CN202184704U - Double-tube mop cylinder - Google Patents

Double-tube mop cylinder Download PDF

Info

Publication number
CN202184704U
CN202184704U CN2011202134093U CN201120213409U CN202184704U CN 202184704 U CN202184704 U CN 202184704U CN 2011202134093 U CN2011202134093 U CN 2011202134093U CN 201120213409 U CN201120213409 U CN 201120213409U CN 202184704 U CN202184704 U CN 202184704U
Authority
CN
China
Prior art keywords
mop
motor
power transmission
transmission shaft
circuit plate
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Fee Related
Application number
CN2011202134093U
Other languages
Chinese (zh)
Inventor
杨汉标
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
GUANGDONG YINRUN INDUSTRY Co Ltd
Original Assignee
GUANGDONG YINRUN INDUSTRY Co Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by GUANGDONG YINRUN INDUSTRY Co Ltd filed Critical GUANGDONG YINRUN INDUSTRY Co Ltd
Priority to CN2011202134093U priority Critical patent/CN202184704U/en
Application granted granted Critical
Publication of CN202184704U publication Critical patent/CN202184704U/en
Anticipated expiration legal-status Critical
Expired - Fee Related legal-status Critical Current

Links

Abstract

The utility model discloses a double-tube mop cylinder comprising a cylinder body. A water filtering sieve capable of rotating at a high speed is arranged on one side of the top part of the water storing space of the cylinder body, a spiral body capable of driving water stored in the cylinder body to rotate in a rotatable manner is arranged on the other side of the lower part of the water storing space of the cylinder body, a driving space isolating from the water storing space of the cylinder body is arranged below the water filtering sieve, a driving device is arranged in the driving space, and the driving device comprises a first transmission assembly, which is connected with the water filtering sieve and drives the water filtering sieve to rotate, and a second transmission assembly, which is connected with the spiral body and drives the spiral body to rotate. The double-tube mop cylinder has a reasonable structure, is provided with an automatic cleaning part and an automatic dehydrating part so as to automatically clean and dehydrate a dirty mop, is time-saving and labor-saving, reduces the labor intensity in daily home furnishing health treatment, and improves life quality.

Description

A kind of bitubular mop-pail stands
Technical field
The utility model relates to mop-pail stands, particularly a kind of be provided with the bitubular can clean the bitubular mop-pail stands with automatic dehydration respectively automatically.
Background technology
In the modern life, people pay attention to the household health very much, often need carry out cleaning to the family environment.Mop is a kind of burnisher commonly used, often uses in daily life, and mop is placed on behind the plate that mops in the clear water in the mop-pail stands and stirs removing the foul on the mop as far as possible, and then mop is wrung out.The existing mode of wringing out commonly used is a kind of to be on mop-pail stands, to be provided with a pair of nip rolls; Wet mop places in the middle of two nip rolls; After making nip rolls produce certain chucking power to clamp wet mop through pedal and corresponding transmission device, the same mop of mentioning of exerting oneself then squeezes out sewage; Another kind of mode is to be provided with a mop crush zone on one side at the mop staving, firmly squeezes by wet mop to remove sewage after wet mop is placed crush zone.The weak point of this dual mode is; Sewage degree of wringing out on the wet mop is relatively poor, is difficult to reach the effect of wringing out, and this dual mode all need impose suitable strength and just can reach and wring out effect; For the people a little less than the power; Above-mentioned dual mode all is very limited, if undue force is easy to cause the discomfort on the health.How wet mop is cleaned like a cork and dewatered and washed to divide be the industry difficult problem of tackling key problems for a long time always.
The utility model content
The purpose of the utility model is; A kind of bitubular mop-pail stands reasonable in design is provided; This bitubular mop-pail stands is provided with an automatic cleaning part and an automatic dehydration part, can accomplish the cleaning and the dehydration of dirty mop automatically, and is time saving and energy saving; Reduce the labour intensity of daily household sanitized, improve the quality of living.
The utility model for realizing the technical scheme that above-mentioned purpose adopted is:
A kind of bitubular mop-pail stands; It comprises one barrel of body; One side is provided with the drainage sieve that can rotate at a high speed in the top, dress hydrospace of this barrel body; This drainage sieve can move up and down, and opposite side is provided with a rotatable conveyor screw that will be loaded on the intrinsic water driven rotary of this barrel in the bottom, dress hydrospace of this barrel body, is provided with the driving space that isolates with the dress hydrospace of said bucket body in the below of said drainage sieve; One drive unit is arranged in this driving space, and said drive unit comprises that one is connected and orders about first transmission component that the drainage sieve rotates and is connected and orders about the conveyor screw rotation with said conveyor screw second transmission component with said drainage sieve.
Further improvement as the utility model; Said first transmission component comprises one first motor, one first power transmission shaft, one first trigger switch and one first delay switch circuit plate; This first motor output shaft up is located in this driving space; Said first power transmission shaft is rotatable and can stretch out this driving space up or down; The top of this first power transmission shaft is connected with said drainage sieve, and said first trigger switch and delay switch circuit plate are located at the below of this first power transmission shaft successively, between this first trigger switch and the first delay switch circuit plate, are provided with one first back-moving spring; Be respectively equipped with one first travelling gear on the output shaft of this first motor and first power transmission shaft, be meshed between these two first travelling gears.
Further improvement as the utility model; Said second transmission component comprises one second motor, one second power transmission shaft, one second trigger switch and one second delay switch circuit plate; The output shaft of this second motor is arranged in this driving space down; This second power transmission shaft is rotatable and can stretch out this driving space up or down, and the top of this second power transmission shaft is connected with said conveyor screw, and this second trigger switch and the second delay switch circuit plate are located at the below of this second power transmission shaft successively; Between this second trigger switch and the second delay switch circuit plate, be provided with one second back-moving spring; Be respectively equipped with one second travelling gear on the output shaft of this second motor and second power transmission shaft, between these two second travelling gears, also be provided with several second travelling gears, be meshed between said second travelling gear.
Further improvement as the utility model; It also comprises a supply unit; This supply unit comprises that the battery of being located in this driving space and for the power supply of this first motor, second motor is located at the isolating switch that the charging plug and of this barrel body outer wall is used to cut off this first motor, second motor power; This charging plug is connected with battery; This battery is connected with the said first delay switch circuit plate, the second delay switch circuit plate, and this partition switch is located at this battery top.
As the further improvement of the utility model, it also comprises a handle, and these handle two ends are hinged on this mop-pail stands bodies top both sides.
As the further improvement of the utility model, said drainage sieves and is the circle peviform to be interval with dehydrated mouth on this drainage sieve, and said drainage sieve turns through a support and can be arranged at this barrel upper part of body one side up or down.
As the further improvement of the utility model, between the output shaft of this second motor and second travelling gear on second power transmission shaft, also be provided with two second travelling gears.
The beneficial effect of the utility model is: the utility model is rational in infrastructure; This bitubular mop-pail stands is provided with an automatic cleaning part and an automatic dehydration part, can accomplish the cleaning and the dehydration of dirty mop automatically, and is time saving and energy saving; Reduce the labour intensity of daily household sanitized, improve the quality of living.
Below in conjunction with accompanying drawing and embodiment, the utility model is further specified.
Description of drawings
Fig. 1 is the perspective view of the utility model;
Fig. 2 is the fractionation sketch map 1 of the utility model;
Fig. 3 is the fractionation sketch map 2 of the utility model;
Fig. 4 is that the drive unit of the utility model partly splits sketch map.
The specific embodiment
Embodiment: see Fig. 1 to Fig. 4; A kind of bitubular mop-pail stands of the utility model; It comprises one barrel of body 1; A side is provided with the drainage sieve 2 that can rotate at a high speed in 11 tops, dress hydrospace of this barrel body 1; This drainage sieve 2 can move up and down, and 11 bottom opposite sides are provided with a rotatable conveyor screw 3 that will be loaded on the water driven rotary this barrel body 1 in the dress hydrospace of this barrel body 1, be provided with in the below of said drainage sieve 2 one with the driving space 12 of dress hydrospace 11 isolation of said bucket body 1; One drive unit 4 is arranged in this driving space 12, and said drive unit 4 comprises that one is connected and orders about first transmission component 41 that drainage sieve 2 rotates and is connected and orders about conveyor screw 3 rotations with said conveyor screw 3 second transmission component 42 with said drainage sieve 2.
Said first transmission component 41 comprises one first motor 411, one first power transmission shaft 412, one first trigger switch 414 and one first delay switch circuit plate; These first motor, 411 output shafts up are located in this driving space 12; Said first power transmission shaft 412 turns and can stretch out this driving space 12 up or down; The top of this first power transmission shaft 412 is connected with said drainage sieve 2; Said first trigger switch 414 and delay switch circuit plate are located at the below of this first power transmission shaft 412 successively; Between this first trigger switch 414 and the first delay switch circuit plate, be provided with one first back-moving spring 416, be respectively equipped with one first travelling gear 413 on the output shaft of this first motor 411 and first power transmission shaft 412, be meshed between these two first travelling gears 413.
Said second transmission component 42 comprises one second motor 421, one second power transmission shaft 422, one second trigger switch 424 and one second delay switch circuit plate; The output shaft of this second motor 421 is arranged in this driving space 12 down; This second power transmission shaft 422 turns and can stretch out this driving space 12 up or down; The top of this second power transmission shaft 422 is connected with said conveyor screw 3; This second trigger switch 424 and the second delay switch circuit plate are located at the below of this second power transmission shaft 422 successively; Between this second trigger switch 424 and the second delay switch circuit plate, be provided with one second back-moving spring 426; Be respectively equipped with one second travelling gear 423 on the output shaft of this second motor 421 and second power transmission shaft 422, between these two second travelling gears 423, also be provided with several second travelling gears 423, be meshed between said second travelling gear 423.
It also comprises a supply unit; This supply unit comprises that the battery of being located in this driving space 12 51 and for this first motor 411,421 power supplies of second motor is located at the isolating switch 53 that the charging plug 52 and of this barrel body 1 outer wall is used to cut off this first motor 411, second motor, 421 power supplys; This charging plug 52 is connected with battery 51; This battery 51 is connected with the said first delay switch circuit plate, the second delay switch circuit plate, and this partition switch is located at this battery 51 tops.
It also comprises a handle 6, and these handle 6 two ends are hinged on this both sides, mop-pail stands body 1 top.
Said drainage sieves 2 and is the circle peviform, is interval with dehydrated mouth 21 on this drainage sieve 2, and said drainage sieve 2 turns and can be arranged at up or down top one side of this barrel body 1 through a support 22.
Between the output shaft of this second motor 421 and second travelling gear 423 on second power transmission shaft 422, also be provided with two second travelling gears 423.
When using the utility model, dress water in this barrel body 1, water level is lower than the bottom of this drainage sieve 2; Push conveyor screw 3 with mop, make second power transmission shaft 422 press down, second trigger switch 424 contacts with the second delay switch circuit plate 425; Time-delay is connected battery 51 power supplies and is made second power transmission shaft 422, conveyor screw 3 homings for second motor, 421, the second back-moving springs 426, and second motor 421 rotates; Second travelling gear 423 through engagement successively orders about this conveyor screw 3 rotations, thereby in the dress hydrospace 11 of mop-pail stands, forms rotary water current, and dirty mop is put in the water; Rotary water current drive mop agitates in water, turn, obtains well cleaning performance automatically, and the mop after cleaning is put in the drainage sieve 2; Push drainage sieve 2 with mop, the power transmission shaft 412 of winning is pressed down, first trigger switch 414 contacts with the first delay switch circuit plate 415; Time-delay is connected battery 51 power supplies and is given first motor 411; First back-moving spring 416 makes the power transmission shaft 412 of winning, drainage sieve 2 homings, and first motor 411 rotates, and orders about drainage through first travelling gear 413 that meshes and sieves 2 high speed rotating; Rely on centrifugal force that the moisture on the wet mop is broken away from, reach the purpose of taking off dust mop automatically.
The utility model is rational in infrastructure, and this bitubular mop-pail stands is provided with an automatic cleaning part and an automatic dehydration part, can accomplish the cleaning and the dehydration of dirty mop automatically, and is time saving and energy saving, reduces the labour intensity of daily household sanitized, improves the quality of living.
Embodiment is said like the utility model, with other bitubular mop-pail standses of the same or similar structure of the utility model, all in the utility model protection domain.

Claims (7)

1. bitubular mop-pail stands; It is characterized in that: it comprises one barrel of body; One side is provided with the drainage sieve that can rotate at a high speed in the top, dress hydrospace of this barrel body; This drainage sieve can move up and down; Opposite side is provided with a rotatable conveyor screw that will be loaded on the intrinsic water driven rotary of this barrel in the bottom, dress hydrospace of this barrel body; Be provided with the driving space that isolates with the dress hydrospace of said bucket body in the below of said drainage sieve, a drive unit is arranged in this drivings space, and said drive unit comprises that one is connected and orders about first transmission component that drainage sieves rotation and is connected and orders about the conveyor screw rotation with said conveyor screw second transmission component with said drainage sieve.
2. bitubular mop-pail stands according to claim 1; It is characterized in that; Said first transmission component comprises one first motor, one first power transmission shaft, one first trigger switch and one first delay switch circuit plate; This first motor output shaft up is located in this driving space, and said first power transmission shaft is rotatable and can stretch out this driving space up or down, and the top of this first power transmission shaft is connected with said drainage sieve; Said first trigger switch and delay switch circuit plate are located at the below of this first power transmission shaft successively; Between this first trigger switch and the first delay switch circuit plate, be provided with one first back-moving spring, be respectively equipped with one first travelling gear on the output shaft of this first motor and first power transmission shaft, be meshed between these two first travelling gears.
3. bitubular mop-pail stands according to claim 1; It is characterized in that; Said second transmission component comprises one second motor, one second power transmission shaft, one second trigger switch and one second delay switch circuit plate; The output shaft of this second motor is arranged in this driving space down; This second power transmission shaft is rotatable and can stretch out this driving space up or down, and the top of this second power transmission shaft is connected with said conveyor screw, and this second trigger switch and the second delay switch circuit plate are located at the below of this second power transmission shaft successively; Between this second trigger switch and the second delay switch circuit plate, be provided with one second back-moving spring; Be respectively equipped with one second travelling gear on the output shaft of this second motor and second power transmission shaft, between these two second travelling gears, also be provided with several second travelling gears, be meshed between said second travelling gear.
4. bitubular mop-pail stands according to claim 1; It is characterized in that; It also comprises a supply unit; This supply unit comprises that the battery of being located in this driving space and for the power supply of this first motor, second motor is located at the isolating switch that the charging plug and of this barrel body outer wall is used to cut off this first motor, second motor power; This charging plug is connected with battery, and this battery is connected with the said first delay switch circuit plate, the second delay switch circuit plate, and this partition switch is located at this battery top.
5. bitubular mop-pail stands according to claim 1 is characterized in that it also comprises a handle, and these handle two ends are hinged on this mop-pail stands bodies top both sides.
6. bitubular mop-pail stands according to claim 1 is characterized in that, said drainage sieves and is the circle peviform to be interval with dehydrated mouth on this drainage sieve, and said drainage sieve turns through a support and can be arranged at this barrel upper part of body one side up or down.
7. bitubular mop-pail stands according to claim 3 is characterized in that, between the output shaft of this second motor and second travelling gear on second power transmission shaft, also is provided with two second travelling gears.
CN2011202134093U 2011-06-23 2011-06-23 Double-tube mop cylinder Expired - Fee Related CN202184704U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN2011202134093U CN202184704U (en) 2011-06-23 2011-06-23 Double-tube mop cylinder

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN2011202134093U CN202184704U (en) 2011-06-23 2011-06-23 Double-tube mop cylinder

Publications (1)

Publication Number Publication Date
CN202184704U true CN202184704U (en) 2012-04-11

Family

ID=45916185

Family Applications (1)

Application Number Title Priority Date Filing Date
CN2011202134093U Expired - Fee Related CN202184704U (en) 2011-06-23 2011-06-23 Double-tube mop cylinder

Country Status (1)

Country Link
CN (1) CN202184704U (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103961041A (en) * 2014-05-05 2014-08-06 黄智勇 Cleaning tool

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103961041A (en) * 2014-05-05 2014-08-06 黄智勇 Cleaning tool

Similar Documents

Publication Publication Date Title
CN201361019Y (en) Multiple-groove type mop dewatering bucket
CN202184704U (en) Double-tube mop cylinder
CN201414769Y (en) Automatic drying-off mop bucket and mop
CN102273993A (en) Method for automatically cleaning and drying mop and double-unit mop bucket for implementing same
CN201585947U (en) Rotary mechanism
CN201404188Y (en) Mop washing and dewatering machine
CN201370554Y (en) Self-help type dewatering device
CN201388998Y (en) Mop dewatering device
CN201365896Y (en) Full-automatic mop washing and dewatering machine
CN203462326U (en) Hand-operated spin-drier
CN202173372U (en) Single-drum mop bucket
CN103845023A (en) Multifunctional mop cylinder
CN204500558U (en) Automatic dehydration mop
CN105167528B (en) Umbrella dehydrater
CN201153919Y (en) Mop dewatering device
CN201308462Y (en) Mop rapid dehydration device
CN204600391U (en) Control device and mop-pail stands
CN203668700U (en) Manual washing machine
CN201861596U (en) Mop bucket
CN201005654Y (en) Novel mop dewatering machine
CN203234694U (en) Novel multifunctional broom
CN201524046U (en) Mop washing and dehydration machine
CN203458357U (en) Multipurpose three-dimensional type mop dehydration barrel
CN104771123A (en) Flat-plate type mophead washing and spin-drying machine
CN202458253U (en) Washing assisting water-removing bucket of mop head

Legal Events

Date Code Title Description
C14 Grant of patent or utility model
GR01 Patent grant
CF01 Termination of patent right due to non-payment of annual fee
CF01 Termination of patent right due to non-payment of annual fee

Granted publication date: 20120411

Termination date: 20180623