CN206414228U - Support rotating is from dehydration mop - Google Patents
Support rotating is from dehydration mop Download PDFInfo
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- CN206414228U CN206414228U CN201621027250.5U CN201621027250U CN206414228U CN 206414228 U CN206414228 U CN 206414228U CN 201621027250 U CN201621027250 U CN 201621027250U CN 206414228 U CN206414228 U CN 206414228U
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- dehydration
- tube
- circle
- dash cylinder
- cylinder
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Abstract
The utility model belongs to mop technical field, more particularly to a kind of support rotating is from dehydration mop.It solves prior art and designs the technical problem such as not reasonable.This support rotating includes upper pipe from dehydration mop and lower end is fixed with the down tube of mophead, down tube can be driven when upper pipe is relative to down tube axially reciprocating relative to the rotary drive mechanism that upper pipe rotates in a circumferential direction by being provided between upper pipe and down tube, the rotary support mechanism for being provided with annular space, annular space and being located in the middle part of annular space and/or bottom and being supported when dehydration tube rotates relative to dash cylinder to dehydration tube is formed between dash cylinder and dehydration tube.Advantage is:Design is more reasonable, will be supported by rotary support mechanism between dash cylinder and dehydration tube, when dehydration tube is rotated relative to dash cylinder, it is to avoid dehydration tube lower end collides with dash cylinder, increases Consumer's Experience, while effectively increasing the service life.
Description
Technical field
The utility model belongs to mop technical field, more particularly to a kind of support rotating is from dehydration mop.
Background technology
Mop is one of the most frequently used burnisher in life, and mophead is mopping floor with after dirty, and conventional mode passes through people
Work is cleaned or is cleaned and dried using in the backet with dehydrating function, and the former can make in operation
User is directly contacted with sewage, extremely unhygienic, supporting purchase backet when the latter needs to use, and is operated during use
It is cumbersome, and add the financial burden of consumer.In order to solve the problem of prior art is present, people have carried out long-term spy
Rope, it is proposed that miscellaneous solution.
For example, Chinese patent literature disclose one kind can rotating type mop capable of being spun-dried to remove water [application number:
201320446415.2], including upper pipe, down tube, rotary drive mechanism, top tube and down tube are movably connected in by rotary drive mechanism
Together, it axially both can up and down relatively move, can relatively rotate again between top tube and down tube;Mophead mechanism is fixed with down tube to be connected
Connect;It is characterized in that:Also include dewatering device, dewatering device is sleeved on outside down tube, and can be moved up and down along down tube;Described is de-
Water dispenser structure includes lock tube, water retaining cover and water cover;Water cover is sleeved on outside down tube, and lock tube is sleeved on outside water cover, in water cover
Be provided with locking mechanism on lock tube, locking mechanism coordinates with down tube;Water retaining cover is sleeved on outside water cover.The utility model is not required to
Supporting backet is wanted, can be cleaned and be dried in common bucket or to mophead in tank, it is easy to use, not only save
About substantial amounts of human resources and physical resources, also significantly reduce the financial burden of consumer.
Above-mentioned scheme improves the subproblem of prior art to a certain extent, still, and the program is also at least present
Following defect:Design is unreasonable, in dehydration, due to centrifugal action, the outside side oscillation in water cover lower end, with water retaining cover inner side
Collide and produce noise, influence consumer uses, meanwhile, long-term dewatering device is easily damaged in the past, and reduction uses the longevity
Life.
Utility model content
The purpose of this utility model is that providing support for dehydration tube makes in view of the above-mentioned problems, providing one kind designs more reasonable
The support rotating of the smooth rotation of dehydration tube is from dehydration mop.
To reach above-mentioned purpose, the utility model employs following technical proposal:This support rotating is from dehydration mop bag
Include pipe and lower end is fixed with the down tube of mophead, be provided between upper pipe and down tube when upper pipe is transported relative to down tube axial reciprocating
Down tube can be driven when dynamic relative to the rotary drive mechanism that upper pipe rotates in a circumferential direction, being arranged with described down tube can be relative to down tube
The dash cylinder for moving axially and circumferentially rotating, is provided with dash cylinder and axially position and circumferentially rotates the dehydration being connected with dash cylinder
Cylinder, forms annular space between described dash cylinder and dehydration tube, described dash cylinder and dehydration tube lower end it is open respectively and
Dehydration tube is provided with water flowing out structure, it is characterised in that is provided with and is located in the middle part of annular space and/or bottom in described annular space
And the rotary support mechanism that dehydration tube can be supported when dehydration tube rotates relative to dash cylinder.
In above-mentioned support rotating from dehydration mop, described rotary support mechanism includes being arranged on dash cylinder and de-
At least one bearing between water drum.
In above-mentioned support rotating from dehydration mop, described bearing is rolling bearing and is arranged on dash cylinder inwall
Dehydration drum outer wall between or be arranged on dash cylinder lower end and dehydration tube lower end between.
In above-mentioned support rotating from dehydration mop, described bearing include inner ring, outer ring and be arranged on inner ring with
Some rolling elements between outer ring, the inner ring body that described inner ring is the barrel of dehydration tube or is fixed on dehydration tube is described
The outer ring body that outer ring is the barrel of dash cylinder or is fixed on dash cylinder, described rolling element be set directly at inner ring and outer ring it
Between or be arranged between inner ring and outer ring by retainer.
In above-mentioned support rotating from dehydration mop, described bearing includes upper circle body, lower circle body and is arranged on
Circle body and lower circle body axially position can be made by being provided with some rolling elements between circle body and lower circle body, described annular space
Location structure, described rolling element is set directly at upper circle body and lower circle body or is arranged on upper circle body and lower circle by retainer
Between body.
In above-mentioned support rotating from dehydration mop, described location structure is included located at dash cylinder inwall and lower end
The upper positioning body leant with upper circle body and the lower positioning body leant located at dehydration drum outer wall and upper end with lower circle body.
In above-mentioned support rotating from dehydration mop, described bearing include Shang Quan, lower circle and be arranged on circle with
Some rolling elements between lower circle, the upper circle body that described upper circle is the lower surface of dehydration tube or is fixed on dehydration tube lower end, institute
The lower circle stated is the lower circle body for being arranged on dash cylinder lower end, and described rolling element is set directly between Shang Quan and lower circle or logical
Retainer is crossed to be arranged between Shang Quan and lower circle;
Or, some rolling elements that described bearing includes Shang Quan, lower circle and is arranged between Shang Quan and lower circle are described
Upper circle is the lower surface of dash cylinder or is fixed on the upper circle body of dash cylinder lower end, and described lower circle is to be arranged on dehydration tube lower end
Lower circle body, described rolling element is set directly between Shang Quan and lower circle or is arranged on Shang Quan and lower circle by retainer
Between.
In above-mentioned support rotating from dehydration mop, described rotary support mechanism was provided with water-bound.
In above-mentioned support rotating from dehydration mop, described dehydration tube upper end has the interior receipts for being placed on down tube periphery
Draw set, described dash cylinder upper end has an outer contraction pipe sleeve for being placed on and inside contracting pipe sleeve periphery, described contract pipe sleeve and outer
Shrink pipe sleeve axially position and circumferentially rotate connection, shrink axially fixed provided with least one between pipe sleeve and outer contraction pipe sleeve inside
Position bearing.
Both axial locks can be made by being provided with above-mentioned support rotating from dehydration mop, between described upper pipe and down tube
Fixed lockable mechanism, between described dash cylinder upper end and lockable mechanism provided with can make dash cylinder be axially positioned on lockable mechanism or
It is axially disengaging the Detachable connection structure in lockable mechanism.
Compared with prior art, this support rotating is from the advantage of dehydration mop:Design is more reasonable, passes through rotation
Supporting mechanism will be supported between dash cylinder and dehydration tube, when dehydration tube is rotated relative to dash cylinder, it is to avoid under dehydration tube
End collides with dash cylinder, increases Consumer's Experience, while effectively increasing the service life.
Brief description of the drawings
Fig. 1 is the dimensional structure diagram that the utility model is provided.
Fig. 2 is the structure sectional view that the utility model is provided.
Fig. 3 is the enlarged drawing in A portions in Fig. 2.
Fig. 4 is the structural representation of embodiment 2.
Fig. 5 is the structural representation of embodiment 3.
In figure, upper pipe 1, down tube 2, mophead 3, rotary drive mechanism 4, dash cylinder 5, water flowing out structure 6, dehydration tube 7, annular
Space 8, rotary support mechanism 9, bearing 10, rolling element 11, inner ring body 12, outer ring body 13, upper circle body 14, lower circle body 15, positioning
Structure 16, upper positioning body 17, lower positioning body 18, contract pipe sleeve 19, outer contraction pipe sleeve 20, lockable mechanism 21.
Embodiment
The present invention will be further described in detail with reference to the accompanying drawings and detailed description.
Embodiment 1
As Figure 1-3, this support rotating includes upper pipe 1 from dehydration mop and lower end is fixed with the down tube of mophead 3
2, down tube 2 can be driven when upper pipe 1 is relative to 2 axially reciprocating of down tube relative to upper pipe by being provided between upper pipe 1 and down tube 2
The dash cylinder that can be moved axially and circumferentially rotate relative to down tube 2 is arranged with 1 rotary drive mechanism 4 rotated in a circumferential direction, down tube 2
5, be provided with dash cylinder 5 and 5 axially positions and circumferentially rotate the dehydration tube 7 being connected with dash cylinder, dash cylinder 5 and dehydration tube 7 it
Between form annular space 8, dash cylinder 5 and the lower end of dehydration tube 7 are open respectively and water flowing out structure 6, its feature are provided with dehydration tube 7
It is, is provided with annular space 8 and is located at the middle part of annular space 8 and/or bottom and when dehydration tube 7 rotates relative to dash cylinder 5
The rotary support mechanism 9 that dehydration tube 7 can be supported.The rotation driving when upper pipe 1 is equivalent to 2 axially reciprocating of down tube
The driving of mechanism 4 down tube 2 rotates in a circumferential direction, so that drive dehydration tube to rotate, so that by the drying dehydration of mophead 3, dash cylinder 5 and dehydration
Annular space 8 is formed between cylinder 7, rotary support mechanism 9 is set in annular space 8 to balance when dehydration tube 5 is rotated
When the centrifugal force that produces, the rotary support mechanism 9 includes at least one bearing 10 being arranged between dash cylinder 5 and dehydration tube 7.
Dehydration tube is supported by bearing 10 so that dehydration tube rotation process becomes stable, increases the service life, while avoiding taking off
Water drum 7 collides with dash cylinder, increases Consumer's Experience.
Specifically, bearing 10 is rolling bearing and is arranged between dash 5 inwalls of cylinder and the outer wall of dehydration tube 7 or is arranged on gear
Between the lower end of water drum 5 and the lower end of dehydration tube 7.The bearing 10 includes inner ring, outer ring and is arranged on some between inner ring and outer ring
Rolling element 11, inner ring for dehydration tube 7 barrel or the inner ring body 12 that is fixed on dehydration tube 7, outer ring be dash cylinder 5 barrel or
The outer ring body 13 on dash cylinder 5 is fixed on, rolling element 11 is set directly between inner ring and outer ring or set by retainer
Between inner ring and outer ring.
In addition, rotary support mechanism (9) was provided with water-bound, the moisture thrown away from dehydration tube 7 passed through water dispenser structure stream
To outside.Dehydration tube (7) upper end has the contract pipe sleeve (19) for being placed on down tube (2) periphery, and dash cylinder (5) upper end, which has, to be placed on
The outer contraction pipe sleeve (20) of contract pipe sleeve (19) periphery, contract pipe sleeve (19) and outer contraction pipe sleeve (20) axially position and week
To connection is rotated, shrink be provided with least one axially position bearing between pipe sleeve (19) and outer contraction pipe sleeve (20) inside.Upper pipe
(1) lockable mechanism (21) of both axial locks can be made by being provided between down tube (2), dash cylinder (5) upper end and lockable mechanism
(21) being provided between can make dash cylinder (5) be axially positioned on lockable mechanism (21) or be axially disengaging in the removable of lockable mechanism (21)
Unload attachment structure.When needing dehydration, opening lockable mechanism 21 makes pipe (1) to be moved axially with down tube (2), so as to pass through
The formula dehydration tube of rotary drive mechanism 4 is rotated and is dehydrated.Lockable mechanism 21 is closed after the completion of dehydration makes pipe (1) and down tube (2)
It is axial and circumferentially fixed, it is easy to use.
In the present embodiment, it will be supported by rotary support mechanism 9 between dash cylinder 5 and dehydration tube 7, work as dehydration tube
7 relative to dash cylinder 5 when rotating, it is to avoid the lower end of dehydration tube 7 and dash cylinder 5 collides, increase Consumer's Experience, while effectively prolonging
Length uses the longevity.Inner ring and outer ring can be installed in dehydration tube 7 with dash cylinder 5, or be directly integrally formed in dehydration tube 7 and
On dash cylinder 5, it is easy to assembling, while production procedure can be reduced, improves production efficiency.
Embodiment 2
The structure and operation principle of the present embodiment are substantially the same manner as Example 1, and difference is, as shown in figure 4, bearing
10 include upper circle body 14, lower circle body 15 and some rolling elements 11 being arranged between circle body 14 and lower circle body 15, annular space 8
It is interior provided with can make the location structure 16 of circle body 14 and the lower axially position of circle body 15, rolling element 11 be set directly at upper circle body 14 with
Lower circle body 15 is arranged between upper circle body 14 and lower circle body 15 by retainer.The location structure 16 is included located at dash cylinder
Upper positioning body 17 that 5 inwalls and lower end lean with upper circle body 14 and offseted located at the outer wall of dehydration tube 7 and upper end with lower circle body 15
The lower positioning body 18 leaned on.
In the present embodiment, bearing 10 is positioned by detent mechanism 16, detent mechanism 16 includes fixed or integral
The upper positioning bodies 17 of dash 5 inwalls of cylinder is molded over and fixed or be integrally formed the lower positioning body 18 on dehydration tube 7, by upper
The lower end of positioning body 17 leans with upper circle body 14, and the upper end of lower positioning body 18 leans with lower circle body 15, so as to bearing 10
Carry out axially position.
Embodiment 3
The structure and operation principle of the present embodiment are substantially the same manner as Example 1, and difference is, as shown in figure 5, bearing
10 include Shang Quan, lower circle and some rolling elements 11 being arranged between Shang Quan and lower circle, and upper circle is the lower surface or solid of dehydration tube 7
The upper circle body 14 of the lower end of dehydration tube 7 is scheduled on, lower circle is is arranged on the lower circle body 15 of 5 lower ends of dash cylinder, and rolling element 11 is directly set
It is arranged between Shang Quan and lower circle or by retainer between Shang Quan and lower circle;
Or, bearing 10 includes Shang Quan, lower circle and some rolling elements 11 being arranged between Shang Quan and lower circle, and upper circle is gear
The lower surface of water drum 5 or the upper circle body 14 for being fixed on 5 lower ends of dash cylinder, lower circle is the lower circle body 15 for being arranged on the lower end of dehydration tube 7,
Rolling element 11 is set directly between Shang Quan and lower circle or is arranged on by retainer between Shang Quan and lower circle.
Specific embodiment described herein is only to the utility model spirit explanation for example.The utility model institute
Category those skilled in the art can make various modifications or supplement or using similar to described specific embodiment
Mode substitute, but without departing from spirit of the present utility model or surmount scope defined in appended claims.
Although more having used upper pipe 1, down tube 2, mophead 3, rotary drive mechanism 4, dash cylinder 5, water outlet knot herein
Structure 6, dehydration tube 7, annular space 8, rotary support mechanism 9, bearing 10, rolling element 11, inner ring body 12, outer ring body 13, upper circle body
14th, lower circle body 15, location structure 16, upper positioning body 17, lower positioning body 18, contract pipe sleeve 19, outer contraction pipe sleeve 20, locking machine
The grade term of structure 21, but it is not precluded from the possibility using other terms.It is used for the purpose of more easily describing using these terms
With explanation essence of the present utility model;Being construed as any additional limitation is disagreed with the utility model spirit
The back of the body.
Claims (10)
1. a kind of support rotating is fixed with the down tube (2) of mophead (3) from dehydration mop, including upper pipe (1) and lower end, upper
Be provided between pipe (1) and down tube (2) can be driven when upper pipe (1) is relative to down tube (2) axially reciprocating down tube (2) relative to
Being arranged with the rotary drive mechanism (4) that upper pipe (1) rotates in a circumferential direction, described down tube (2) can move axially relative to down tube (2)
With the dash cylinder (5) circumferentially rotated, be connected with dash cylinder (5) axially position and circumferentially rotating de- is provided with dash cylinder (5)
Water drum (7), forms annular space (8), described dash cylinder (5) and dehydration tube between described dash cylinder (5) and dehydration tube (7)
(7) lower end is open respectively and water flowing out structure (6) is provided with dehydration tube (7), it is characterised in that in described annular space (8)
Provided with the middle part of the annular space (8) and/or bottom and can be to being dehydrated when dehydration tube (7) is relative to dash cylinder (5) rotation
The rotary support mechanism (9) that cylinder (7) is supported.
2. support rotating according to claim 1 is from dehydration mop, it is characterised in that described rotary support mechanism
(9) at least one bearing (10) being arranged between dash cylinder (5) and dehydration tube (7) is included.
3. support rotating according to claim 2 is from dehydration mop, it is characterised in that described bearing (10) is rolls
Bearing and it is arranged between dash cylinder (5) inwall and dehydration tube (7) outer wall or is arranged on dash cylinder (5) lower end and dehydration tube (7)
Between lower end.
4. support rotating according to claim 3 is from dehydration mop, it is characterised in that described bearing (10) includes interior
Circle, outer ring and some rolling elements (11) being arranged between inner ring and outer ring, described inner ring are the barrel or solid of dehydration tube (7)
The inner ring body (12) on dehydration tube (7) is scheduled on, described outer ring is the barrel of dash cylinder (5) or is fixed on dash cylinder (5)
Outer ring body (13), described rolling element (11) be set directly between inner ring and outer ring or by retainer be arranged on inner ring with
Between outer ring.
5. support rotating according to claim 3 is from dehydration mop, it is characterised in that described bearing (10) includes upper
Circle body (14), lower circle body (15) and some rolling elements (11) being arranged between circle body (14) and lower circle body (15), it is described
Circle body (14) and the location structure (16) of lower circle body (15) axially position, described rolling can be made by being provided with annular space (8)
Body (11) is set directly at upper circle body (14) and lower circle body (15) or is arranged on upper circle body (14) and lower circle body by retainer
(15) between.
6. support rotating according to claim 5 is from dehydration mop, it is characterised in that described location structure (16) bag
Include the upper positioning body (17) that is leant located at dash cylinder (5) inwall and lower end and upper circle body (14) and located at dehydration tube (7) outer wall
And the lower positioning body (18) that upper end leans with lower circle body (15).
7. support rotating according to claim 3 is from dehydration mop, it is characterised in that described bearing (10) includes upper
Circle, lower circle and some rolling elements (11) for being arranged between Shang Quan and lower circle, described upper circle for dehydration tube (7) lower surface or
The upper circle body (14) of dehydration tube (7) lower end is fixed on, described lower circle is the lower circle body (15) for being arranged on dash cylinder (5) lower end,
Described rolling element (11) is set directly between Shang Quan and lower circle or is arranged on by retainer between Shang Quan and lower circle;
Or, some rolling elements (11) that described bearing (10) includes Shang Quan, lower circle and is arranged between Shang Quan and lower circle, institute
The upper circle stated is the lower surface of dash cylinder (5) or is fixed on the upper circle body (14) of dash cylinder (5) lower end, and described lower circle is setting
Lower circle body (15) in dehydration tube (7) lower end, described rolling element (11) is set directly between Shang Quan and lower circle or passed through
Retainer is arranged between Shang Quan and lower circle.
8. support rotating according to any one in claim 1-7 is from dehydration mop, it is characterised in that described rotation
Turn supporting mechanism (9) and be provided with water-bound.
9. support rotating according to any one in claim 1-7 is from dehydration mop, it is characterised in that described is de-
Water drum (7) upper end has the contract pipe sleeve (19) for being placed on down tube (2) periphery, and described dash cylinder (5) upper end is with being placed on
Shrink the outer contraction pipe sleeve (20) of pipe sleeve (19) periphery, described contract pipe sleeve (19) and outer contraction pipe sleeve (20) axially position
And connection is circumferentially rotated, shrink be provided with least one axially position bearing between pipe sleeve (19) and outer contraction pipe sleeve (20) inside.
10. support rotating according to any one in claim 1-7 is from dehydration mop, it is characterised in that described
Provided with can make the lockable mechanism (21) of both axial locks between upper pipe (1) and down tube (2), described dash cylinder (5) upper end with
Being provided between lockable mechanism (21) can make dash cylinder (5) be axially positioned on lockable mechanism (21) or be axially disengaging in lockable mechanism
(21) Detachable connection structure.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201621027250.5U CN206414228U (en) | 2016-08-31 | 2016-08-31 | Support rotating is from dehydration mop |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201621027250.5U CN206414228U (en) | 2016-08-31 | 2016-08-31 | Support rotating is from dehydration mop |
Publications (1)
Publication Number | Publication Date |
---|---|
CN206414228U true CN206414228U (en) | 2017-08-18 |
Family
ID=59577372
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201621027250.5U Active CN206414228U (en) | 2016-08-31 | 2016-08-31 | Support rotating is from dehydration mop |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN206414228U (en) |
-
2016
- 2016-08-31 CN CN201621027250.5U patent/CN206414228U/en active Active
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