.3 (issued notice No. CN 218500668U), and No. CN self-cleaning horizontal plate mop. The squeezing plate can swing in the water stroking opening, so that the problem of convenient mop entering is solved, but the minimum squeezing distance is also certain.

Therefore, the existing self-smoothing horizontal plate mop has certain defects: the minimum water-smoothing distance of the conventional flat mop is fixed, namely the water-smoothing quantity of the mop head is also fixed, however, in the actual use process, users often have the requirements of wet mopping (the water content of the mop head is relatively large) and dry mopping (the water content of the mop head is relatively small), so that only two or more mops can be prepared, the use cost of the users is increased, and the occupied space is increased.

Disclosure of Invention

The utility model aims to solve the first technical problem of providing a squeezing frame capable of squeezing water in multiple stages for squeezing mop heads to different degrees.

The second technical problem to be solved by the utility model is to provide a self-smoothing horizontal plate mop applying the squeezing frame aiming at the current state of the art.

The technical scheme adopted by the utility model for solving the first technical problem is as follows: a multi-stage extrusion mount comprising:

the squeezing frame body is provided with a water stroking channel for the mop head to pass through;

a water smoothing-out part which is arranged on the squeezing frame body, and a water smoothing-out opening is formed between the water smoothing-out part and a corresponding area of the inner wall of the water smoothing-out channel;

the water stroking parts are movably arranged on the squeezing frame body in a position-adjustable mode, can be selectively positioned at least two positions, and are positioned at different positions, and the stroking intervals of the stroking nozzles corresponding to the water stroking parts are different.

In order to facilitate the user operation to drive the water stroking piece to move, the water stroking machine further comprises:

the operation piece is movably arranged on the squeezing frame body and acts on the water straightening piece, and the operation piece can move inwards or outwards in the water straightening channel along with the change of the moving position of the operation piece so as to adjust the water straightening distance of the water straightening opening.

In order to install the water-straightening piece on the squeezing frame body, the squeezing frame body is further provided with a mounting frame which is integrally plate-shaped, the peripheral edge of the mounting frame is fixed on the inner wall of the water-straightening channel, the water-straightening piece is arranged between the mounting frame and the corresponding side wall of the squeezing frame body, the mounting frame is provided with a strip-shaped opening which is arranged along the left-right direction, the water-straightening piece is provided with a water-straightening baffle edge which extends left and right, and the water-straightening baffle edge penetrates through the strip-shaped opening to be exposed at one side of the mounting frame, which faces the water-straightening channel.

In order to reduce resistance in the water straightening process, the edge of the water straightening blocking edge of the water straightening piece is provided with a water straightening inclined surface which gradually inclines towards the inside of the water straightening channel from top to bottom.

In general, the operating element may adopt a structure such as a deflection cam to implement overall or partial movement or deformation of the water-straightening element, but in order to ensure the uniformity of the force applied to the water-straightening element and the convenience of user operation, the operating element is also plate-shaped and disposed between the water-straightening element and the corresponding side wall of the squeezing frame body, and is capable of sliding along the extending direction of the corresponding side wall of the squeezing frame body, a first guiding inclined plane gradually inclined toward the inside of the water-straightening channel along the moving direction of the operating element is configured on one side wall of the operating element, a second guiding inclined plane consistent with the first guiding inclined plane in the inclined direction is configured on the side wall of the water-straightening element, and in the moving process of the operating element relative to the squeezing frame body, the first guiding inclined plane of the operating element is slidably matched with the second guiding inclined plane of the water-straightening element, so that the water-straightening element moves by different distances relative to the squeezing frame body toward the inside of the water-straightening channel.

In order to further ensure the stress uniformity of the water straightening piece and further realize the consistency of the force of the water straightening piece on the mop head after the water straightening distance of the water straightening opening is adjusted, the operating piece is provided with a first side wall facing the water straightening piece and a second side wall deviating from the water straightening piece, the first side wall of the operating piece is provided with at least two first bosses which are sequentially arranged at intervals along the length direction of the first side wall, and a first guide inclined plane is formed between the top surface of each first boss and the main body part of the first side wall of the operating piece;

the water stroking piece is provided with a third side wall facing the operating piece and a fourth side wall facing away from the operating piece, the third side wall of the operating piece is provided with at least two second bosses which are sequentially arranged at intervals along the length direction of the third side wall, and a second guide inclined plane is formed between the top surface of each second boss and the main body part of the third side wall of the water stroking piece.

The operating member has at least a first pressing state and a second pressing state as a moving position thereof is changed:

in the first extrusion state, the top surface of the first boss of the operating piece is propped against the main body part of the third side wall of the water stroking piece, and the top surface of the second boss of the water stroking piece is propped against the main body part of the first side wall of the operating piece;

in the second extrusion state, the top surface of the first boss of the operating piece is propped against the top surface of the second boss of the water stroking piece.

In order to facilitate the operation of the movable operating member by a user, the second side wall of the operating member is provided with an operating rod which penetrates through the extruding frame body and is exposed out of the outer wall surface of the extruding frame body, and the extruding frame body is provided with a movable opening for the operating rod to reciprocate in.

In order to prevent foreign objects or dirt from entering the movable opening and improve the overall attractiveness of the extrusion frame, the operation rod is also connected with a sliding pulling button, and the sliding pulling button is attached to the outer peripheral wall of the extrusion frame body and always shields the movable opening in the moving process of the sliding pulling button.

For convenient installation, the sliding shifting button is connected with the operating rod through a buckle component.

In order to realize the quick assembly disassembly of mounting bracket, have on the crowded frame body and open bayonet socket in the lateral part, the outer periphery joint of mounting bracket is in the bayonet socket of crowded frame body.

The utility model solves the second technical problem by adopting the technical proposal that: a self-smoothing horizontal plate mop comprises a mop rod and a mop head movably connected to the lower end of the mop rod, wherein a squeezing frame capable of sliding up and down to smooth the mop head is further arranged on the mop rod, and the squeezing frame adopts the squeezing frame with multiple squeezing amounts.

Compared with the prior art, the utility model has the advantages that: when the water smoothing piece moves to different positions relative to the squeezing frame body, the water smoothing intervals of the water smoothing opening are different, so that the squeezing frame has squeezing amounts of different gears, a user can select according to actual needs, the mop head has different water contents after squeezing, and the mopping needs of different scenes of the user are met.

Drawings

Fig. 1 is a schematic perspective view of an extrusion frame according to an embodiment of the present utility model (an operation member is in a first extrusion state);

fig. 2 is a schematic perspective view of an extrusion frame according to an embodiment of the present utility model (the operation member is in a second extrusion state);

FIG. 3 is an exploded view of an extrusion frame according to an embodiment of the present utility model;

FIG. 4 is a transverse cross-sectional view of an extrusion frame (with the operating member in a first extruded state) according to an embodiment of the present utility model;

FIG. 5 is a transverse cross-sectional view of an extrusion frame (with the operating member in a second extruded state) according to an embodiment of the present utility model;

FIG. 6 is a longitudinal cross-sectional view of an extrusion frame according to an embodiment of the present utility model;

FIG. 7 is a schematic perspective view of an operating member according to an embodiment of the present utility model;

FIG. 8 is a schematic perspective view of a water smoothing-out member according to an embodiment of the present utility model;

fig. 9 is a schematic perspective view of a flat mop according to an embodiment of the present utility model.

Detailed Description

The utility model is described in further detail below with reference to the embodiments of the drawings.

In the description and claims of the present utility model, terms indicating directions, such as "front", "rear", "upper", "lower", "left", "right", "side", "top", "bottom", etc., are used to describe various example structural parts and elements of the present utility model, but these terms are used herein for convenience of description only and are determined based on the example orientations shown in the drawings. Because the disclosed embodiments of the utility model may be arranged in a variety of orientations, the directional terminology is used for purposes of illustration and is in no way limiting, such as "upper" and "lower" are not necessarily limited to being in a direction opposite or coincident with the direction of gravity.

Referring to fig. 1-9, a self-smoothing horizontal plate mop comprises a mop rod 41 and a mop head 42 movably connected to the lower end of the mop rod 41, wherein the mop rod 41 is also provided with a squeezing frame 1 capable of sliding up and down to smooth the mop head 42. When the mop 42 needs to be squeezed, the flat mop 42 can be adjusted to a longitudinally extending state as shown in fig. 9, so that the mop 42 extends into the water stroking opening 111 of the squeezing frame 1, and the squeezing frame 1 can be moved up and down to achieve water stroking operation of the mop 42.

Referring to fig. 3, the squeezing stand 1 for flat mop of the present embodiment is a multi-stage squeezing amount squeezing stand, and specifically, the squeezing stand 1 includes a squeezing stand body 11, an operating member 30, and a water smoothing member 20.

The wringing frame body 11 has a flat water channel 110. The size of the water smoothing-out channel 110 in the left-right direction is substantially identical to the width of the mop head 42. For adapting to the flat mop head 42, a section of the squeezing body 11 surrounding the circular wall of the water smoothing channel 110 is a flat wall 112, and the water smoothing member 20 is provided on the inner side (toward the inner side of the water smoothing channel 110) of the flat wall 112. The mop head 42 is configured such that during a water stroke, the wipes thereon are directed toward the water stroke 20 as described above.

The squeezing frame body 11 is provided with a connecting sleeve 13 extending longitudinally, and the connecting sleeve 13 can be sleeved on the mop rod 41 of the flat mop and can slide back and forth along the length direction of the mop rod 41.

The water smoothing-out member 20 of the present embodiment is fixed to the wringing frame body 11 by the mounting frame 14. The mounting frame 14 is integrally plate-shaped, and its outer periphery is clamped on the extruding frame body 11, for example, a flat wall 112 of the extruding frame body 11 is provided with a bayonet 12 with an open side, and one side periphery of the mounting frame 14 is embedded into the bayonet 12 to realize fixation. The mounting rack 14 has a structure that the middle part protrudes towards the inside of the water stroking channel 110, a certain mounting gap is arranged between the mounting rack 14 and the squeezing rack body 11, and the water stroking piece 20 is arranged in the gap. The body of the water deflector 20 is also substantially plate-shaped and is fitted to the mounting frame 14. The water smoothing member 20 has a water smoothing stop edge 220 extending from left to right at the side edge of the main body, the water smoothing stop edge 220 is substantially perpendicular to the main body of the water smoothing member 20, specifically, the mounting frame 14 has a strip-shaped opening 140 opened in the left-right direction, and the water smoothing stop edge 220 of the water smoothing member 20 passes through the strip-shaped opening 140 and is exposed at a side (which can be understood as a side facing into the water smoothing channel) of the mounting frame 14 away from the main body of the water smoothing member 20. The length of the water stop edge 220 is substantially the same as the width of the mop head 42. The end edge of the water baffle edge 220 is designed to be a water-stroking inclined surface 2201 which gradually inclines towards the inside of the water stroking channel 110 from top to bottom, thereby reducing the resistance between the water-stroking end edge and the mop head 42 in the water-stroking process of the wringing frame body 11.

A water smoothing-out mouth 111 is formed between the water smoothing-out blocking edge 220 of the water smoothing-out piece 20 and the corresponding part of the inner wall of the water smoothing-out channel 110 of the wringing frame body 11.

An operating element 30 is further provided on a side of the water smoothing member 20 facing the flat wall 112 of the wringing frame body 11, and the operating element 30 is also plate-shaped as a whole, specifically interposed between the water smoothing member 20 and the flat wall 112 of the wringing frame body 11. Specifically, the operating element 30 has a first side wall 301 facing the water smoothing-out element 20 and a second side wall 302 facing away from the water smoothing-out element 20, the second side wall 302 of the operating element 30 has an operating lever 33 substantially perpendicular to the main body of the operating element 30, and the flat wall 112 of the frame body 11 is provided with a movable opening 1120 extending in the left-right direction at a position corresponding to the operating lever 33. The operating lever 33 of the operating member 30 is exposed to the outside of the extrusion frame body 11 through the movable opening 1120 of the extrusion frame body 11. The operation rod 33 is also connected with a sliding pulling button 34, the sliding pulling button 34 is attached to the peripheral wall of the extrusion frame body 11, and the movable opening 1120 is always shielded in the moving process, thereby preventing foreign objects or dirt from entering the movable opening 1120, and improving the overall aesthetic property of the extrusion frame.

The sliding toggle 34 is connected with the operating rod 33 through a buckle component. For example, a radially outward protruding buckle (not shown) may be provided on the outer peripheral wall of the operation lever 33, and the sliding knob 34 has a slot into which the end of the operation lever 33 is inserted, and a limit recess (not shown) into which the above-described projection is snapped is provided on the inner wall of the slot.

In the process of moving the operating element 30 left and right along the squeezing frame body 11, the operating element 30 can apply a force to the water stroking element 20 in the direction perpendicular to the straight wall of the squeezing frame body 11, so that the water stroking element 20 integrally squeezes the mounting frame 14 (the mounting frame 14 has a certain deformability) to move towards the inside of the water stroking channel 110, wherein the moving positions of the operating element 30 are different, the squeezing forces of the operating element 30 on the water stroking element 20 are different, and the moving distance of the water stroking element 20 integrally towards the inside of the water stroking channel 110 is different, so that the aim of adjusting the water stroking distance D of the water stroking opening can be achieved.

The first side wall 301 of the operating member 30 has at least two first bosses 31 (four first bosses 31 are shown in fig. 4) sequentially spaced apart along the length direction thereof, and the top surface of each first boss 31 has a height difference from the main body portion of the first side wall 301 of the operating member 30, and a first guiding slope 32 is formed therebetween to gradually incline toward the inside of the water straightening channel 110 in the left-right direction (from left to right). The water smoothing member 20 has at least two second bosses 23 (four second bosses 23 are correspondingly shown in fig. 4) on the side wall facing the operation member 30 (the third side wall 201 of the water smoothing member 20 can be understood as also) which are sequentially spaced along the length direction, the top surface of each second boss 23 has a height difference from the main body portion of the side wall of the water smoothing member 20, and a second guiding inclined surface 24 is formed between the two, and is gradually inclined towards the inside of the water smoothing channel 110 along the left-right direction (from right to left).

The operating member 30 of the present embodiment has at least a first pressing state and a second pressing state as the moving position thereof changes during the left-right movement: in the first extrusion state, as shown in fig. 4, the top surface of the first boss 31 of the operation member 30 abuts against the main body portion of the side wall of the water straightening member 20, correspondingly, the top surface of the second boss 23 of the water straightening member 20 abuts against the main body portion of the first side wall 301 of the operation member 30, that is, the first boss 31 of the operation member 30 is arranged in a dislocation manner with the second boss 23 on the water straightening member 20, in this state, the displacement of the water straightening member 20 which is extruded by the operation member 30 to move towards the inside of the water straightening channel 110 is relatively small, the width of the water straightening gap is relatively large, the water squeezed out from the mop head 42 is relatively less, and the mop head 42 can be kept in a relatively wet state. In the second squeeze state, as shown in fig. 5, the top surface of the first boss 31 of the operating member 30 abuts against the top surface of the second boss 23 of the water straightening member 20, and in this state, the water straightening member 20 is squeezed by the operating member 30 to move toward the inside of the water straightening channel 110 with a relatively large displacement, the width of the water straightening gap is relatively small, and the water squeezed out from the mop head 42 is relatively much, so that the mop head can be kept in a relatively large state.

When the water stroking piece of the embodiment can move to different positions relative to the squeezing frame body under the drive of the operating piece, the water stroking intervals of the water stroking opening are different, so that the squeezing frame has squeezing amounts of different gears, a user can select according to actual needs, the mop head has different water contents after squeezing, and the mopping needs of different scenes of the user are met.

Claims (10)

1. A multi-stage extrusion mount comprising:

a squeezing frame body (11) provided with a water stroking channel (110) for a mop head (42) to pass through;

a water smoothing-out part (20) arranged on the squeezing frame body (11), wherein a water smoothing-out opening is formed between the water smoothing-out part (20) and a corresponding area of the inner wall of the water smoothing-out channel (110);

the method is characterized in that: the water stroking piece (20) is movably arranged on the squeezing frame body (11) in a position-adjustable mode, can be selectively positioned at least two positions, and has different stroking intervals (D) of water stroking ports corresponding to the water stroking pieces at different positions.

2. The multi-stage extrusion die according to claim 1, wherein: still be equipped with mounting bracket (14) on crowded frame body (11), this mounting bracket (14) are whole to be platy, and its peripheral edge department is fixed on the inner wall of stroking out water passageway (110), stroking out water spare (20) are located between mounting bracket (14) and the corresponding lateral wall of crowded frame body (11), mounting bracket (14) have along the bar mouth (140) of controlling the orientation and seting up, stroking out water spare (20) have left and right extension stroke out water keep off along (220), should stroke out water keep off along (220) pass bar mouth (140) and in one side of stroking out water passageway (110) is exposed in mounting bracket (14).

3. The multi-stage extrusion die according to claim 2, wherein: the edge of the water smoothing-out blocking edge (220) of the water smoothing-out piece (20) is provided with a water smoothing-out inclined surface (2201) which gradually inclines towards the inside of the water smoothing-out channel (110) from top to bottom.

4. A multi-stage extrusion mount according to any one of claims 1 to 3, further comprising:

the operating piece (30) is movably arranged on the squeezing frame body (11) and acts on the water straightening piece (20), and the water straightening piece (20) can move inwards or outwards in the water straightening channel (110) along with the change of the moving position of the operating piece (30) so as to adjust the water straightening distance (D) of the water straightening opening.

5. The multi-stage extrusion die according to claim 4, wherein: the operation piece (30) is integrally plate-shaped and arranged between the water straightening piece (20) and the corresponding side wall of the squeezing frame body (11), and can slide along the extending direction of the corresponding side wall of the squeezing frame body (11), a first guide inclined surface (32) gradually inclined towards the inside of the water straightening channel (110) along the moving direction of the operation piece (30) is formed on one side wall of the operation piece (30), a second guide inclined surface (24) consistent with the inclined direction of the first guide inclined surface (32) is formed on the side wall of the operation piece (20) towards the water straightening piece (20), and the first guide inclined surface (32) of the operation piece (30) is in sliding fit with the second guide inclined surface (24) of the water straightening piece (20) in the moving process of the operation piece (30) relative to the squeezing frame body (11), so that the water straightening piece (20) moves at different distances towards the inside of the water channel (110) relative to the squeezing frame body (11).

6. The multi-stage extrusion die according to claim 5, wherein: the operation piece (30) is provided with a first side wall (301) facing the water straightening piece (20) and a second side wall (302) deviating from the water straightening piece (20), the first side wall (301) of the operation piece (30) is provided with at least two first bosses (31) which are sequentially arranged at intervals along the length direction, and a first guide inclined plane (32) is formed between the top surface of each first boss (31) and the main body part of the first side wall (301) of the operation piece (30);

the whole water smoothing-out piece (20) is also plate-shaped and is provided with a third side wall (201) facing the operation piece (30) and a fourth side wall (202) deviating from the operation piece (30), the third side wall (201) of the operation piece (30) is provided with at least two second bosses (23) which are sequentially arranged at intervals along the length direction of the third side wall, and a second guide inclined plane (24) is formed between the top surface of each second boss (23) and the main body part of the third side wall (201) of the water smoothing-out piece (20);

the operating member (30) has at least a first pressing state and a second pressing state as a result of a change in its moving position:

in the first extrusion state, the top surface of a first boss (31) of the operating member (30) is abutted against the main body part of the third side wall (201) of the water straightening member (20), and the top surface of a second boss (23) of the water straightening member (20) is abutted against the main body part of the first side wall (301) of the operating member (30);

in the second extrusion state, the top surface of the first boss (31) of the operating member (30) is abutted against the top surface of the second boss (23) of the water smoothing member (20).

7. The multi-stage extrusion die according to claim 6, wherein: the second side wall (302) of the operating piece (30) is provided with an operating rod (33) penetrating through the extruding frame body (11) and exposing out of the outer wall surface of the extruding frame body (11), and the extruding frame body (11) is provided with a movable opening (1120) for the operating rod (33) to reciprocate in.

8. The multi-stage extrusion die according to claim 7, wherein: the operation rod (33) is also connected with a sliding pulling button (34), and the sliding pulling button (34) is attached to the outer peripheral wall of the extrusion frame body (11) and always shields the movable opening (1120) in the moving process.

9. The multi-stage extrusion die according to claim 8, wherein: the sliding shifting button (34) is connected with the operating rod (33) through a buckle component.

10. The utility model provides a from smoothing out horizontal plate mop, includes mop pole (41), swing joint at mop head (42) of mop pole (41) lower extreme, but still be equipped with on mop pole (41) and slide from top to bottom in order to right mop head (42) carry out the squeezing frame of stroking out with fingers water, its characterized in that: the extrusion frame employs the multi-stage extrusion amount extrusion frame according to any one of claims 1 to 9.