CN201182581Y - Water wringing mop tank - Google Patents

Abstract

The utility model relates to a water-squeezing mop bucket, comprising a bucket body, a handle, a water-squeezing roller, two pairs of gear arms, and at least a pair of drive pieces arranged at the external side of the bucket body. The two gear arms at the same side are provided with a gear pair; each gear arm is provided with a rotating shaft which is rotatably arranged on a shaft hole of the bucket body; the gear arms are connected through connecting screw thread and driven by the drive pieces to rotate; each drive piece comprises a screw thread connecting part meshed with screw thread, and a wedged slot part. A long hole with the drive piece periphery and a locking bolt are arranged on a hanging ear of the main body of the handle. The handle is pushed to make the long hole slide on the drive pieces, so the locking bolt can be wedged in the wedged slot; then, the handle is rotated to drive the drive pieces to rotate through the locking effect between the locking bolt and the wedged slot; while the drive pieces are rotated, the gear arm connected with the drive pieces is also driven to rotate, and the other gear arm is then driven to rotate through the gear pair so as to drive the water-squeezing roller to be closed and then drag the mop so as to squeeze out the water in the mop and avoid hand-wring drying; therefore, the water-squeezing mop bucket is easy to use and clean.

Description

The Wringing mop bucket

Technical field

The utility model relates to cleaning supplies, more particularly, relates to a kind of Wringing mop bucket.

Background technology

At present, the floor in places such as family, office, hotel being typically used mop cleans.In process of cleaning, must will drag the dirty mop on ground to be placed on bucket the inside bubble and wash; When needs continue to mop floor, must wring out or dry with hand, so not only can make dirty by handle, and also very inconvenient, even can make clothes dirty.In addition, need a large amount of water in bubble is washed the process of mop, this also is unfavorable for the conserve water resource.

The utility model content

The technical problems to be solved in the utility model is, wrings out the defective of trouble at the above-mentioned mop of prior art, provides a kind of and makes things convenient for drying of mop and the Wringing mop bucket of the hand of can not making dirty.

The technical scheme that its technical problem that solves the utility model adopts is: a kind of Wringing mop bucket is provided, comprises staving, be located at the handle in the described staving outside and a pair of water squeezing cylinder that is located at the staving open side; Described Wringing mop bucket comprises that also the two pairs of gear arms being installed in the relative both sides of described staving respectively and at least one pair of are located at the actuator of the outer described gear arm of side drive of described staving;

Described water squeezing cylinder is installed between two relative described gear arms; The lower end of two described gear arms of the same side is provided with the gear pair of the transmission that is meshed;

Described staving side walls offers axis hole, and the axial location that each described gear arm is positioned at described gear pair is fixed with the rotating shaft on the axis hole that is rotatably installed in described staving; The end of the rotating shaft of at least two described gear arms that are oppositely arranged is provided with connecting thread, and described gear arm connects by described connecting thread and drives rotation by described actuator;

Each described actuator comprises respectively with the threaded joints of described connecting thread engagement and in the draw-in groove portion of described threaded joints arranged outside; The circumference of described draw-in groove portion is provided with at least one draw-in groove;

Described handle comprises the handle main body that is located at described staving both sides, is respectively equipped with hangers at the two ends of described handle main body; Each described hangers is provided with the slotted hole that slidably is set in described actuator periphery and slides at described hangers and snaps onto snib in the described draw-in groove after putting in place.

In Wringing mop bucket of the present utility model, the bottom of described staving is provided with the recess that caves inward as pedal.

In Wringing mop bucket of the present utility model, the position that the sidewall of described staving is positioned at described axis hole is provided with stiffener.

In Wringing mop bucket of the present utility model, described water squeezing cylinder is positioned at the upper end of described gear arm.

In Wringing mop bucket of the present utility model, the periphery of described water squeezing cylinder is enclosed with anticorrosion glue-line.

In Wringing mop bucket of the present utility model, be arranged with between described axis hole and the described rotating shaft and mould the copper packing cover.

In Wringing mop bucket of the present utility model, described gear arm is arranged on the inboard of described staving, and described rotating shaft passes the sidewall of described staving; Be provided with the abrasionproof packing ring between the side end face of described gear arm and the inwall of described staving.

In Wringing mop bucket of the present utility model, described draw-in groove portion is provided with two described draw-in grooves of arranging at an angle.

In Wringing mop bucket of the present utility model, the outermost of described actuator is provided with hexagonal head.

In Wringing mop bucket of the present utility model, described draw-in groove comprises " C " shape section that at least one section described card of chucking fastened.

Implement Wringing mop bucket of the present utility model, has following beneficial effect: when the needs water squeezing, promote handle, make slotted hole on actuator, slide, when the slotted hole of handle slide put in place after, snib snaps onto in the draw-in groove of actuator, rotates the snap action of handle by snib and draw-in groove then and drives actuator and rotate, in the time of the actuator rotation, drive connected gear arm and rotate, at this moment, drive another gear arm by gear pair and rotate, thereby drive water squeezing cylinder closure, clamp the mop between two water squeezing cylinders, drag mop again, can realize the function of the moisture content of Squeezing mop, avoided wringing out, had easy to use with hand, the advantage of cleaning.

Description of drawings

The utility model is described in further detail below in conjunction with drawings and Examples, in the accompanying drawing:

Fig. 1 is the perspective view of the utility model Wringing mop bucket;

Fig. 2 is the structural representation of the staving of the utility model Wringing mop bucket;

Fig. 3 is the schematic perspective view of the gear arm component of the utility model Wringing mop bucket;

Fig. 4 is the schematic perspective view of the actuator of the utility model Wringing mop bucket;

Fig. 5 is the schematic perspective view of the handle of the utility model Wringing mop bucket;

Fig. 6 is the part decomposing schematic representation that the utility model Wringing mop bucket omits staving.

The specific embodiment

Extremely shown in Figure 6 as Fig. 1, in an embodiment of Wringing mop bucket of the present utility model, a pair of water squeezing cylinder 30 that comprise staving 10, be located at the handle 20 in staving 10 outsides, is provided with in staving 10 open side, two teams' gear arm 40 of installing for cylinder and the actuator 50 of a pair of driven wheel arm 40.

As shown in Figure 2, this staving 10 roughly is rectangular-shaped, and the one side opening can a certain amount of water of splendid attire, for the cleaning of mop.Certainly, the shape of staving 10 also can be selected arbitrarily, as square, cylindrical shape etc.On two relative sidewalls of staving 10, offer a plurality of axis holes 11, for the installation of gear arm 40.

The position that the sidewall of staving 10 is positioned at axis hole 11 is provided with stiffener 12, and this stiffener 12 can be when staving 10 moulding, and is one-body molded with staving 10, installs additional after also can finishing staving 10 again.Can increase the intensity of the sidewall of staving 10 by stiffener 12, make that the installation of gear arm 40 is more firm.

Also be provided with the recess 13 that caves inward in the bottom of staving 10, be used for as pedal.When the operation water squeezing, as a stress point, help to stablize staving 10, avoid the side of turning over of staving 10.Bottom at recess 13 can also be provided with recess stiffener 12, thereby strengthens intensity, avoids trampling on entire body.Certainly, also can on staving 10, install the pedal of outside setting additional, equally also can realize the effect of recess 13.

As shown in Figure 3, this gear arm 40 is two pairs, is installed in the relative both sides of staving 10 respectively.Water squeezing cylinder 30 can be installed between two relative gear arms 40 by bearing etc., and the lower end of two gear arms 40 of the same side is provided with the gear pair of the transmission that is meshed.In the present embodiment, water squeezing cylinder 30 is installed in the upper end of gear arm 40, near the position of staving 10 openings, thereby makes things convenient for the water squeezing operation.And, be enclosed with anticorrosion glue-line in the periphery of water squeezing cylinder 30, increase the service life of water squeezing cylinder 30.

The axial location that each gear arm 40 is positioned at gear pair outwards is provided with fixed rotating shaft 42, and gear arm 40 is by on the rotating axis hole 11 that is installed in staving 10 of rotating shaft 42.For the axis hole 11 that increases staving 10 and the antiwear property between the rotating shaft 42, and improve the intensity of axis hole 11, between rotating shaft 42 and axis hole 11, be provided with and mould copper packing and overlap 43.

The end of the rotating shaft 42 of two gear arms 40 that are oppositely arranged wherein is provided with connecting thread 44, be connected with actuator 50 by this connecting thread 44, and by this gear arm 40 rotations of actuator 50 drives, driving another gear arm 40 by gear pair then rotates, thereby drive water squeezing cylinder 30 closures that are installed on the gear arm 40, carry out the water squeezing operation.Understandable, at the two ends of the gear arm 40 that connecting thread 44 is not set annular groove 44 can be set, utilize snap ring (figure does not show) to snap in, come the two ends of Positioning Gear arm 40.

In the present embodiment, gear arm 40 is installed in the inboard of staving 10, and its rotating shaft 42 passes the sidewall of staving 10, is connected with actuator 50.Between the inwall of the side end face of gear arm 40 and staving 10, further be provided with abrasionproof packing ring (figure does not show), thereby play the excessive wear of avoiding gear arm 40 and the inwall of staving 10.Understandable, gear arm 40 also can be installed in the outside of staving 10, and rotating shaft 42 is extended in the both sides of gear arm 40 respectively, and a side is installed in the axis hole 11 of staving 10, and opposite side then is connected with actuator 50.

As shown in Figure 4, this actuator 50 comprises threaded joints 51 and in the draw-in groove portion 52 of threaded joints 51 arranged outside.Operate actuator 50 for convenience, also be provided with hexagonal head 53, can screw actuator 50 in rotating shaft 42 by instruments such as spanners in the outside of draw-in groove portion 52.

This threaded joints 51 is provided with internal thread, cooperates with the connecting thread 44 of the rotating shaft 42 of gear arm 40, thereby can come driven gear arm 40 to rotate by actuator 50.This threaded joints 51 can be made cylindric, for the installation of handle 20, and detailed aftermentioned.

In the present embodiment, this draw-in groove portion 52 is discoid, is arranged on the outside of threaded joints 51.On the circumference of draw-in groove portion 52, be provided with the draw-in groove 521 of two angled settings, thus Convenient handle 20 operate at diverse location, so that bigger convenience to be provided.Understandable, the quantity of draw-in groove 521 can be designed to one or more as required.The shaped design of this draw-in groove 521 becomes can tighten the shape of the snib 222 of handle 20, for having at least one section " C " shape section, wraps up snib 222 as a kind of form among the figure, thereby realizes chucking.Understandable, the shape of draw-in groove 521 can also can tighten the different shape of snib 222 for other.And handle 20 drives actuator 50 rotations by the chucking of snib 222 and draw-in groove 521, and then 40 rotations of driven gear arm.

As shown in Figure 5, this handle 20 comprises the handle main body 21 that is crossed on staving 10 both sides, is respectively equipped with hangers 22 at the two ends of handle main body 21.On each hangers 22, be provided with the slotted hole 221 of the periphery that slidably is set in threaded joints 51 and the snib 222 that cooperates with the draw-in groove 521 of actuator 50.During assembling, at first gear arm 40 is installed on the staving 10, the sidewall of staving 10 is stretched out in the rotating shaft 42 of gear arm 40, then the threaded joints 51 of actuator 50 is inserted in the slotted hole 221 on the hangers 22, and threaded joints 51 cooperated screw-in with the connecting thread 44 of rotating shaft 42, thereby handle 20 and actuator 50 are installed on the gear arm 40.When the slotted hole 221 of handle 20 was positioned at initial state, card was fastened not draw-in groove 521 chuckings with actuator 50, thereby when rotating handle 20, can not drive actuator 50 and rotate, and at this moment, handle 20 is used to mention staving 10 as common handle 20.

And when needs carry out the water squeezing operation, at first handle 20 is advanced on the length direction of slotted hole 221, when arriving the extreme position of slotted hole 221, snib 222 snaps onto in the draw-in groove 521 of actuator 50; Then, rotation handle 20, this moment is because snib 222 is in gripping orientation with draw-in groove 521, thus 50 rotations of drive actuator; When actuator 50 rotates, the connecting thread 44 of the internal thread of its threaded joints 51 and rotating shaft 42 progresses into locking state, thereby the gear arm 40 that has actuator 50 drives to have connecting thread 44 rotates, rotate by gear pair drive another gear arm 40 then with its engagement, realize the relative closing motion of two gear arms 40 of the same side, thereby drive the closure that is installed in the water squeezing cylinder 30 on the gear arm 40, thereby be clamped in two mops between the water squeezing cylinder 30, outwards dragging mop again can extract the water of mop, avoided trouble with the hand water squeezing, be that practicality again can the conserve water resource, have conveniently, advantages such as environmental protection.

Claims (10)

1, a kind of Wringing mop bucket comprises staving, is located at the handle in the described staving outside and a pair of water squeezing cylinder that is located at the staving open side; It is characterized in that described Wringing mop bucket comprises that also the two pairs of gear arms being installed in the relative both sides of described staving respectively and at least one pair of are located at the actuator of the outer described gear arm of side drive of described staving;

Described water squeezing cylinder is installed between two relative described gear arms; The lower end of two described gear arms of the same side is provided with the gear pair of the transmission that is meshed;

Described staving side walls offers axis hole, and the axial location that each described gear arm is positioned at described gear pair is fixed with the rotating shaft on the axis hole that is rotatably installed in described staving; The end of the rotating shaft of at least two described gear arms that are oppositely arranged is provided with connecting thread, and described gear arm connects by described connecting thread and drives rotation by described actuator;

Each described actuator comprises respectively with the threaded joints of described connecting thread engagement and in the draw-in groove portion of described threaded joints arranged outside; The circumference of described draw-in groove portion is provided with at least one draw-in groove;

Described handle comprises the handle main body that is located at described staving both sides, is respectively equipped with hangers at the two ends of described handle main body; Each described hangers is provided with the slotted hole that slidably is set in described actuator periphery and slides at described hangers and snaps onto snib in the described draw-in groove after putting in place.

2, Wringing mop bucket according to claim 1 is characterized in that, the bottom of described staving is provided with the recess that caves inward as pedal.

3, Wringing mop bucket according to claim 2 is characterized in that, the position that the sidewall of described staving is positioned at described axis hole is provided with stiffener.

4, Wringing mop bucket according to claim 1 is characterized in that, described water squeezing cylinder is positioned at the upper end of described gear arm.

5, Wringing mop bucket according to claim 4 is characterized in that, the periphery of described water squeezing cylinder is enclosed with anticorrosion glue-line.

6, according to each described Wringing mop bucket among the claim 1-5, it is characterized in that, be arranged with between described axis hole and the described rotating shaft and mould the copper packing cover.

7, Wringing mop bucket according to claim 6 is characterized in that, described gear arm is arranged on the inboard of described staving, and described rotating shaft passes the sidewall of described staving; Be provided with the abrasionproof packing ring between the side end face of described gear arm and the inwall of described staving.

8, Wringing mop bucket according to claim 6 is characterized in that, described draw-in groove portion is provided with two described draw-in grooves of arranging at an angle.

9, Wringing mop bucket according to claim 6 is characterized in that, the outermost of described actuator is provided with hexagonal head.

10, Wringing mop according to claim 6 is characterized in that together, and described draw-in groove comprises " C " shape section that at least one section described card of chucking fastened.

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