CN201308460Y - Pedal rotating type mop dewatering device and mop bucket provided with same - Google Patents

Abstract

The utility model relates to a pedal rotating type mop dewatering device and a mop bucket provided with same. The pedal rotating type mop dewatering device is formed in the manner that a transmission gear rack which can slide back and forth is driven by foot boards, the reciprocating sliding type movement of the transmission gear rack is transformed into the rotating type movement of a dewatering revolving drum through utilizing the mechanical transmission efficacy of the transmission gear rack as well as a double transmission gear and a driven gear, so as to achieve the automatic dewatering function via the high speed revolution of the dewatering revolving drum. As the traditional operation mode in which strength of the hand is used for pressing is replaced by the operation mode in which foot-pedal serves as the power source, the utility model relatively has the efficacies of simple and convenient operation, thorough dewatering and time-saving and labor-saving performance, thereby bringing various convenience for people to dewater. Moreover, as the utility model adopts the transmission mechanism of the transmission gear rack, the double transmission gear and the driven gear, practice proves that the transmission mechanism has the advantages of stable operation property, durability and extremely long service life when in practical use.

Description

Foot-operated rotary mop dewater unit and have the floor mop bucket of this dewater unit

Technical field

The utility model relates to the floor mop bucket art of hygiene apparatus, refers in particular to a kind of foot-operated rotary mop dewater unit and has the floor mop bucket of this dewater unit.

Background technology

As everyone knows, still a kind of hygiene apparatus commonly used of floor mop bucket, it is widely used in family, company, factory, hotel, spills shop or other various individuals and public place with mop, for cleanup crew's cleaning provides very large help.With regard to the structure of floor mop bucket, it mainly is made up of a header tank and the dewater unit that is arranged in the header tank, the dewater unit of the floor mop bucket of tradition mainly is the hard dehydration tube that is installed on header tank opening one side, during dehydration, towing the head of mop placed dehydration tube manually firmly rotation or extruding, the hydraulic pressure in towing the head is gone out and flow in the header tank.The dewater unit of the manual squeezing formula of this tradition though can reach the function of dehydration, there is many weak points such as dehydration is unclean, labour intensity is big, waste time and energy.

The utility model content

In view of this, the utility model is at the disappearance of prior art existence, its main purpose provides a kind of foot-operated rotary mop dewater unit and has the floor mop bucket of this dewater unit, its dewater unit system adopts foot-operated power source, therefore has dewatering speed characteristics fast, time saving and energy saving and easy to use.

The foot of another mouthful of the present utility model provides a kind of foot-operated rotary mop dewater unit and has the floor mop bucket of this dewater unit, and its foot-operated rotary dewater unit has the stable and long-lived advantage of runnability.

For achieving the above object, the utility model adopts following technical scheme:

A kind of foot-operated rotary mop dewater unit comprises

One pedestal, this pedestal are provided with an at least one crossbeam and a transverse slipway;

One vertical rotating shaft, this vertical rotating shaft is installed on the aforementioned pedestal, and is provided with the driven gear of a synchronous coaxial rotation in vertical rotating shaft;

One dehydration tumbler, this dehydration tumbler are installed in the aforementioned vertical rotating shaft, with the synchronous coaxial rotation of vertical rotating shaft, have the ccontaining cavity that tows the head that is used to take in mop on the dehydration tumbler;

One transmission component, this transmission component comprise driving rack, reseting elastic element and duplex travelling gear, and this driving rack is flush-mounted in the aforementioned lateral slideway, and are the matched in clearance that can be free to slide between the transverse slipway; This reseting elastic element acts on the aforementioned driving rack; The rotating shaft of this duplex travelling gear is installed on the aforementioned pedestal, first gear of duplex travelling gear and the engagement of aforementioned driving rack, second gear of duplex travelling gear and the engagement of aforementioned driven gear;

One pedal, this pedal pivot is placed on the aforementioned crossbeam, and the bottom of pedal pushes on aforementioned driving rack;

When pin is stepped on aforementioned pedal, this pedal and reseting elastic element combination promote driving rack and slidably reciprocate in transverse slipway, driving the duplex travelling gear by the driving rack slip rotates back and forth, the duplex travelling gear further drives this vertical rotating shaft by driven gear and rotates back and forth, and the dehydration tumbler that is installed in the vertical rotating shaft is rotated back and forth in company with vertical rotating shaft.

As a kind of preferred version, the rotating shaft of described duplex travelling gear laterally is installed on the aforementioned pedestal, and this driven gear is a bevel gear, also is bevel gear corresponding to second gear of duplex travelling gear.

As a kind of preferred version, described driving rack is provided with tooth bar, and these teeth are positioned on the upper surface of driving rack body.

As a kind of preferred version, the rotating shaft of described duplex travelling gear is for vertically being installed on the aforementioned pedestal, and this driven gear is a spur gear, also is spur gear corresponding to first gear of duplex travelling gear.

As a kind of preferred version, described driving rack is provided with teeth, and these teeth are positioned on the side of driving rack body.

As a kind of preferred version, be evenly equipped with a plurality of draining grooves on the sidewall of described dehydration tumbler.

As a kind of preferred version, described reseting elastic element is a compression spring, and the one end pushes on driving rack, and the other end pushes on pedestal.

As a kind of preferred version, the upper surface of described pedal is the arc-shaped feet tread.

A kind of floor mop bucket with aforementioned dewater unit, comprise header tank, this header tank one side outside wall surface is provided with a cavity, this cavity system isolates with the collect cavity in the header tank, the pedestal of this dewater unit, transmission component and pedal are arranged in this cavity, the vertical rotating shaft of dewater unit upwards stretches through in the collect cavity of header tank, and the dehydration tumbler that is installed in the vertical rotating shaft is positioned at this collect cavity.

As a kind of preferred version, described cavity extends to the bottom surface of header tank from the outside wall surface of header tank.

After the utility model adopts technique scheme, its beneficial effect is, it is to drive driving rack sliding back and forth by pedal, utilize the machine driving effect of driving rack and duplex driving cog and driven gear, the glding type back and forth of driving rack moved be converted into the rotary of dehydration tumbler and move, mat and utilize the high speed of dehydration tumbler to rotate the function that realizes automatic dehydration.Because it is to adopt foot-operated mode of operation as power source, replaced the mode of operation of the hand strength extruding of tradition, comparatively speaking, have more simple to operation, the thorough and time saving and energy saving effect of dewatering, for people's dehydration brings many facilities.In addition,, facts have proved because it is the transmission mechanism that adopts driving rack, duplex travelling gear and driven gear, this kind transmission mechanism in actual use, its runnability is stable, and durable in use, service life is extremely long.

Come the utility model is elaborated below in conjunction with accompanying drawing and specific embodiment:

Description of drawings

Fig. 1 is the three-dimensional diagrammatic sketch of assembling of first kind of embodiment of the utility model;

Fig. 2 is that diagrammatic sketch is looked at another visual angle of Fig. 1, and its handle changes the width setting according to the header tank opening into;

Fig. 3 is the three-dimensional diagrammatic sketch of assembling of the dewater unit of Fig. 1;

Fig. 4 is the three-dimensional diagrammatic sketch of part assembling of Fig. 3;

Fig. 5 is the three-dimensional diagrammatic sketch of the assembling of dewater unit among second kind of embodiment of the utility model;

Fig. 6 is the three-dimensional diagrammatic sketch of part assembling of Fig. 5;

The accompanying drawing identifier declaration:

10, header tank 11, cavity

12, collect cavity 20, dewater unit

21, pedestal 211, crossbeam

212, transverse slipway 22, vertical rotating shaft

23, dehydration tumbler 231, ccontaining cavity

232, draining groove 24, driving rack

241, teeth 25, the reseting elastic element of driving rack

26, duplex travelling gear 261, first gear

262, second gear 263, rotating shaft

27, pedal 271, bottom

28, driven gear 30, handle

The specific embodiment:

At first, please refer to Fig. 1 to shown in Figure 4, it has demonstrated the concrete structure of first kind of embodiment of the utility model, include the header tank 10 and the dewater unit 20 that is arranged in the header tank of hollow, the upper end open of header tank 10, and be provided with the handle 30 that is across this opening top in opening part, this handle 30 can be provided with according to the length direction (as Fig. 1) or the width (as Fig. 2) of header tank, not to exceed.And, be provided with a cavity 11 in these header tank 10 1 side outside wall surface, this cavity 11 extends to the bottom surface of header tank downwards from the side wall surface of header tank always, this cavity 11 be with header tank 10 in collect cavity 12 isolate, in the unlikely inflow cavity 11 of water in the collect cavity 12.The critical piece system of this dewater unit 20 is arranged in this cavity 11, only its vertical rotating shaft 22 upwards stretches through in the collect cavity 12 of header tank 10, be better than most vertical rotating shaft 22 and be provided with hermetically-sealed construction, the dehydration tumbler 23 that is installed in the vertical rotating shaft 22 also is positioned at its collect cavity 12.

This dewater unit 20 is a foot-operated rotary mop dewater unit, the transmission component that its concrete structure includes pedestal 21, vertical rotating shaft 22, dehydration tumbler 23, pedal 27 and is made up of driving rack 24, reseting elastic element 25, duplex travelling gear 26.

Wherein, this pedestal 21 is installed in the aforementioned cavity 11, and is encapsulated in the bottom of cavity 11, and this pedestal 21 is provided with the crossbeam 211 that left and right directions extends, and the transverse slipway 212 of fore-and-aft direction extension.

The lower ending pivot of this vertical rotating shaft 2 is loaded on the aforementioned pedestal 21, the upper end of vertical rotating shaft 22 upwards stretches through in the collect cavity 12 of aforementioned header tank 10, and the driven gear 28 that is provided with a synchronous coaxial rotation in vertical rotating shaft 22, this driven gear 28 is to be positioned at cavity 11, and the driven gear in present embodiment 28 is a bevel gear.

This dehydration tumbler 23 is installed in the upper end of aforementioned vertical rotating shaft 22, be arranged in the collect cavity 12 of aforementioned header tank 10, with vertical rotating shaft 22 synchronous coaxial rotation, have the ccontaining cavity 231 that tows the head that is used to take in mop on the dehydration tumbler 23, and on the dehydration tumbler wall, be densely covered with draining groove 232.

This driving rack 24 is flush-mounted in the aforementioned lateral slideway 212, and is the matched in clearance that can be free to slide between the transverse slipway 212, and the teeth 241 on the driving rack 24 are to be arranged on the upper surface of driving rack body 24.

This reseting elastic element 25 acts on the aforementioned driving rack 24, and the flexible member 25 in the present embodiment is a compression spring, and the one end pushes on driving rack 24, and the other end pushes on aforementioned pedestal 21, and the reset response power of this driving rack 24 is provided.

The rotating shaft 263 of this duplex travelling gear 26 laterally is installed on the aforementioned pedestal 21, first gear 261 of duplex travelling gear 26 and aforementioned driving rack 24 engagements, second gear 262 of duplex travelling gear 26 and aforementioned driven gear 28 engagements, second gear 262 in present embodiment is a bevel gear.

This pedal 27 is installed on the aforementioned crossbeam 211, and the bottom 271 of pedal 27 pushes on aforementioned driving rack 24, and the upper surface of pedal 27 is an arc-shaped feet tread, so that the user to be provided comfortable operation interface.

During use, the user at first tows the head mop to be drained off and places in the collect cavity of dehydration tumbler, step on aforementioned pedal 27 by pin then and drive this dewater unit 20, promoting driving rack 24 by this pedal 27 and reseting elastic element 25 combinations slidably reciprocates in transverse slipway 212, wherein, when stepping on pedal, this driving rack is to front slide, back-moving spring is compressed, and driving rack drive this moment duplicate gear rotates counterclockwise; When unclamping pedal, this driving rack retreats slip under the effect of back-moving spring, and driving rack drive this moment duplicate gear clockwise rotates.At this duplicate gear clockwise and in the process that rotates back and forth counterclockwise, further driving this vertical rotating shaft 22 by driven gear 28 by this duplex travelling gear 26 rotates back and forth, finally, the dehydration tumbler 23 that is installed in the vertical rotating shaft 22 just rotates back and forth in company with vertical rotating shaft 22.This dehydration tumbler 23 is in the process that rotates back and forth at a high speed, place the moisture content that tows the head in its collect cavity 231 promptly to be thrown out of, and in the collect cavity 12 of the 232 inflow header tanks 10 of the draining groove on rotating cylinder 23 walls that dewater certainly, thereby the function of the foot-operated rotary dehydration of realization.

Then, please refer to Fig. 5 and shown in Figure 6, it has demonstrated the concrete structure of second kind of embodiment of the utility model, the difference of present embodiment and aforementioned first kind of embodiment is, second gear 262 of this duplex travelling gear 26 is a spur gear, driven gear 28 correspondence and its engagement also is a spur gear, and this duplex travelling gear 26 is the setting that lies low, the i.e. rotating shaft 263 of this duplex travelling gear 26 is for vertically being installed on the aforementioned pedestal 21, simultaneously with the driving rack 24 of first gear, 261 engagements of duplex travelling gear 26 on teeth 241 be to be arranged on the side of driving rack body 24.

Design focal point of the present utility model is, it is to drive driving rack sliding back and forth by pedal, utilize the machine driving effect of driving rack and duplex driving cog and driven gear, the glding type back and forth of driving rack moved be converted into the rotary of dehydration tumbler and move, mat and utilize the high speed of dehydration tumbler to rotate the function that realizes automatic dehydration.Because it is to adopt foot-operated mode of operation as power source, replaced the mode of operation of the hand strength extruding of tradition, comparatively speaking, have more simple to operation, the thorough and time saving and energy saving effect of dewatering, for people's dehydration brings many facilities.In addition,, facts have proved because it is the transmission mechanism that adopts driving rack, duplex travelling gear and driven gear, this kind transmission mechanism in actual use, its runnability is stable, and durable in use, service life is extremely long.

The above, it only is preferred embodiment of the present utility model, be not that technical scope of the present utility model is imposed any restrictions, so every foundation technical spirit of the present utility model all still belongs in the scope of technical solutions of the utility model any trickle modification, equivalent variations and modification that above embodiment did.

Claims (10)

1, a kind of foot-operated rotary mop dewater unit is characterized in that: comprise

One pedestal, this pedestal are provided with an at least one crossbeam and a transverse slipway;

One vertical rotating shaft, this vertical rotating shaft is installed on the aforementioned pedestal, and is provided with the driven gear of a synchronous coaxial rotation in vertical rotating shaft;

One dehydration tumbler, this dehydration tumbler are installed in the aforementioned vertical rotating shaft, with the synchronous coaxial rotation of vertical rotating shaft, have the ccontaining cavity that tows the head that is used to take in mop on the dehydration tumbler;

One transmission component, this transmission component comprise driving rack, reseting elastic element and duplex travelling gear, and this driving rack is flush-mounted in the aforementioned lateral slideway, and are the matched in clearance that can be free to slide between the transverse slipway; This reseting elastic element acts on the aforementioned driving rack; The rotating shaft of this duplex travelling gear is installed on the aforementioned pedestal, first gear of duplex travelling gear and the engagement of aforementioned driving rack, second gear of duplex travelling gear and the engagement of aforementioned driven gear;

One pedal, this pedal pivot is placed on the aforementioned crossbeam, and the bottom of pedal pushes on aforementioned driving rack;

When pin is stepped on aforementioned pedal, this pedal and reseting elastic element combination promote driving rack and slidably reciprocate in transverse slipway, driving the duplex travelling gear by the driving rack slip rotates back and forth, the duplex travelling gear further drives this vertical rotating shaft by driven gear and rotates back and forth, and the dehydration tumbler that is installed in the vertical rotating shaft is rotated back and forth in company with vertical rotating shaft.

2, foot-operated rotary mop dewater unit according to claim 1, it is characterized in that: the rotating shaft of described duplex travelling gear laterally is installed on the aforementioned pedestal, and this driven gear is a bevel gear, also is bevel gear corresponding to second gear of duplex travelling gear.

3, foot-operated rotary mop dewater unit according to claim 2, it is characterized in that: described driving rack is provided with tooth bar, and these teeth are positioned on the upper surface of driving rack body.

4, foot-operated rotary mop dewater unit according to claim 1, it is characterized in that: the rotating shaft of described duplex travelling gear is for vertically being installed on the aforementioned pedestal, this driven gear is a spur gear, also is spur gear corresponding to first gear of duplex travelling gear.

5, foot-operated rotary mop dewater unit according to claim 4, it is characterized in that: described driving rack is provided with teeth, and these teeth are positioned on the side of driving rack body.

6, foot-operated rotary mop dewater unit according to claim 1 is characterized in that: be evenly equipped with a plurality of draining grooves on the sidewall of described dehydration tumbler.

7, foot-operated rotary mop dewater unit according to claim 1, it is characterized in that: described reseting elastic element is a compression spring, and the one end pushes on driving rack, and the other end pushes on pedestal.

8, foot-operated rotary mop dewater unit according to claim 1, it is characterized in that: the upper surface of described pedal is the arc-shaped feet tread.

9, a kind of floor mop bucket with any one described dewater unit in the aforementioned claim 1 to 8, it is characterized in that: comprise header tank, this header tank one side outside wall surface is provided with a cavity, this cavity system isolates with the collect cavity in the header tank, the pedestal of this dewater unit, transmission component and pedal are arranged in this cavity, the vertical rotating shaft of dewater unit upwards stretches through in the collect cavity of header tank, and the dehydration tumbler that is installed in the vertical rotating shaft is positioned at this collect cavity.

10, floor mop bucket according to claim 9 is characterized in that: described cavity extends to the bottom surface of header tank from the outside wall surface of header tank.

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