CN203042160U - Tension type self-spinning mop - Google Patents

Abstract

The utility model discloses a tension type self-spinning mop, which comprises a mop body, a grip and a one-way driving device, wherein the mop body is characterized in that the lower end of a mop rod is pivoted with a disc seat used for assembling floor cleaning cloth strips, the grip is arranged above the mop rod, a case seat is assembled between the grip and the mop rod, the one-way driving device is arranged in the case seat and comprises a pull rod and a clutch element, one end of the pull rope is linked with the clutch element, the other end of the pull rope penetrates out of the case seat, and the clutch element is used for linking and controlling the one-way rotation of the mop body. Through the adoption of the mode of pulling the pull rope, the mop body is driven in the one-way direction to generate stable and smooth self spinning so that the sustained acceleration can be realized through pulling the pull rope to and fro, the cloth strips after the mop body cleaning are fast spin-dried in a centrifugal force mode, the dewatering operation is simple and convenient, in addition, the integral structure is simple, and the failure rate is low.

Description

Tensile force type spin mop

Technical field

The utility model relates to a kind of mop, refers to a kind of mode by the pulling stay cord especially, and the unidirectional drive type of mop body is rotated, thereby reaches the tensile force type spin mop of dehydration purpose by centrifugal force.

Background technology

Mop is a kind of use cleaning appliance quite widely, traditional mop mainly by a holding rod front end in conjunction with a holder, establish a plurality of cloths in this holder group, grip this holding rod during use and draw the application of force, drive cloth and make wiping action on the ground, to reach the purpose of cleaning, but because after the cleaning of the cloth of this conventional mop, must wring out by armrest, so not only quite effort and trouble inconvenience are gone up in operation, and hand needs directly to contact with the strip mop cloth and the sewage that contain a large amount of bacteriums, and is very undesirable.

For improving above-mentioned disappearance, there is the dealer to utilize the centrifugal principle development and Design to go out rotary dewater unit, establish dehydration basket in the inner bogie side frame of dehydration barrel, drive this dehydration basket by the mode of trampling and do rotation at a high speed, mop holder and the cloth put in dehydration basket are rotated thereupon, and then make the adsorbed water of cloth be able to get rid of with its centrifugal force that rotates at a high speed removing, reach the effect of dehydration.Yet, this kind foot-driven pattern, troublesome poeration effort not only, mechanism's complexity, fault rate height, and the volume of this dehydration barrel is big uses and all takes up room when collecting, thereby causes sizable inconvenience.Therefore recently there is the dealer further to design the novel patent of TaiWan, China that is called " self-rotating mop () " as the name of announcing M386045 number in addition, it is by linear drives mop rod drive holder and cloth rotation up and down, make holder and cloth can drive dehydration basket and follow rotation, and then make cloth because of centrifugal water dumping, this kind drives the water dumping mode, dehydration barrel is simple in structure, does not need the pedal driving mechanism is installed in addition, so gradually accepted by the user.

But, this known mop of pressing spin, its rotary body inside arranges a threaded hole that axially runs through, screw rod for coarse pitch wears, so this rotary body generally turns over the molded type that causes by screw rod, so not only mould molding is difficult for, the manufacturing cost height, and the threaded hole of rotary body contacts as face with screw rod when using, causing slip to have some setbacks and easily produce to interfere, the operational failure rate is still high, moreover its structure includes unilateral bearing, this unilateral bearing not only causes the package count quantitative change many, and unilateral bearing cost height is unfavorable for competitiveness of product, and the necessity that is improved is arranged.

The utility model content

The technical problems to be solved in the utility model provides a kind of tensile force type spin mop, to solve dehydrating operations trouble effort that mop of the prior art exists, complex structure, problem that fault rate is high.

In order to solve the problems referred to above of prior art, the utility model provides a kind of tensile force type spin mop, and it comprises:

One type of mop body is established the dish seat that cloth is used on wiping ground by mop rod lower end pivot joint one in order to group;

One handle is arranged at this mop rod top, and group is provided with a shell block between this handle and mop rod; And

One unidirectional drive device, be arranged in this shell block, comprise: a rope sheave, a stay cord, an elastic component, a clutch part and a moving part, wherein this rope sheave keeps flat setting, periphery is concaved with an annular groove provides this stay cord to reel, this stay cord one end connects this rope sheave, and the other end passes this shell block in conjunction with a pull handle; But this elastic component is arranged between this rope sheave and shell block so that automatic reverse revolution after the rope sheave rotation; But be arranged to this clutch part oscilaltion this rope sheave downside, and keep interlock with this rope sheave; This moving part is arranged at this clutch part downside and rotated by this clutch part unidirectional drive in ratchet interlock mode, and this moving part passes this shell block and the combination of this mop rod upper end is fixing.

In order to solve the problems referred to above of prior art, the utility model also provides another kind of tensile force type spin mop, and it comprises:

One type of mop body is established the dish seat that cloth is used on wiping ground by mop rod lower end pivot joint one in order to group;

One handle is arranged at this mop rod top, and group is provided with a shell block between this handle and mop rod; And

One unidirectional drive device, be arranged in this shell block, comprise: a stay cord and a clutch part, wherein this stay cord one end and clutch part interlock, the other end passes outside the shell block, this clutch part is in order to interlock and control this type of mop body one-directional rotation, drives the type of mop body rotation by clutch part when stay cord is pulled out, the interlock when stay cord is return between clutch part disengaging and type of mop body.

Compared with prior art, the utlity model has following beneficial effect:

1) by spurring the mode of stay cord, the unidirectional drive type of mop body produces the spin of steady and smooth, and is spurred stay cord back and forth and lasting the acceleration, and the cloth after type of mop body is cleaned is dried fast by the centrifugal force mode, make dehydrating operations easy, and overall structure is simple, fault rate is low;

2) tensile force type spin mop of the present utility model need not use the high unilateral bearing of unit price, and can reduce manufacturing cost.

Description of drawings

Fig. 1 is the stereoscopic figure of tensile force type spin mop of the present utility model;

Fig. 2 is the sectional perspective exploded view of tensile force type spin mop of the present utility model;

Fig. 3 is another sectional perspective exploded view of tensile force type spin mop of the present utility model;

Fig. 4 is the part sectioned view of tensile force type spin mop of the present utility model;

The use view that Fig. 5 dewaters in conjunction with dehydration barrel for tensile force type spin mop of the present utility model;

Stereoscopic motion schematic diagram when Fig. 6 dewaters for tensile force type spin mop of the present utility model;

Fig. 7 pulls out the section action schematic diagram of stay cord when dewatering for tensile force type spin mop of the present utility model;

The section action schematic diagram that stay cord was oppositely return when Fig. 8 dewatered for tensile force type spin mop of the present utility model.

Main description of reference numerals:

1 type of mop body

11 mop rods

12 dish seats

13 cloths

2 handles

3 shell blocks

31 upper shell covers

311 rope holes

32 lower covers

321 positioning seats

3211 perforation

3212 clamping slots

322 sleeve pipes

33 accommodation chambers

4 unidirectional drive devices

41 rope sheaves

411 annular grooves

42 stay cords

421 pull handles

412 circular grooves

413 first linkage part

43 elastic components

44 clutch parts

441 second linkage part

442 first ratchet faces

45 moving parts

451 fastening parts

4,511 second ratchet faces

5 dehydration barrels

51 columns

52 bearings

The specific embodiment

Below in conjunction with accompanying drawing specific embodiment of the utility model is elaborated.

As shown in Figure 1, Figure 2, Figure 3 and Figure 4, tensile force type spin mop of the present utility model comprises: one dragging body 1, a handle 2, a shell block 3 and a unidirectional drive device 4, wherein:

This type of mop body 1 is established dish seat 12 that wiping ground use cloth 13 can swing form pivot joint one in order to group by a mop rod 11 lower ends.

This handle 2 is mounted on mop rod 11 tops of type of mop body 1 by this shell block 3 and this unidirectional drive device 4.

This shell block 3 is by a upper shell cover 31 and 32 involutory compositions an of lower cover, the inner accommodation chamber 33 that forms, this upper shell cover 31 is one-body molded or be mounted on this handle 2 lower ends, these upper shell cover 31 1 sides are provided with a rope hole 311, these lower cover 32 centre are provided with a positioning seat 321 that up extends, these positioning seat 321 inside are provided with the perforation 3211 of always wearing cap 32, these 3211 upper end hole walls of boring a hole are provided with an annular clamping slot 3212, and these lower cover 32 bottom surfaces are provided with a sleeve pipe 322 that down extends in perforation 3211 peripheries in addition.

This unidirectional drive device 4 is arranged in the accommodation chamber 33 of this shell block 3, comprise: a rope sheave 41, one stay cord 42, one elastic component 43, one clutch part 44 and a moving part 45, wherein this rope sheave 41 keeps flat setting, periphery is concaved with an annular groove 411 provides this stay cord 42 to reel, these stay cord 42 1 ends connect this rope sheave 41, the other end passes the rope hole 311 of these shell block 3 upper shell covers 31 in conjunction with a pull handle 421, these rope sheave 41 bottom surface central authorities are provided with a circular groove 412 in addition, the groove face of this circular groove 412 is provided with one first linkage part 413, this elastic component 43 can be spiral spring or torque spring, it is installed in 31 of the upper shell covers of this rope sheave 41 and this shell block 3, and these elastic component 43 1 ends are fixed in this rope sheave 41, the other end then is fixed in this upper shell cover 31, but automatic reverse turns round after making these rope sheave 41 rotations, but be arranged in the circular groove 412 of this rope sheave 41 to these clutch part 44 oscilaltions, end face has one second linkage part 441, with no matter clutch part 44 is positioned at and rises or down position all keeps engaging interlock with first linkage part 413 of this circular groove 412 this second linkage part 441, these clutch part 44 bottom surfaces are provided with one first ratchet face 442 in addition, this moving part 45 is cylindric, the upper end is provided with one and enlarges footpath fastening part 451, these fastening part 451 end faces are provided with one second ratchet face 4511, this moving part 45 is arranged in the perforation 3211 of these shell block 3 lower covers 32 from top to bottom, and wear in conjunction with fixing with these mop rod 11 upper ends, make the fastening part 451 of this moving part 45 be sticked in location in the clamping slot 3212 of these shell block 3 lower covers 32, this moving part 45 just is positioned at clutch part 44 downsides, second ratchet face 4511 of this moving part 45 is relative with first ratchet face 442 of this clutch part 44, and these mop rod 11 upper ends are arranged in the sleeve pipe 322 of these shell block 3 lower covers 32, and be able to be kept when support by this sleeve pipe 322 makes type of mop body 1 rotation preferable stability.

When after the cloth 13 of this type of mop body 1 cleans, desiring to dewater, as Fig. 5, Fig. 6 and shown in Figure 7, the dish seat 12 of this mop main body 1 is placed in the dehydration barrel 5 together with cloth 13, these dehydration barrel 5 center of inside are provided with a column 51 that is up extended by the bottom surface, these column 51 tops are provided with a bearing 52, make this dish seat 12 bottom surfaces central authorities and these column 51 upper end fits, form the location of a movable rotation, the user grips this handle 2 on the other hand, another hand grips this pull handle 421 and pulls out the 41 generation rotations of stay cord 42 drive rope sheaves, make elastic component 43 furl or reverse, this moment, clutch part 44 descended because the weight of itself is past, first ratchet face 442 that makes clutch part 44 and second ratchet face 4511 of moving part 45 are because of forward rotational automatic engagement, and be able to drive moving part 45 and the rotation of type of mop body 1 synchronous high-speed by rope sheave 41 by clutch part 44, dry by the cloth 13 of centrifugal force with type of mop body 1.

In addition when pull handle 421 is oppositely return, as shown in Figure 8, elasticity recovery by elastic component 43 drive rope sheave 41 counter-rotatings with stay cord 42 rollback annular grooves 411 inner rings around, simultaneously by 44 counter-rotatings of rope sheave 41 interlock clutch parts, first ratchet face 442 by clutch part 44 breaks away from during with second ratchet face, 4511 counter-rotatings of moving part 45 automatically, clutch part 44 is up passed, moving part 45 and type of mop body 1 are not affected continue to rotate, whereby, the user can constantly back and forth be pulled out, return stay cord 42, drive this type of mop body 1 and keep unidirectional acceleration rotation, to improve the effect of dehydration, reach the purpose of quick drying type of mop body 1 cloth 13.

By the structure of above-mentioned specific embodiment, can obtain following benefit:

1. tensile force type of the present utility model spin mop, mode with pull handle 421 pulling stay cords 42, the spin that unidirectional drive type of mop body 1 produces steady and smooth, and spurred stay cord 42 back and forth and make type of mop body 1 continue to carry out unidirectional acceleration rotation, to improve dehydrating effect, the cloth 13 after type of mop body 1 is cleaned is dried fast by the centrifugal force mode, easy to reach dehydrating operations, and overall structure is simple, fault rate is low, and can meet economic benefit, promotes competitiveness of product.

2. tensile force type spin mop of the present utility model need not use the high unilateral bearing of unit price, and can reduce manufacturing cost.

Above embodiment is exemplary embodiment of the present utility model only, is not used in restriction the utility model, and protection domain of the present utility model is defined by the claims.Those skilled in the art can make various modifications or be equal to replacement the utility model in essence of the present utility model and protection domain, this modification or be equal to replacement and also should be considered as dropping in the protection domain of the present utility model.

Claims (10)

1. tensile force type spin mop is characterized in that it comprises:

One type of mop body is established the dish seat that cloth is used on wiping ground by mop rod lower end pivot joint one in order to group;

One handle is arranged at this mop rod top, and group is provided with a shell block between this handle and mop rod; And

One unidirectional drive device, be arranged in this shell block, comprise: a rope sheave, a stay cord, an elastic component, a clutch part and a moving part, wherein this rope sheave keeps flat setting, periphery is concaved with an annular groove provides this stay cord to reel, this stay cord one end connects this rope sheave, and the other end passes this shell block in conjunction with a pull handle; But this elastic component is arranged between this rope sheave and shell block so that automatic reverse revolution after the rope sheave rotation; But be arranged to this clutch part oscilaltion this rope sheave downside, and keep interlock with this rope sheave; This moving part is arranged at this clutch part downside and rotated by this clutch part unidirectional drive in ratchet interlock mode, and this moving part passes this shell block and the combination of this mop rod upper end is fixing.

2. tensile force type as claimed in claim 1 spin mop is characterized in that, this shell block is by a upper shell cover and a lower cover is involutory forms, and this upper shell cover is one-body molded or be mounted on this handle lower end, and this lower cover centre is provided with a perforation.

3. tensile force type spin mop as claimed in claim 2 is characterized in that upper shell cover one side of this shell block is provided with a rope hole that supplies stay cord to wear, and the lower cover bottom surface of this shell block is provided with a sleeve pipe that down extends in this perforation periphery.

4. tensile force type as claimed in claim 1 spin mop, it is characterized in that, the rope sheave bottom surface central authorities of this unidirectional drive device are provided with a circular groove, the groove face of this circular groove is provided with one first linkage part, but be arranged in the circular groove of this rope sheave to this clutch part oscilaltion, this clutch part end face has one second linkage part to engage interlock with first linkage part of this circular groove.

5. tensile force type as claimed in claim 2 spin mop, it is characterized in that, the elastic component of this unidirectional drive device is spiral spring or torque spring, this elastic component one end is fixed in this rope sheave, the other end is fixed in this upper shell cover, the clutch part bottom surface of this unidirectional drive device is provided with one first ratchet face, and the moving part of this unidirectional drive device is cylindric, and this moving part end face is provided with second ratchet face that can be engaged and linked with this clutch part first ratchet face.

6. tensile force type spin mop is characterized in that it comprises:

One type of mop body is established the dish seat that cloth is used on wiping ground by mop rod lower end pivot joint one in order to group;

One handle is arranged at this mop rod top, and group is provided with a shell block between this handle and mop rod; And

One unidirectional drive device, be arranged in this shell block, comprise: a stay cord and a clutch part, wherein this stay cord one end and clutch part interlock, the other end passes outside the shell block, and this clutch part is in order to interlock and control this type of mop body one-directional rotation, drives the type of mop body rotation by clutch part when stay cord is pulled out, interlock when stay cord is return between clutch part disengaging and type of mop body makes type of mop body be continued to be rotated.

7. tensile force type as claimed in claim 6 spin mop is characterized in that, this shell block is by a upper shell cover and a lower cover is involutory forms, and this upper shell cover is one-body molded or be mounted on this handle lower end, and this lower cover centre is provided with a perforation.

8. tensile force type spin mop as claimed in claim 7 is characterized in that upper shell cover one side of this shell block is provided with a rope hole that supplies stay cord to wear, and the lower cover bottom surface of this shell block is provided with a sleeve pipe that down extends in this perforation periphery.

9. tensile force type as claimed in claim 7 spin mop, it is characterized in that, this unidirectional drive device also includes a rope sheave, an elastic component and a moving part, wherein this rope sheave keeps flat setting, periphery is concaved with an annular groove provides this stay cord to reel, this stay cord one end connects this rope sheave, and the other end passes this shell block in conjunction with a pull handle; But this elastic component is arranged between this rope sheave and shell block so that automatic reverse revolution after the rope sheave rotation; But be arranged to this clutch part oscilaltion this rope sheave downside, and keep interlock with this rope sheave; This moving part is arranged at this clutch part downside and rotated by this clutch part unidirectional drive in ratchet interlock mode, and this moving part passes the lower cover of this shell block and this mop rod upper end in conjunction with fixing.

10. tensile force type as claimed in claim 9 spin mop, it is characterized in that, the rope sheave bottom surface central authorities of this unidirectional drive device are provided with a circular groove, the groove face of this circular groove is provided with one first linkage part, but be arranged in the circular groove of this rope sheave to the clutch part oscilaltion of this unidirectional drive device, this clutch part end face has one second linkage part to engage interlock with first linkage part of this circular groove, this clutch part bottom surface is provided with one first ratchet face, being of the moving part of this unidirectional drive device is cylindric, this moving part end face is provided with second ratchet face that can be engaged and linked with this clutch part first ratchet face, the elastic component of this unidirectional drive device is spiral spring or torque spring, this elastic component one end is fixed in this rope sheave, and the other end is fixed in this upper shell cover.

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