A cleaning assembly for a mop bucket, which belongs to the field of mops. The cleaning assembly comprises a cleaning bucket (10), wherein the cleaning bucket (10) is internally provided with a cleaning chamber (11); the cleaning chamber (11) is internally provided with a water pumping mechanism (12); a rotating joint (13) is provided above the water pumping mechanism (12); and a clutch mechanism (14) is provided between the rotating joint (13) and the water pumping mechanism (12), and the clutch mechanism (14) allows the rotating joint (13) to be fixedly connected to or separated from the water pumping mechanism (12) in a circumferential direction. The cleaning assembly has the advantage in that, during a cleaning process, water is sprayed onto a mop by means of the water pumping mechanism (12) instead of the water directly coming into contact with the mop, such that the impurities which are washed off will remain in the water instead of flowing with the water flow to the mop again, thereby improving the cleaning efficiency. In addition, the rotating joint (13) is fixedly connected to or separated from the water pumping mechanism (12) in the circumferential direction by means of the clutch mechanism (14), thereby achieving switching between cleaning and spin-drying steps.
A cleaning bucket and a cleaning kit comprising same. The cleaning bucket comprises a bucket body (1); a partition (2) is disposed in the bucket body (1); the partition (2) partitions a water storage space in the bucket body (1) into a clear water area (11) and a cleaning area (12); a water pumping mechanism (3) is further disposed in the bucket body (1); a water inlet end of the water pumping mechanism (3) is in communication with the clear water area (11), and a water outlet end of the water pumping mechanism (3) is in communication with the cleaning area (12). According to this cleaning bucket, the water storage space in the bucket body (1) is horizontally partitioned into the clear water area (11) and the cleaning area (12) by the partition (2), and the clear water area (11) and the cleaning area (12) are integrally designed, such that by means of the bucket body (1), only one bucket is needed to store clear water and sewage independently, without disassembling and assembling, thereby achieving less cost and disassembling and assembling labor than a case where two buckets are needed.
A water-squeeze flat mop, comprising a mop plate (1), a mop rod (12) rotatably connected to the mop plate (1), and a water-squeeze frame (2) slidable along an axial line of the mop rod (12). The water-squeeze frame (2) comprises a frame body (21), and a first smoothing-out opening portion (22) which is provided with an empty space and allows the mop plate (1) to pass through the empty space during water squeezine, the first smoothing-out opening portion (22) remaining connected to the frame body (21), and the first smoothing-out opening portion (22) being movably arranged close to or away from the frame body (21).
A method for cleaning a long mop at a low water level. The mop comprises a mop plate provided with a wiping body (1), wherein the water for wetting the wiping body (1) is lower than the upper end of the wiping body (1), and a squeezing member (4) is provided above the level of the water for wetting the wiping body (1). When the wiping body (1) moves vertically, the wiping body (1) comes into contact with the squeezing member (4); and the wet wiping body (1) carries water upwards, the squeezing member (4) squeezes the wet wiping body (1) that has moved up so as to squeeze the water from the wet wiping body (1), and all or part of the water that is squeezed out is reserved for wetting the part of the wiping body (1) that is above the water level, with the reserved water being located above the water of the wet wiping body (1).
Provided is a toilet brush having a replaceable cleaning head, which belongs to the technical field of cleaning tools and solves the problem of a low replacement efficiency in the prior art. The toilet brush comprises a hollow housing (1) and a cleaning head, wherein a push rod (2) is arranged in the housing (1); one end of the push rod (2) is provided with a clamping portion (21) for clamping the cleaning head, and the other end thereof extends into the housing (1) and is axially and movably connected to the housing; the end of the housing (1) that is close to the clamping portion (21) is provided with a guide portion (11) that enables the clamping portion (21) to contract when the push rod (2) moves towards the side that is away from the clamping portion (21); and the housing (1) is provided with a locking device (3) that can lock and unlock the push rod (2) in an axial direction. By means of providing the locking device (3), the push rod (2) can be rapidly locked or unlocked in the axial direction, and the axial movement of the push rod (2) can drive the clamping portion (21) to rapidly clamp the cleaning head, so as to achieve convenient and efficient replacement. In addition, there is no need to provide a fixing member mounted at the end of the housing (1) for fixing the clamping head and the cleaning head, thereby saving a lot of time.
A47K 11/00 - Closets without flushing; Urinals without flushing; Chamber pots; Chairs with toilet conveniences or specially adapted for use with toilets
6.
DUSTPAN CAPABLE OF AUTOMATICALLY REMOVING ENTANGLED OBJECTS
A dustpan capable of automatically removing entangled objects, comprising a dustpan body (1). The open end of the dustpan body (1) is provided with a tooth comb (2) for cleaning entangled objects from a broom. A handle (3) is rotatably connected to the dustpan body (1). The side of the handle (3) near the tooth comb (2) is provided with a cleaning assembly (4) for removing the entangled objects from the tooth comb (2) into the dustpan body (1). By providing the tooth comb (2), the entangled objects and dirt on the broom cleaning head can be removed. The handle (3) is rotatably connected to the two ends of the dustpan body (1). When entangled objects are trapped in the tooth comb (2), the cleaning assembly (4) is rotated, so that the entangled objects on the tooth comb (2) are automatically scraped off and automatically fall into the dustpan, thereby achieving automatic cleaning of the tooth comb (2), and reducing the manual labor required for cleaning the tooth comb (2) by cleaning personnel.
A segment-connected structure for a handle, which relates to the field of household cleaning appliance accessories. The structure comprises a first tube (1) and a second tube (2) which are coaxial, and further comprises a connecting member (3); the connecting member (3) comprises a first end portion (31) and a second end portion (32); the first end portion (31) and the second end portion (32) are connected by using a flexible connecting structure; the first end portion (31) and the second end portion (32) are respectively connected to the first tube (1) and the second tube (2); and the first tube (1) and the second tube (2) are detachably connected. The present invention has a simple structure, and can conveniently change the length of a handle, and there is no need to worry about the loss of parts when the length of the handle changes, being suitable for the application in a handle of a household cleaning tool.
A collapsible container, comprising a collapsible side wall (3) distributed annularly. The collapsible side wall (3) comprises two adjacent connecting portions which are connected by means of a flexible portion (33); during unfolding of the collapsible container, the connecting portions rotate about a creasing portion (33c) on the flexible portion (33); the two sides of the creasing portion (33c) are respectively provided with a first abutting portion (33a) and a second abutting portion (33b); the first abutting portion (33a) and the second abutting portion (33b) are respectively provided on the flexible portion (33) or the connecting portions. When the collapsible container is in an unfolded state, the first abutting portion (33a) and the second abutting portion (33b) abut against each other. When the collapsible container is unfolded and used, the first abutting portion (33a) and the second abutting portion (33b) abut against each other, thereby enhancing the strength of the weakest portion of the collapsible container, i.e., the creasing portion, and improving stress-bearing performance of the side wall (3).
B65D 8/14 - Containers having a curved cross-section formed by interconnecting or uniting two or more rigid, or substantially rigid, components made wholly or mainly of metal, plastics, wood or substitutes therefor characterised by wall construction or by connection between walls collapsible
Disclosed is a locking structure of a telescopic rod member, the locking structure being used between an inner rod (1) and an outer rod (2) that are axially telescopic, wherein the outer rod (2) and the inner rod (1) are arranged in a mutually embedded manner. The locking structure comprises: a shaft sleeve (3) provided with a through hole (37), with the end portion of the side, connected to the inner rod (1), of the outer rod (2) being fixed in the through hole (37), the side wall of the shaft sleeve (3) being provided with a shaft hole (33) in communication with the through hole (37), and the shaft hole (33) facing the inner rod (1); and a spanner (4) rotationally connected to the shaft sleeve (3) at the shaft hole (33) and provided with a pressing block (43) accommodated in the shaft hole (33) and facing the inner rod (1). When the spanner (4) rotates in the circumferential direction along the shaft hole (33), the pressing block (43) presses on or is away from the inner rod (1); and the pressing block (43) presses on the inner rod (1), such that a state where the inner rod (1) and the outer rod (2) are telescopic can achieve locking, and the pressing block (43) is away from the inner rod (1), such that the state where the inner rod (1) and the outer rod (2) are telescopic can achieve unlocking. The structure is simple, and the application of force is balanced during locking and unlocking.
A mop cleaning device having a cleaning bucket capable of moving up and down. The device comprises: water-removal blades (3), a large container (1), a small container (2) and a lifting mechanism disposed between the large container (1) and the small container (2). The small container (2) can move up and down with respect to the large container (1) by means of the lifting mechanism. When the small container (2) is in a low position, a water level of the large container (1) is above a water inlet port (20) of the small container (2), and when the small container (2) is in a high position, the water level of the large container (1) is below the water inlet port (20) of the small container (2). The water-removal blades (3) are disposed at the large container (1) and/or the small container (2).
A mop cleaning system, comprising a cleaning bucket (2) and a mop (1); the mop (1) comprises a mop rod (11) and a mop head (12), the mop rod (11) being connected to the mop head (12); the cleaning bucket (2) is internally provided with a support body (4) that supports the mop, and the cleaning bucket (2) further internally provided with a drum (3), the drum (3) being rotatingly provided by using the axial direction (a) thereof as the axis of rotation. During cleaning, the mop head (12) rotates so as to drive the drum (3) to rotate.
A cleaning tool retractable when cleaning and extensible when in use comprises a mop and a cleaning bucket (8). The mop comprises a mop head and a mop handle (2) connected to the mop head. The mop handle (2) is a rotatable mop handle (2) capable of being driven to rotate by linear up and down movement. The cleaning bucket (8) is provided with a support area therein for supporting the mop head during rotation. The mop further comprises a transformation driving mechanism. The mop head comprises moving plates (11) and a base plate (12). The moving plates (11) and the base plate (12) can slide relative to one another in the same plane. A path mechanism for limiting movement paths of the moving plates (11) is disposed between the moving plates (11) and the base plate (12). The mop handle (2) is disposed rotatably with respect to the base plate (12). The mop handle (2) is rotated to drive the transformation driving mechanism, such that the moving plates (11) move along the path mechanism, thereby changing both the length and width of the mop head.
A cleaning tool comprising a hand-push cleaner. The hand-push cleaner comprises a housing (1), the housing (1) being provided inside with a space for storing trash; a sweeping roller (2) that rotates in step with the pushing of the hand-push cleaner, the rolling of the sweeping roller (2) sweeping trash into the housing (1); a push rod (3) connected to the housing (1); the housing (1) is also provided with an installation part for installing the sweeping roller (2); the housing (1) also comprises a mop plate (4), a mop cloth, and an assembly mechanism that movably fixes together the mop plate (4) and the hand-push cleaner; the mop cloth is connected to the bottom of the mop plate (4), and the mop plate (4) is connected to the hand-push cleaner by means of the assembly mechanism; when the mop plate (4) is connected to the hand-push cleaner, the mop plate (4) separates the hand-push cleaner from the ground, and the cleaning tool acts as a mop; when the mop plate (4) is separated from the hand-push cleaner, the cleaning tool acts as a hand-push cleaner.
A self-wringing flat mop, comprising a flat mop head including a middle plate and two side plates, wherein the middle plate has two ends hinged respectively to the side plates via a torsion spring, and is provided with a connection through hole; a cleaning member having two ends respectively fitted and connected to the two side plates, and having a insertion connection member disposed corresponding to the connection through hole; and a mop rod comprising a connection rod member fitted and connected to the middle plate, a handle rod member disposed coaxially with the connection rod member, and a transmission member connected to and provided between the connection rod member and the handle rod member. The handle rod member has a control component passing through the connection through hole and connected to the insertion connection member. Rotation of the handle rod member driven by an operation is transferred to the connection rod member via the transmission member, such that the connection rod member drives the cleaning member to rotate with the control member, causing the two side plates to close and perform wringing.
A sweeping machine, comprising: a support (50) comprising two fixing arms (51), a drive wheel (21), a first gear (22), and a second gear (26) being mounted in each fixing arm (51); a machine body (10) mounted between the two fixing arms (51) and comprising a machine body housing (24) and a roller brush (19); and a garbage storage box (28), an edge on the top of the garbage storage box (28) being pivotally connected to the back end of the machine body housing (24), and the edge at the bottom of the garbage storage box (28) being connected to a bottom plate of the machine body housing (24) by means of a fastener. The sweeping machine is manually operated, and does not have a complex and sophisticated structure like an electric sweeping machine; instead, it is low in costs and high in reliability.
A suitcase box and a suitcase made therefrom, comprising: a top surface part (1) in the form of separate parts, a bottom surface part (2) in the form of separate parts, a side surface part (3) and a cover plate (4) in the form of separate parts; the top surface part (1), the bottom surface part (2), the side surface part (3) and the cover plate (4) being assembled to form a suitcase box; the side surface part (3) and the cover plate (4) being connected to form a cavity, the top surface part (1) and the bottom surface part (2) closing two ends of the cavity, an opening (30) for accessing an article is provided on the side surface part (3); the cover plate (4) being arranged corresponding to the opening (30) for closing the opening (30), the top surface part (1) and the bottom surface part (2) being hard parts, the side surface part (3) being fixedly connected to the top surface part (1), and the side surface part (3) being fixedly connected to the bottom surface part (2).
Provided is a novel cleaning head for mops, comprising a PVA collodion layer (1) and a flexible compression layer (2) combined with the PVA collodion layer (1). The body of the flexible compression layer (2) is located on the inner side of the PVA collodion layer (1), and the outer side face of the PVA collodion layer (1) has a mopping face (3) in direct contact with the floor during mopping. With the combination of the PVA collodion layer (1) and the flexible compression layer (2), the water squeezing is labour-saving since the flexible compression layer (2) has a better compressibility during water squeezing. Moreover, a wire drawing structure of the collodion mop in the prior art can be simplified to reduce the overall weight of the mop.
Disclosed is a multi-bottle liquid spray mop, comprising a mop rod (1), at least two liquid bottles (3), a pump body (2) provided on the mop rod (1), and a distribution valve. The distribution valve has inlets (4) corresponding to the liquid bottles (3) in number, and an outlet (5). The liquid bottles (3) are respectively in communication with the inlets (4) corresponding thereto. By operating the distribution valve, one of the inlets (4) is in communication with the outlet (5). The outlet (5) is in communication with the pump body (2). By operating the distribution valve, one of the liquids can be selected for spraying.
Provided is a flat mop cleaning tool, comprising a mop rod (1), a flat mop head, and a spin dryer tube. The flat mop head comprises a fixed plate and sliding plates (4, 5) provided on the fixed plate in a sliding manner. The mop rod (1) is rotatable. The mop rod (1) is connected to the sliding plates (4, 5) through a motion transforming mechanism. Rotational motion of the mop rod (1) can be transformed into linear sliding motion of the sliding plates through the motion transforming mechanism, thus changing the length of the flat mop head. A lower brushing plate and an upper brushing plate are provided in the spin dryer tube. Bristles are provided on an upper surface of the lower brushing plate and a lower surface of the upper brushing plate. The flat plate mop head can enter the space between the upper brushing plate and the lower brushing plate. During operation of the flat mop cleaning tool, the mop rod (1) is rotated to drive the sliding plates (4, 5) to linearly slide, thus changing the length of the flat mop head.
Disclosed is a mop with a collapsible mop disk, comprising a mop rod (1) and a mop disk (2) connected to a lower end of the mop rod (1). The mop disk (2) comprises a main disk (3) and an attached disk (4) located at one side of the main disk (3). The lower end of the mop rod (1) is connected to the main disk (3). The main disk (3) is connected to the attached disk (4) via a flexible piece (5). When the floor at an interface with a wall is swept, the attached disk (4) can be folded upward so as to form a plane fitted with the wall on the mop disk; therefore, the floor at an interface with the wall can be effectively swept.
Disclosed is a multifunctional water spray mop, which comprises a mop rod (1), a water spray mechanism (2) arranged on the mop rod (1), and a mop head (3) arranged at the tail end of the mop rod (1). The water spray mechanism (2) comprises a water tank (4), a pump body in communication with the water tank (4), and a nozzle (5) in communication with the pump body. The water spray mechanism (2) is detachably arranged on the mop rod (1). The water spray mechanism (2) is further provided with a connecting component used for connecting other cleaning components, and a press mechanism used for manually operating the pump body so as to spray a liquid in the pump body out of the nozzle. According to the present invention, the water spray mechanism (2) can be dismounted to be used in conjunction with other cleaning components, thereby further enriching the function of the water spray mechanism (2), and also enabling the cleaning components to be easier to operate during the cleaning operation.
A mop with combined functions of sweeping a floor, mopping the floor and scraping water, comprising a mop rod (1); a connecting part (2) arranged at the front end of the mop rod (1), an installing groove (3) being provided on the front end of the connecting part (2), and clamping holes (301, 311) being provided on two opposite inner walls (30, 31) in the installing groove (3); and an elastic plate (4), which comprises a top part connected to the installing groove (3) in a clamping way and a bottom part opposite to the top part, clamping bulges (40, 41) corresponding to the clamping holes (301, 311) being arranged at two sides of the top part of the elastic plate (4). When an elastic plate (4) is arranged in an installing groove (3), clamping bulges (40, 41) are clamped in clamping holes (301, 311), and the elastic plate (4) is not easy to get away from a connecting part (2) during a using process, thereby solving the problem of infirm connection between a mop head and a mop rod of an existing mop.
An improved water self-squeezing mop comprises a rod and a plate-type mop head. The rod is connected with the mop head by a universal joint (19), and the rod can rotate to be parallel with the length direction of the mop head and be located in the same plane therewith. A water squeezing device is provided on the rod. The water self-squeezing mop can implement the self-squeezing of a double-sided plate-type mop, and can also implement the water self-squeezing of a single-sided plate-type mop, improving the efficiency of cleaning and squeezing. The mop base can automatically reset to the squeezed state. The production process is simplified and the production cost is reduced.
A self-wringing flat plate mop comprises a mop rod (1) and a flat plate mop head (2). Mop cloth can be arranged on the back side of the flat plate mop head (2). A smoothing sleeve (3) capable of sliding up and down is fit on the mop rod (1). A smoothing head (4) is arranged at the lower end of the smoothing sleeve (3), and is provided with a penetration opening (5). A wringing mechanism is arranged on the bottom side of the penetration opening (5). The flat plate mop head (2) can be inserted into the penetration opening (5) after rotating to be parallel to the mop rod (1). When the smoothing head (4) is at a high position, the flat plate mop head (2) is separated from the penetration opening (5), and when the smoothing head (4) is at a low position, the lower end of the flat plate mop head (2) is inserted into the penetration opening (5). When the smoothing sleeve (3) is pulled upwards, the mop cloth on the back side of the flat plate mop head (2) is wrung through the wringing mechanism. The smoothing head (4) extends transversely, so that the smoothing head (4) also serves as a base when being at the low position, the lower end of the flat plate mop head (2) parallel to the mop rod (1) is inserted into the penetration opening (5), and the mop can be vertically placed. According to the self-wringing flat plate mop, the whole mop (comprising the flat plate mop head) can be vertically placed after being wrung, so that the mop cloth on the flat plate mop head is conveniently air-dried, and is prevented from being in contact with the ground and getting dirty again.
Disclosed is a multifunctional broom, comprising a broom rod (1) and a broom head (2) arranged at one end of the broom rod (1), wherein a broom head cover (3), which is axially movably arranged on the broom rod (1), is disposed on the periphery of the broom head (2), an opening (31) allowing the lower end of the broom head (2) to extend out of the broom head cover (3) is provided at the lower end of the broom head cover (3), and a telescopic positioning mechanism (4), which enables the broom head cover (3) to be positioned on the broom rod (1) when the length of the lower end of the broom head (2) extending out of the broom head cover (3) is adjusted to a required length, is disposed between the broom rod (1) and the broom head cover (3). The present multifunctional broom has multiple use functions. By means of using the telescopic positioning mechanism (4) to control the length of the broom head (2) extending out of the broom head cover (3), the present broom has functions of a scraper, a brush and a broom, dirt on bristles (22) is convenient to clean, and thus the multifunctional broom is easy to use, and is convenient to carry and store.
A rolling ball-type rotary mop rod comprises a pipe (1), a rotating mechanism, and a locking mechanism. The rotating mechanism comprises a drive handle (2) and a rolling ball (3). A transmission sleeve (4) is disposed in the drive handle (2) in a sleeved manner. An arc-shaped groove (31) in which the rolling ball (3) rolls is formed in the outer wall of the transmission sleeve (4). A spiral groove track (5) in which the rolling ball (3) moves vertically spirally is formed in the inner wall of the drive handle (2). A transmission shaft (16) is disposed in the transmission sleeve (4) in a sleeved manner. The lower end of the transmission sleeve (4) is of an annular sawtooth shape (6A). The periphery of the middle part of the transmission shaft (16) is of an annular sawtooth-shape (6B). The lower end of the transmission sleeve (4) can be engaged with the middle part of the transmission shaft (16) by means of annular sawteeth (6A, 6B). The upper end of the pipe (1) is fixedly connected to the lower end of the transmission shaft (16). According to the rolling ball-type rotary mop rod, the rolling ball (3) can slide along the spiral groove track (5) in the inner wall of the drive handle (2) by means of the vertical movement of the drive handle (2), so as to drive the transmission sleeve (4) to rotate and move and then drive a mop head to rotate; the rolling ball-type rotary mop rod has a small friction coefficient and a longer service life, is easier to use, and has lower noises.
Disclosed is a mop cleaning bucket with a lifting central shaft, comprising a bucket body, wherein the bottom inside the bucket is connected to a central shaft; the central shaft comprises a fixed shaft and a lifting shaft, and further comprises a track for connecting the fixed shaft and the lifting shaft, and a limiting lug (312) fitted with the track; the track comprises a bottom groove hole (330) and a middle-upper groove hole (331) which are connected by a connecting groove; and a rotating shaft accommodation part is arranged on the top end of the lifting shaft, a lower shaft sleeve is arranged at the bottom of the rotating shaft accommodation part, an upper shaft sleeve is arranged on the top end of the rotating shaft accommodation part, the upper shaft sleeve is nested with a rotating shaft, and the rotating shaft has a bottom end butted against the lower shaft sleeve and a top end fixedly connected to the mop. The mop cleaning bucket with a lifting central shaft does not include a basket, so that the mop can be in full contact with water during cleaning so as to improve the cleaning effect of the mop cleaning bucket.
A middle-shaft elevation mop cleaning bucket and a mop comprise: a bucket body (101), a middle shaft (104) being connected at the bottom inside the bucket body (101). The middle shaft (104) comprises a fixed shaft (105) and an elevation shaft (107). The middle shaft (104) further comprises a track for connecting the fixed shaft (105) and the elevation shaft (107) and a stop bump (112) matching the track. The track comprises a bottom slot hole (130) and an upper slot hole (131) connected through a connecting slot. A rotary shaft receiving portion (113) is disposed at the top end of the elevation shaft (107). A lower bush (108) is disposed at the bottom of the rotary shaft receiving portion (113). An upper bush (109) is disposed at the top end of the rotary receiving portion (113). A rotary shaft (110) is sleeved in the upper bush (109). The rotary shaft (110) has a bottom end abutting the lower bush (108) and a top end for fixed connection of a mop (120). The middle-shaft elevation mop cleaning bucket does not comprise a basket. In this way, during cleaning of a mop, the mop can be in full contact with water to improve an effect of cleaning a mop cleaning bucket.
A speed-adjustable hand-press spin mop handle comprises a handle, an outer tube (1), a locking sleeve (2), an inner tube (3), and a mop base. The handle is screwed at an upper end of the outer tube (1), the outer tube (1) is sleeved over the inner tube (3), the locking sleeve (2) fits and is connected to a lower end of the outer tube (1), the inner tube (3) and the mop base are connected, a spiral rod (4) is mounted inside the outer tube (1), an upper end of the inner tube (3) is mounted with a unidirectional shaft (5), a unidirectional shaft sleeve (6) is sleeved over the unidirectional shaft (5), outer teeth (7) engaged with the unidirectional shaft sleeve (6) are provided at a lower end of the unidirectional shaft (5), and inner teeth (8) engaged with the spiral rod (4) are provided inside the unidirectional shaft (5). The spiral rod (4) comprises a large screw pitch region and a small screw pitch region, the small screw pitch region being located above the large screw pitch region. In such a speed-adjustable hand-press spin mop handle, different screw pitch regions are provided on a spiral rod, so that during washing, a large screw pitch portion produces an effect, and during drying, a small screw pitch portion produces an effect, thereby greatly reducing a force that needs to be applied during washing. The structure is simple, the production cost is low, and use is convenient.
A speed-adjustable hand-press spin mop handle comprises a handle (1), an outer tube (2), a locking sleeve (3), an inner tube (4), and a mop base. The handle is screwed at an upper end of the outer tube, the outer tube is sleeved over the inner tube, the locking sleeve fits and is connected to a lower end of the outer tube, the inner tube and the mop base are connected, a toothed strip (5) is mounted on an inner wall of the outer tube, an upper end of the inner tube is mounted with a unidirectional shaft (6), a unidirectional gear (7) is sleeved over the unidirectional shaft, and the unidirectional gear and the toothed strip are engaged. The toothed strip comprises a large screw pitch region and a small screw pitch region, the small screw pitch region being located above the large screw pitch region. In the speed-adjustable hand-press spin mop handle, different screw pitch regions are provided on the toothed strip, so that during washing, the large screw pitch portion produces an effect, and during drying, the small screw pitch portion produces an effect, thereby greatly reducing a force that needs to be applied during washing. The structure is simple, the production cost is low, and use is convenient. Meanwhile, during drying, a lower-end large screw pitch portion operates first to implement a low speed start, thereby preventing water from being thrown outside a bucket under a centrifugal force from high-speed spinning and dirtying the floor.
A rotatable spin-dry mop, comprising: an upper tube (110) and a lower tube (120), movably connected together by means of a rotation drive mechanism (20), allowing for relative rotation during axially opposite motion; a sleeve (310) and a locking member (320); sleeve (310) being fixedly connected outside upper tube (110) at the connection of upper tube (110) and lower tube (120); the side of sleeve (310) forming a gap (312); locking member (320) pivotally connected at gap (312) to the side of sleeve (310); locking member (320) having an abutment (321); abutment (321) passing, when mop is in use, through gap (312) and abutting against lower tube (120); a splash guard (410) and a water outlet cover (420), water outlet cover (420) being movably sleeved on the outside of lower tube (120), and splash guard (410) being movably sleeved on the outside of (420) such that relative rotation is possible; a mop head mechanism (50) bound to the lower end of lower tube (120).
A self-wrung flat plate mop comprises a plate body (10), a mop rod (20), a cleaning component (30), a rotary piece (40), an outer ratchet (50) and a sleeve (60). The cleaning component (30) is disposed below the plate body (10), the plate body (10) comprises a middle plate body (101) and two side plate bodies (102), two ends of the middle plate body (101) are connected to the side plate bodies (102) in a hinged manner by using torsion springs (103) respectively, two ends of the cleaning component (30) are connected to outer side ends of the two side plate bodies (102) respectively, the lower end of the rotary piece (40) is connected to the middle of the cleaning component (30), and the upper end of the rotary piece (40) is connected to the mop rod (20) in a non-rotatable manner after penetrating through a through hole formed in the middle of the plate body (10). The outer ratchet (50) is fixed to the mop rod (20) in a sleeving manner, the mop rod (20) is sleeved with the sleeve (60) in a clearance fit manner, an inner ratchet matched with the outer ratchet (50) is disposed on the inner side wall of the sleeve (60), and the sleeve (60) is connected to the position above the middle plate body (101) in a non-rotatable manner. After the cleaning component (30) of the mop is cleaned, the cleaning component (30) does not need to be taken down or touched in the wringing process of the cleaning component (30), and therefore the self-wrung flat plate mop is not only convenient to use but also sanitary.
A mop head and manufacturing method thereof; the mop head comprises a fixed tray (1) and a cleaning member (2); the fixed tray (1) is an annular body; the central portion of the fixed tray (1) is formed with a through hole (1-4); a circle of convex beams (1-1) projecting upward is disposed on the outside of the through hole (1-4) on the annular body; circles of annular thin-wall planes (1-2, 1-3) are respectively disposed on the peripheries inside and outside the convex beams (1-1); the fixed tray (1) is disposed above the cleaning member (2); and the cleaning member (2) is stitched and fixed on two circles of the annular thin-wall planes (1-2, 1-3) inside and outside the fixed tray (1). The mop head does not require the use of specialized equipment when being produced, has a simple machining process, and is convenient for manufacturing; in addition, with a reasonable structure, low material consumption, and good manufacturability, the fixed tray has high production efficiency and low cost.
A flat mop dried by rotating comprises a handle and a mophead. The mophead comprises a universal joint (3), a base plate (4), a cover plate (5), a folding plate (6), a torsional spring (8), a locking block (9), a pressure spring (10), a lower plate (11), and mop cloth (12). the folding plate (6) is pin-jointed to the two sides of the base plate (4), the torsional spring (8) is disposed inside the base plate (4) and penetrates a pin joint between the folding plate (6) and the base plate (4), the two ends of the torsional spring (8) are separately disposed in the base plate (4) and in the folding plate (6), the locking block (9) is disposed inside the base plate (4), and a lock end of the locking block (9) is disposed in a side hole at the outer end of the base plate (4) and a lock hole at the inner side of the folding plate (6); the pressure spring (10) is disposed in a square hole in the middle of the locking block (9), and two ends of the pressure spring (10) are separately sleeved on the locking block (9) and the base plate (4); the lower plate (11) covers the upper plane of the locking block (9), and the cover plate (5), the base plate (4), and the lower plate (11) are fixedly connected from up to bottom by using a fastener. After use of the mop of the present invention, the dirty mop cloth does not need to be removed from the mophead with hands, and can be directly put into a small-sized bucket for cleaning and drying, thereby ensuring the efficiency of mopping the floor, facilitating cleaning, and bringing convenience.
A self-wringing flat mop, comprising a plate (10) and a mop rod (20); the lower portion of the plate (10) is provided with a cleaning component (30); the self-wringing flat mop comprises: a rotating member (40) pivotally connected to the middle portion of the plate (10), the lower portion of the rotating member (40) being provided with a hook (41), the upper portion of the rotating member (40) being provided with a connector (42), and the connector (42) extending to the upper portion of the plate (10) and being non-rotatingly hinged to the mop rod (20); an external ratchet (50) sleeved and fixed onto the mop rod; a sleeve (60) sleeved on the mop rod (20) with a clearance fit, the lower end of the sleeve (60) being non-rotatingly hinged to the upper portion of the plate (10), and the inner side wall of the sleeve (60) being formed with an internal ratchet (61); the hook (41) fits with the cleaning component (30), and the internal ratchet (61) fits with the external ratchet (50). The mop allows the cleaning component thereof to be conveniently and hygienically wrung.
Disclosed is a rotational driving mechanism of a mop stick, involving a mop stick (6) and a driving mechanism provided on the mop stick (6), and comprising a transmission shaft (4) fixedly connected to the mop stick (6), a transmission shaft annular tooth face (11) being provided thereon; a transmission sleeve (3) sheathed on an outer face of the transmission shaft and able to slide up and down the transmission shaft (4), with a side face thereof being provided with more than two equally divided guide heads (12), and a lower end face thereof being provided with a transmission sleeve annular tooth face (9) forming a meshed relationship from top to bottom with the transmission shaft annular tooth face (11); a connector (2) located above the transmission sleeve (3); a connecting shaft (5) being located in the centre of the transmission shaft (4), the transmission sleeve (3) and the connector (2), and connecting all three into one piece by means of a pin joint; a driving sleeve, sheathed on the outside of the connector (2), the transmission shaft (4), the transmission sleeve (3) and the mop stick (6), with an inner wall thereof being provided with more than two equally divided spiral guide grooves and forming a relationship of relative movement with the connector (2), the transmission shaft (4), the transmission sleeve (3) and the mop stick (6); and a handle (8) provided on the mop stick (6). When mopping a floor, when grasping the handle, the driving sleeve will not be pressed down or lifted up, and therefore the mop stick and the mop head will also not be made to rotate by means of the driving mechanism, so the mopping operation is relatively labour saving.
F16H 19/02 - Gearings comprising essentially only toothed gears or friction members and not capable of conveying indefinitely-continuing rotary motion for interconverting rotary motion and reciprocating motion
A single-body mop bucket, comprising a bucket body (10) and a mop-drying basket (30). A slide groove (11) and a support frame (20) are arranged within the bucket body. An upper step (111) and a lower step (112) are arranged within the slide groove (11). A support block (21) is arranged on the support frame (20). The support block (21) is slidably arranged within the slide groove (11). The support block (21) matches with both the upper step (111) and the lower step (112). The drying basket (30) is pivotally connected onto the support frame (20). The slide groove (11) is divided into an inlet part (Q) and a circulation part (W). The lower step (112), an upper slide guiding groove (113), a first lateral arced top (B), the upper step (111), a second lateral arced top (D), and a lower slide guiding groove (114) are arranged within the circulation part (W). The drying basket (30) is pivotally connected onto the support frame (20). The support block (21) on the support frame (20) can be arranged simultaneously on the upper step (111) and on the lower step (112), thus allowing the drying basket (30) to be positioned at different heights, that is, the drying basket (30) can serve respectively as a spin-drying basket and as a washing basket, and the need for a drying basket area and a washing basket area to be provided simultaneously is obviated. The single-body mop bucket has the advantages of integrated washing and spin-drying, a reduced footprint, convenient portability, and reduced manufacturing costs.