CN201481325U

CN201481325U - Dehydration mop

Info

Publication number: CN201481325U
Application number: CN2009200081817U
Authority: CN
Inventors: 刘永红
Original assignee: Individual
Current assignee: Individual
Priority date: 2009-04-18
Filing date: 2009-04-18
Publication date: 2010-05-26
Anticipated expiration: 2019-04-18

Abstract

The utility model relates to a dehydration mop. A prime mechanism, a gearbox and a mophead are connected sequentially to form the dehydration mop. The working principle of the dehydration mop is that the prime mechanism is manually driven to rotate; after accelerating a rotating speed generated by the prime mechanism, the gearbox drives the mophead connected with the gearbox to rotate at a high speed; and a centrifugal force generated by high speed rotation makes water in the mop dried. The utility model is characterized in that: the mop is provided with a gear shifting mechanism; the mop adopts a dehydration mode that after being accelerated by the gear shifting mechanism, the manual power drives the mop to rotate at the high speed to generate the centrifugal force to make the water in the mop dried; and a power application mode of the mop is a hand-operated mode or a driving mode of pressing up and down.

Description

Dehydration mop

Affiliated technical field

The utility model relates to a kind of Clean-mop, the dehydration mop that especially utilizes centrifugal force that mop is dewatered.

Background technology

At present, known mop dewatering is substantially by manually wringing out or use the subsidiary conical hopper of mop-pail stands to extract, this dewatering type is difficult to the moisture in the mop is removed, can make ground stay washmarking with mopping floor than wet mop, a large amount of dust accumulate in the water that remains in the floor, make the floor be not easy cleaning totally, also easy breed bacteria.

Summary of the invention

In order to overcome the deficiency that existing mop is difficult for dehydration, the utility model provides a kind of dehydration mop, and this mop uses artificial power drive mop to rotate at a high speed, utilize centrifugal force that rotation at a high speed produces just the moisture of mop take off dried, not only environmental protection but also health.

The technical scheme foot that its technical problem that solves the utility model adopts: mop is by driving mechanism, gearbox, the mophead formation that is linked in sequence, the rotation of manual driven driving mechanism, the mophead that the rotating speed acceleration rear drive that gearbox produces driving mechanism is connected with gearbox rotates at a high speed, and the centrifugal force of rotation generation dries the moisture in the mop at a high speed.

The beneficial effects of the utility model are that simple in structure, with low cost, the use man power can be easy to mop moisture be dried not only environmental protection but also health.

Description of drawings

Below in conjunction with drawings and Examples the utility model is further specified.

Fig. 1 is a front view of the present invention

Fig. 2 is a profilograph of the present invention

Fig. 3 is first application example figure of the present invention

Fig. 4 is second application example figure of the present invention

Among the figure: 1. mop is in handle, 2. crank, 3. sleeve, 4. drive link, 5. handle, 6. gearbox Upper gasket, 7. gear-box case, 8. change-speed gearing, 9. change gear bracket, 10. mop driving shaft, 11. the gearbox lower cover, 12. mop loam cakes, 13. mop lower covers, 14. mops, 15. mophead hold-down nuts.16. the screw-casing handle, 17. screw rods, 18. castle wheels, 19. springs, 20. gearbox power shafts, 21. dewatering holders.

The specific embodiment

In Fig. 2 and embodiment shown in Figure 3, mop is by driving mechanism, and gear and mophead 3 parts are formed.Crank (2) is contained in the handle (5) respectively with after mop handle (1) drive link (4) is connected, and sleeve (3) is equipped with in the handle upper end, forms driving mechanism; The driving mechanism bottom connects gearbox, and gearbox is an epicyclic transmission, and by 2 groups 6 change-speed gearings (8), tooth rest (9), inner ring are the gear-box case (7) of internal gear, and mop driving shaft (10) is formed; The mop driving shaft (10) of gear box output end is connected with mophead, mophead is by mop loam cake (12), mop (14) mop lower cover (13) mophead hold-down nut (15) is formed, mop loam cake (12) and mop lower cover (13) clamp mop (14), are fixed on the mop driving shaft (10) by mophead hold-down nut (15).When needs dewater, sleeve (3) moved up be enclosed within on the mop handle (1), mop handle (1) crank (2) is converted into the structure of 90 degree as Fig. 3, form a crank, rotating crank, make drive link (4) rotation, there are 3 gear shafts that become 120 degree to arrange drive link (4) lower end, first group 3 travelling gears (8) are housed, 3 change-speed gearings (8) and the interior internal gear engagement of gear-box case (7), change gear bracket (9) top is gear structure, mesh with first group 3 change-speed gearings (8), drive link (4) drives first group 3 change-speed gearings (8) and moves in a circle, with the gear motion of internal gear under drive change gear bracket (9) rotation, change gear bracket (9) bottom is the gear shaft of 3 120 degree circumferential arrangement, second group of 3 change-speed gearing be contained under the change gear bracket (9) and gear shaft on, with internal gear engagement in the gear-box case (7) again with the gears engaged on mop driving shaft (10) top, change gear bracket (9) drives second group 3 change-speed gearings (8) and moves in a circle, change-speed gearing itself drives mop driving shaft (19) rotation around the gear shaft rotation of change gear bracket (9) lower end under the engagement of internal gear.Because there are gear ratio in change-speed gearing (8) and internal gear, the rotating speed that is delivered to gearbox by driving mechanism is quickened the back by mop driving shaft (10) output by gearbox, the mophead that drive is contained on the mop driving shaft (10) rotates at a high speed, rotation produces centrifugal force at a high speed, moisture in the mop (14) is dried, reach the purpose of dehydration.After dehydration finishes, crank (2) is stretching, sleeve (3) is stuck in downwards in the handle (5), make mop handle (1) crank (2) drive link (4) sleeve (3) form a staight shank, be convenient to grip and use.

In Fig. 4 another embodiment shown in being, gear and mophead and Fig. 2 embodiment shown in Figure 3 is identical, different with first embodiment is driving mechanism, driving mechanism is to convert circular motion to pumping in the embodiment shown in Figure 4, driving mechanism is by screw-casing handle (16), screw rod (17), castle wheel (18), spring (19), gearbox power shaft (20) constitutes.When needing dehydration, mop is placed on the dewatering holder (21), push screw-casing handle (16) downwards, drive screw (17) rotation, screw rod drives castle wheel (18) and drives gearbox power shaft (20) rotation with gearbox power shaft (20) interlock, transmission of power is quickened the rear drive mophead to gearbox rotate at a high speed, reach the dehydration purpose.After screw-casing handle (16) is pressed onto the end, stop to push, spring (19) promotes screw-casing handle (16) and upwards resets, and screw rod reverse rotation this moment drives castle wheel (18) and throws off gearbox power shaft (20), and gearbox power shaft (20) can only unidirectionally be rotated.

Claims

1. dehydration mop, by driving mechanism, planetary transmission, the mophead formation that is linked in sequence, driving mechanism is made of 3 sections interconnective staight shanks and a sleeve, 3 sections staight shanks can be formed a crank with sleeve in mutual 90 degree rotation backs, the staight shank end is connected with the input of planetary transmission, the output of planetary transmission is connected with mophead, the rotation of manual driven driving mechanism, the mophead that the rotating speed acceleration rear drive that gearbox produces driving mechanism is connected with gearbox rotates at a high speed, and the centrifugal force of rotation generation dries the moisture in the mop at a high speed, and it is characterized in that: mop is provided with epicyclic transmission.

2. dehydration mop according to claim 1 is characterized in that: 3 sections staight shanks can be formed a crank with sleeve in mutual 90 degree rotation backs, and rotating crank rotates generation centrifugal force at a high speed through gear acceleration rear drive mop the moisture in the mop is dried.