CN206491771U - Socket type collodion mop - Google Patents
Socket type collodion mop Download PDFInfo
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- CN206491771U CN206491771U CN201621290113.0U CN201621290113U CN206491771U CN 206491771 U CN206491771 U CN 206491771U CN 201621290113 U CN201621290113 U CN 201621290113U CN 206491771 U CN206491771 U CN 206491771U
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- sleeve
- water squeezing
- rod
- travelling gear
- movable part
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Abstract
The utility model discloses a kind of socket type collodion mop, including mop rod, cotton head, water squeezing frame, movable part moving up and down and sleeve located at mop rod bottom;The water squeezing frame includes the water squeezing body of rod and water squeezing support body, and the sleeve is movably set in dewatering rod in vitro, when the sleeve is acted up or down, the movable part can be driven to move up.The utility model can drive movable part to move by moving up and down sleeve, and then drive mophead action to be engaged carry out water squeezing with water squeezing frame, and flushing operation is easy;The volume of mop is reduced simultaneously, more saves packaging material, is transported also more convenient.
Description
Technical field
Utility model belongs to burnisher technical field, more particularly, to a kind of socket type collodion mop.
Background technology
Collodion mop is the conventional cleaning thing of Modern Family, because its cleaning capacity is strong, easy to use, cleans and wrings out just
Prompt the advantages of and be extensively popular.Chinese patent CN1057451004A is disclosed《A kind of novel collodion mop》, including cotton head, squeeze
Water frame, pull bar and spanner, pull bar one end connection cotton head, the other end connection spanner, by spanner move down drive pull bar move up with
So that moving up into water squeezing frame on cotton head realizes water squeezing.But, due to the setting of spanner so that the overall volume of mop is larger, bag
Consumptive material during dress is larger, and space hold during transport is also larger.
Utility model content
There is provided the wide socket type glue of a kind of small volume, cleaning scope in order to overcome the deficiencies in the prior art for the utility model
Cotton mop.
To achieve these goals, the utility model uses following technical scheme:A kind of socket type collodion mop, including drag
Barre, cotton head, water squeezing frame, movable part moving up and down and sleeve located at mop rod bottom;The water squeezing frame includes water squeezing
The body of rod and water squeezing support body, the sleeve are movably set in dewatering rod in vitro, when the sleeve is acted up or down, can drive described
Movable part is moved up.Sleeve is provided with the utility model, movable part can be driven to move by moving up and down for sleeve, and then
So that mophead action coordinates with water squeezing frame carries out water squeezing, flushing operation is easy;Handle in conventional mop is replaced by sleeve,
Sleeve is directly set in outside water squeezing frame, and then, the overall volume of mop can reduce, and effectively reduce the consumption of packaging material, more
Energy-conserving and environment-protective;And space hold during transport is smaller, convenient in carrying;Secondly as the reduction of volume so that mop can be stretched to
Bed bottom, cleared up in narrow and small, short region under sofa etc., wider using scope, cleaning is more thorough.
Further, at least one travelling gear is provided between the sleeve and movable part, the movable part is provided with
The driving cog coordinated with travelling gear, the sleeve is provided with the sliding tooth coordinated with travelling gear;There is provided travelling gear, set
After cylinder action the travelling gear can be driven to rotate, then via travelling gear driving movable part movement, and then needed in water squeezing
Active force it is smaller, rapid operation;And under this kind of structure, movable part in the vertical direction movement, its for cotton head active force
Also in the vertical direction, the then friction between cotton head and water squeezing frame is effectively reduced, and cotton head is not easy to damage, and service life is long, and two
Water squeezing resistance between person is also reduced, so that flushing operation is more laborsaving;Secondly, gear can be during sleeve be acted
Persistently rotate, transmission effect is good;And can be realized between gear and sliding tooth and driving cog it is good engage, transmission process
In be not easily disconnected from, transmission effect is good, and performance is stable.
Or it is further, the travelling gear rotatably in dewatering rod body, corresponds to driving cog on the water squeezing body of rod
Take turns position and be provided with opening;Travelling gear is embedded in dewatering rod body, further reduces the volume of mop;The setting of opening so that
Travelling gear can partly be passed to dewatering rod external surface, and then is meshed with the sliding tooth in sleeve;Water squeezing frame is plastics system
Into convenient opening, manufacture is easy.
It is preferred that, be provided with the first spline structure between the sleeve and the water squeezing body of rod, the movable part and the water squeezing body of rod it
Between be provided with the second spline structure;First spline structure effectively limits the position between sleeve and the water squeezing body of rod, prevents sleeve relative
The water squeezing body of rod rotates, it is ensured that the sliding tooth in sleeve is in contact with travelling gear all the time;Second spline structure is effectively limited
Position between movable part and the water squeezing body of rod, prevents movable part from rotating or rocking with respect to the water squeezing body of rod, it is ensured that movable part
On driving cog all the time with travelling gear good engagement.
The utility model additionally provides a kind of socket type collodion mop, including mop rod, cotton head, located at mop rod bottom
Water squeezing frame, movable part moving up and down and sleeve;The sleeve is movably set in outside mop rod, and the sleeve is moved up or down
When making, the movable part can be driven to move up.Sleeve is provided with the utility model, can be driven by moving up and down for sleeve
Movable part is moved, and then causes mophead action coordinates with water squeezing frame to carry out water squeezing, and flushing operation is easy;By sleeve replace with
Toward the handle in mop, sleeve is directly set in mop rod, and then, the overall volume of mop can reduce, and effectively reduce packing timber
The consumption of material, more energy-conserving and environment-protective;And space hold during transport is smaller, convenient in carrying;Secondly as the reduction of volume, makes
Mop can stretch to a bottom, be cleared up in narrow and small, short region under sofa etc., it is wider using scope, clean more
Thoroughly.
Further, at least one travelling gear is provided between the sleeve and movable part, the movable part is provided with
The driving cog coordinated with travelling gear, the sleeve is provided with the sliding tooth coordinated with travelling gear;There is provided travelling gear, set
After cylinder action the travelling gear can be driven to rotate, then via travelling gear driving movable part movement, and then needed in water squeezing
Active force it is smaller, rapid operation;And under this kind of structure, movable part in the vertical direction movement, its for cotton head active force
Also in the vertical direction, the then friction between cotton head and water squeezing frame is effectively reduced, and cotton head is not easy to damage, and service life is long, and two
Water squeezing resistance between person is also reduced, so that flushing operation is more laborsaving;Secondly, gear can be during sleeve be acted
Persistently rotate, transmission effect is good;And can be realized between gear and sliding tooth and driving cog it is good engage, transmission process
In be not easily disconnected from, transmission effect is good, and performance is stable.
Or it is further, the travelling gear rotatably corresponds to travelling gear position in mop rod, on mop rod
Opening is installed;Travelling gear is embedded in mop rod, further reduces the volume of mop;The setting of opening so that driving cog
Wheel can be passed partly to mop rod outer surface, and then is meshed with the sliding tooth in sleeve, be always ensured that sliding tooth, travelling gear
And the good transmission between driving member, performance stabilization.
It is preferred that, the 3rd spline structure is provided between the sleeve and mop rod, is set between the movable part and mop rod
There is the 4th spline structure;3rd spline structure effectively limits the position between sleeve and mop rod, prevents sleeve with respect to mop rod
Rotate, it is ensured that the sliding tooth in sleeve is in contact with travelling gear all the time;4th spline structure effectively limit movable part with
Position between mop rod, prevents movable part from being shaken with respect to mop rod, it is ensured that driving cog on movable part all the time with transmission
Gear good engagement.
Preferably, the travelling gear is two, two travelling gears coordinate with the sliding tooth respectively;Two gears are
Rotate in same direction, when sleeve is moved down, two gears can be rotated counterclockwise together, driving movable part is moved up;Two travelling gears with drive
Dynamic tooth coordinates, and then sliding tooth has two strong points in transmission, and more stable, transmission effect is more preferable.
Or preferably, the travelling gear is two, wherein a travelling gear is engaged with sliding tooth, another travelling gear
It is engaged with driving cog;Two travelling gear intermeshings, when moving up sleeve, first travelling gear is rotated clockwise, band
Move second travelling gear to rotate counterclockwise, and then movable part can be driven to move up;Move up the operation of sleeve so that
More smoothly, comfort level during operation is higher, more light for flushing operation.
In summary, the utility model has advantages below:It is simple in construction, movable part can be driven to move by moving sleeve
It is dynamic, and then drive mophead action to be engaged carry out water squeezing with water squeezing frame, flushing operation is easy;The volume of mop is subtracted simultaneously
It is small, packaging material is more saved, is transported also more convenient.
Brief description of the drawings
Fig. 1 is the first example structure schematic diagram of the present utility model.
Fig. 2 is the partial schematic diagram of the first embodiment of the utility model.
Fig. 3 is the structural representation of the movable part of the first embodiment.
Fig. 4 is the structural representation of second of embodiment of the utility model.
Fig. 5 is the partial schematic diagram of second of embodiment of the utility model.
Fig. 6 is the structural representation of the movable part of second of embodiment.
Embodiment
In order that those skilled in the art are better understood from the utility model scheme, it is real below in conjunction with the utility model
The accompanying drawing in example is applied, clear, complete description is carried out to the technical scheme in the utility model embodiment.
Embodiment 1
As Figure 1-3, a kind of socket type collodion mop, including mop rod 1, cotton first 2, the water squeezing located at mop rod bottom
Frame 3, movable part moving up and down 5, the sleeve 6 that can be moved up and down and at least one travelling gear 7;The water squeezing frame 3 is wrapped
Cylinder the water squeezing body of rod 31 set and the water squeezing support body 32 for being connected to the bottom of the water squeezing body of rod 31 on top are included, the water squeezing body of rod is hollow
Set, the sleeve 6 is movably set in outside the water squeezing body of rod 31;The travelling gear 7 is located between the movable part 5 and sleeve 6;Institute
State movable part lower end with cotton head to be connected, movable part is provided with driving cog 51, the driving cog 51 coordinates with drive;It is described
Length direction of the driving cog 51 along the movable part 5 is distributed on the movable part 5;The inner surface of sleeve 6 is provided with sliding tooth 61,
And length direction gap distribution of the sliding tooth 61 along the sleeve 6, the sliding tooth 61 and drive cooperation;The transmission
Device can drive the movable part 5 to move up when the sleeve 6 is moved up or down, and then drive cotton head action, realize
Water squeezing, the active force needed during water squeezing is smaller, rapid operation.
Further, the travelling gear 7 is set to one, and both sides are meshed with driving cog 51 and sliding tooth 61 respectively;
It is preferred that, the travelling gear 7 is set to two, and two travelling gears 7 are vertically set, and diameter is equal;Two travelling gears 7
Can distribution or horizontal direction or so distribution under in the vertical direction, two travelling gears 7 are engaged respectively at the sliding tooth;Two
The side of travelling gear 7 is meshed with sliding tooth, and opposite side is meshed with driving cog;And exist between two travelling gears 7 certain
Gap, not mutually transmission, and then both rotation directions are identical, simultaneously movable part can be driven to move is more stable;In other
In embodiment, the horizontality of two travelling gear 7 will can also be set, and two travelling gears 7 are intermeshed, and then two travelling gears
7 rotation direction is different;Wherein a travelling gear 7 is engaged with sliding tooth 61, and another travelling gear 7 matches with driving cog 51
Close;The travelling gear 7 is placed in the water squeezing body of rod 31, and the dewatering rod is rotatablely connected with by pin, bearing pin etc.
Body 31;Correspond to the position of travelling gear 7 on the water squeezing body of rod 31 and be provided with opening 311, during assembling, travelling gear 7 can partly penetrate this
311 in opening, the outer surface of the water squeezing body of rod 31 is passed by the opening 311, so as to be meshed with the sliding tooth of sleeve lining.
Further, as shown in figure 3, the movable part 5 includes an activity bar body 52 and positioned at the activity bar body 52
The clamp bar 53 of bottom, both are directly integrally formed setting, and manufacture is easy;Certainly, in other embodiment, both can also be set
For Split type structure;The top of activity bar body 52 is penetrated to the water squeezing body of rod 31, and then the transmission being arranged in the water squeezing body of rod 31
Gear 7 can be in contact with the activity bar body 52;The clamp bar 53 of the bottom of activity bar body 52 is then stretched out outside water squeezing frame, and then with dragging
Cotton first 2 be fixed together;The cotton first 2 includes collodion body and is upwardly extended to be formed by the collodion body to connect convex
Portion 21, during connection, the connection protuberance 21 is penetrated to clamp bar 53, and both are connected by a screw, when need change
During cotton head, screw is outwarded winding;The driving cog 51 is on the outer surface of activity bar body 52, and along the activity bar body
52 length direction distribution;As preferred, the driving cog 51 can be set from top to bottom as by dredging close set so that living
The driving cog 51 on the top of lever body 52 is sparse, in the front half section of flushing operation, when the water content of cotton first 2 is larger, motion bar
Body 52 to move up speed slower, and then water squeezing resistance is smaller, and water squeezing is more laborsaving;In other embodiment, it will can also be driven
It is from top to bottom to thin setting by close that tooth 51, which is set,.
It is preferred that, as shown in Fig. 2 in order to prevent sleeve from being rotated with respect to the water squeezing body of rod, we are in the sleeve 6 with squeezing
The first spline structure is provided between the water body of rod 31;First spline structure includes the chute being opened on the water squeezing body of rod 31
312 and the cylinder or screw 100 that are engaged with the chute 312, the cylinder or screw 100 are arranged on the sleeve, and the inner is stretched
Go out to sleeve interior surface and penetrate to the chute 312, when sleeve 6 is moved up and down, cylinder or screw all the time in chute,
It can effectively prevent sleeve 6 from being rotated with respect to the water squeezing body of rod 31;Meanwhile, when cylinder or screw move to the two ends of chute,
Sleeve 6 can also be limited no longer to move, and then the movement travel of sleeve 6 is limited, prevent sleeve 6 from promoting or pulling
Head;Further preferably, in order to prevent movable part from shaking, and then the transmission effect with travelling gear is influenceed, we are in the work
The second spline structure is provided between moving part 5 and the water squeezing body of rod 31;Second spline structure includes being located at the water squeezing body of rod 31
The open channel 313 of inner surface and the lug boss 54 on the movable part 5, the open channel 313 are set for strip, up and down
Two ends are setting of remaining silent;The width of the lug boss 54 be set to the width of open channel it is equal, when movable part 5 is in water squeezing
When being moved up and down in the body of rod 31, the lug boss 54 can be moved up and down in open channel 313 simultaneously, and be contradicted to open channel
On 313 bottom surfaces, effectively prevent there is gap between movable part 5 and the water squeezing body of rod 31, will not shake;Lug boss motion simultaneously
To open channel 313 end positions when, just can not be further continued for movement, and then i.e. controllable movable part is no longer moved, it is effectively anti-
Only movable part movement is excessive, and movable part lower end will not be also fallen into water squeezing space, ensures that the normal of mop is used.
Two annular protrusions above and below being set in other embodiment or on the outer surface of the water squeezing body of rod 31,
When sleeve 6 moves to the position offseted with annular protrusion, i.e., it can not move up or move down again;, can be in other embodiment
The upper end of activity bar body 52 is close to the baffle plate of travelling gear side, and the outer end of the baffle plate is placed in the top of travelling gear 7, works as movable part
When being displaced downwardly to baffle plate and contradicting to travelling gear 7, it just can not be further continued for moving down, the motion row of movable part is limited by the baffle plate
Journey;In other embodiment, also it can stretch out to form two flanges in the both sides of clamp bar 53, the distance between two flanges should be greater than
The size in water squeezing space, and then clamp bar will not drop out in water squeezing space.
The upper end of the water squeezing body of rod 31 is socketed with mop rod 1, it is preferred that the lower end of mop rod 1 is provided with a circular projection
12, the top of the water squeezing body of rod 31 is provided with a circular through hole 33, and when both are connected, the projection 12 can be caught in through hole 33, and two
Person's connection is more firm;Water squeezing support body 32 is in that inverted U-shaped structure is set, and water squeezing support body 32 is set to be hollow, and its underpart is set
Dewatering rod 4 is equipped with, the dewatering rod 4 is set to multiple, and the bottom position of water squeezing frame 3, and then two dewatering rods 4 are symmetrically arranged on two-by-two
Between form water squeezing space, cotton first 2 can move in the water squeezing space;In other embodiment, dewatering rod can be also not provided with,
A fixed plate is set on cotton first 2, the fixed plate includes central part and can be with respect to two turning part stirred above and below central part;The cotton
First 2 two ends are connected on the lower surface of two turning part, and the upper surface of two turning part is then hinged with the lower end of water squeezing frame 3,
The lower end of the driving member 5 is connected with central part, when pull bar is moved up, you can drive central part to move up, and turning part is with squeezing
Water frame 3, which is connected, to be moved up, then turning part can be folded, and cotton head is extruded, water squeezing is realized.
Embodiment 2
As Figure 4-Figure 6, a kind of socket type collodion mop, including mop rod 1, cotton first 2, the water squeezing located at mop rod bottom
Frame 3, movable part moving up and down 5, the sleeve 6 that can be moved up and down and at least one travelling gear 7, the activity of sleeve 6
It is sheathed on outside mop rod 1;The travelling gear 7 is located between the movable part 5 and sleeve 6;The movable part lower end and cotton head phase
Even, movable part is provided with driving cog 51, and the driving cog 51 coordinates with drive;The driving cog 51 is along the movable part
5 length direction is distributed on the movable part 5;The inner surface of sleeve 6 is provided with sliding tooth 61, and sliding tooth 61 is along the sleeve
6 length direction gap distribution, the sliding tooth 61 coordinates with drive;The transmission device can be upward in the sleeve 6
Or when moving down, drive the movable part 5 to move up, and then cotton head action is driven, water squeezing is realized, the work needed during water squeezing
It is firmly smaller, rapid operation.
Further, the travelling gear 7 is set to one, and both sides are meshed with driving cog 51 and sliding tooth 61 respectively;
It is preferred that, the travelling gear 7 is set to two, and two travelling gears 7 are vertically set, and diameter is equal;Two travelling gears 7
Can distribution or horizontal direction or so distribution under in the vertical direction, two travelling gears 7 are engaged respectively at the sliding tooth;Two
The side of travelling gear 7 is meshed with sliding tooth, and opposite side is meshed with driving cog;And exist between two travelling gears 7 certain
Gap, not mutually transmission, and then both rotation directions are identical, simultaneously movable part can be driven to move is more stable;In other
In embodiment, the horizontality of two travelling gear 7 will can also be set, and two travelling gears 7 are intermeshed, and then two travelling gears
7 rotation direction is different;Wherein a travelling gear 7 is engaged with sliding tooth 61, and another travelling gear 7 matches with driving cog 51
Close;The travelling gear 7 is placed in the mop rod 1, and the mop rod 1 is rotatablely connected with by pin, bearing pin etc.;Drag
Correspond to the position of travelling gear 7 on barre 1 and be provided with open slot 11, during assembling, travelling gear 7 can partly penetrate the open slot 11
It is interior, the outer surface of mop rod 1 is passed by the open slot 11, so as to be meshed with the sliding tooth of sleeve lining.
Further, as shown in fig. 6, the movable part 5 includes an activity bar body 52 and positioned at the activity bar body 52
The clamp bar 53 of bottom, both are directly integrally formed setting, and manufacture is easy;Certainly, in other embodiment, both can also be set
For Split type structure;The top of activity bar body 52 is penetrated to mop rod 1, and then the travelling gear 7 being arranged in mop rod 1 can
It is in contact with the activity bar body 52;The clamp bar 53 of the bottom of activity bar body 52 is then stretched out outside water squeezing frame, so with the cotton of mop
First 2 are fixed together;The cotton first 2 includes collodion body and upwardly extended by the collodion body to form connection protuberance 21,
During connection, the connection protuberance 21 is penetrated to clamp bar 53, and both are connected by a screw, when need change cotton head
When, screw is outwarded winding;The driving cog 51 is on the outer surface of activity bar body 52, and along the activity bar body 52
Length direction is distributed;As preferred, the driving cog 51 can be set from top to bottom as by dredging close set so that motion bar
The driving cog 51 on the top of body 52 is sparse, in the front half section of flushing operation, when the water content of cotton first 2 is larger, activity bar body
52 to move up speed slower, and then water squeezing resistance is smaller, and water squeezing is more laborsaving;, also can be by driving cog 51 in other embodiment
Set is from top to bottom to thin setting by close.
It is preferred that, as shown in figure 5, in order to prevent sleeve from being rotated with respect to mop rod 1, we are in the sleeve 6 with dragging
The first spline structure is provided between barre 1;First spline structure includes the mop rod chute being opened on the mop rod 1
13 and the cylinder or screw 100 that are engaged with the mop rod chute 13, the cylinder or screw 100 are arranged on the sleeve, interior
End extend out to sleeve interior surface and penetrated to the mop rod chute 13, and when sleeve 6 is moved up and down, cylinder or screw are all the time
In chute, you can effectively prevent sleeve 6 from being rotated with respect to mop rod 1;Meanwhile, slided when cylinder or screw move to mop rod
During the two ends of groove 13, sleeve 6 can also be limited and no longer moved, and then the movement travel of sleeve 6 is limited, prevent sleeve 6
Promote or pull and be excessive;Further preferably, in order to prevent movable part from shaking, and then the transmission with travelling gear is influenceed to imitate
Really, we are provided with the second spline structure between the movable part 5 and mop rod 1;Second spline structure includes being located at institute
The body of rod fluting 14 and the lug boss 54 on the movable part 5 of the inner surface of mop rod 1 are stated, body of rod fluting 14 sets for strip
Put, upper and lower ends are setting of remaining silent;The width of the lug boss 54 is set to equal with the width of open channel, works as movable part
5 in mop rod 1 when being moved up and down, and the lug boss 54 can be moved up and down in body of rod fluting 14 simultaneously, and contradicted to the body of rod and opened
On the bottom surface of groove 14, effectively prevent there is gap between movable part 5 and mop rod 1, will not shake;Lug boss is moved to simultaneously
During the end positions of body of rod fluting 14, movement just can not be further continued for, and then i.e. controllable movable part is no longer moved, and effectively prevents from living
Moving part movement is excessive, and movable part lower end will not be also fallen into water squeezing space, ensures that the normal of mop is used;Because mop rod is logical
Normal Ei metals are made, and grooving processes are more difficult, and then a working of plastics can be built into mop rod, and the working of plastics can be hollow post
Body, is fastened in mop rod, and body of rod fluting 14 is opened on the working of plastics.
Two annular protrusions above and below being set in other embodiment or on the outer surface of mop rod 1, work as set
When cylinder 6 moves to the position offseted with annular protrusion, i.e., it can not move up or move down again;, can be in activity in other embodiment
The upper end of bar body 52 is close to the baffle plate of travelling gear side, and the outer end of the baffle plate is placed in the top of travelling gear 7, when movable part is moved down
When contradicting to baffle plate to travelling gear 7, it just can not be further continued for moving down, the movement travel of movable part is limited by the baffle plate;
In other embodiment, also it can stretch out to form two flanges in the both sides of clamp bar 53, the distance between two flanges should be greater than squeezing
The size of hydrospace, and then clamp bar will not drop out in water squeezing space.
The upper end of the water squeezing frame 3 is socketed with mop rod 1, it is preferred that projection 12 of the lower end of mop rod 1 provided with a circle,
The top of water squeezing frame 3 is provided with a circular through hole 33, and when both are connected, the projection 12 can be caught in through hole 33, and both connect
It is more firm;Water squeezing frame bottom is set in inverted U-shaped structure, and water squeezing frame 3 is set to be hollow, and its underpart is provided with dewatering rod 4,
The dewatering rod 4 is set to multiple, is symmetrically arranged on two-by-two between the bottom position of water squeezing frame 3, and then two dewatering rods 4 and forms water squeezing
Space, cotton first 2 can move in the water squeezing space;In other embodiment, dewatering rod can be also not provided with, is set on cotton first 2
One fixed plate, the fixed plate includes central part and can be with respect to two turning part stirred above and below central part;The two ends of the cotton first 2 point
On the lower surface for not being connected to two turning part, the upper surface of two turning part is then hinged with the lower end of water squeezing frame 3, the driving member 5
Lower end be connected with central part, when pull bar is moved up, you can drive central part to move up, and turning part is connected nothing with water squeezing frame 3
Method is moved up, then turning part can be folded, and cotton head is extruded, water squeezing is realized.
Specific operation is as follows:Grip mop rod on the other hand first, sleeve gripped on the other hand, sleeve is pushed down on afterwards so that
Sleeve is moved down, the sliding tooth of sleeve lining driving travelling gear rotationally clockwise, and then driving activity bar body to
Upper movement, drives cotton head to be moved upwardly into water squeezing space, during moving up, and dewatering rod is extruded cotton head, is made
The moisture obtained on cotton head is squeezed, and realizes the water squeezing of mop;After the completion of water squeezing, pull up sleeve and return back to original position so that pass
Rotationally clockwise, driving activity bar body is moved down moving gear, drives cotton head to be displaced downwardly to home position.
Obviously, described embodiment is only a part of embodiment of the present utility model, rather than whole embodiments.
Based on the embodiment in the utility model, what those of ordinary skill in the art were obtained under the premise of creative work is not made
Every other embodiment, should all belong to the scope of the utility model protection.
Claims (10)
1. a kind of socket type collodion mop, including mop rod(1), cotton head(2), water squeezing frame located at mop rod bottom(3), can on
The movable part of lower movement(5)And sleeve(6);The water squeezing frame(3)Including the water squeezing body of rod(31)With water squeezing support body(32), its feature
It is:The sleeve(6)It is movably set in dewatering rod external, the sleeve(6)When acting up or down, the activity can be driven
Part(5)Move up.
2. socket type collodion mop according to claim 1, it is characterised in that:The sleeve and movable part(5)Between
Provided with least one travelling gear(7), the movable part(5)It is provided with and travelling gear(7)The driving cog of cooperation(51), it is described
Sleeve(6)Inwall is provided with and travelling gear(7)The sliding tooth of cooperation(61).
3. socket type collodion mop according to claim 2, it is characterised in that:The travelling gear(7)Rotatably set
In the water squeezing body of rod(31)It is interior, the water squeezing body of rod(31)The upper travelling gear position that corresponds to is provided with opening(311).
4. socket type collodion mop according to claim 1, it is characterised in that:The sleeve(6)With the water squeezing body of rod(31)
Between be provided with the first spline structure, the movable part(5)With the water squeezing body of rod(31)Between be provided with the second spline structure.
5. a kind of socket type collodion mop, including mop rod(1), cotton head(2), water squeezing frame located at mop rod bottom(3), can on
The movable part of lower movement(5)And sleeve(6);It is characterized in that:The sleeve(6)It is movably set in outside mop rod, the sleeve(6)
When acting up or down, the movable part can be driven(5)Move up.
6. socket type collodion mop according to claim 5, it is characterised in that:The sleeve and movable part(5)Between
Provided with least one travelling gear(7), the movable part(5)It is provided with and travelling gear(7)The driving cog of cooperation(51), it is described
Sleeve(6)Inwall is provided with and travelling gear(7)The sliding tooth of cooperation(61).
7. socket type collodion mop according to claim 6, it is characterised in that:The travelling gear(7)Rotatably set
In mop rod(1)It is interior, mop rod(1)It is upper to correspond to travelling gear(7)Position is provided with open slot(11).
8. socket type collodion mop according to claim 5, it is characterised in that:The sleeve(6)With mop rod(1)Between
Provided with the 3rd spline structure, the movable part(5)With mop rod(1)Between be provided with the 4th spline structure.
9. the socket type collodion mop according to any one of claim 2-3 or 6, it is characterised in that:The travelling gear
(7)For two, two travelling gears(7)Respectively with the sliding tooth(61)Coordinate.
10. the socket type collodion mop according to any one of claim 2-3 or 6, it is characterised in that:The travelling gear
(7)For two, wherein a travelling gear(7)With sliding tooth(61)It is engaged, another travelling gear(7)With driving cog(51)Match
Close.
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201621230697 | 2016-11-16 | ||
CN2016212306972 | 2016-11-16 |
Publications (1)
Publication Number | Publication Date |
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CN206491771U true CN206491771U (en) | 2017-09-15 |
Family
ID=59800237
Family Applications (7)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201621290024.6U Active CN206491762U (en) | 2016-11-16 | 2016-11-29 | A kind of light collodion mop of water squeezing |
CN201621290113.0U Active CN206491771U (en) | 2016-11-16 | 2016-11-29 | Socket type collodion mop |
CN201621397881.6U Active CN207152548U (en) | 2016-11-16 | 2016-12-20 | The mop drive mechanism and collodion mop of a kind of rapid operation |
CN201621446617.7U Active CN206934064U (en) | 2016-11-16 | 2016-12-27 | A kind of water squeezing structure and water squeezing labour-saving collodion mop for mop |
CN201621448115.8U Active CN207356047U (en) | 2016-11-16 | 2016-12-27 | A kind of water squeezing structure and collodion mop for collodion mop |
CN201621446618.1U Active CN207101236U (en) | 2016-11-16 | 2016-12-27 | A kind of mop water-expelling structure and collodion mop |
CN201621446642.5U Active CN207286013U (en) | 2016-11-16 | 2016-12-27 | A kind of water squeezing labour-saving collodion mop |
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CN201621397881.6U Active CN207152548U (en) | 2016-11-16 | 2016-12-20 | The mop drive mechanism and collodion mop of a kind of rapid operation |
CN201621446617.7U Active CN206934064U (en) | 2016-11-16 | 2016-12-27 | A kind of water squeezing structure and water squeezing labour-saving collodion mop for mop |
CN201621448115.8U Active CN207356047U (en) | 2016-11-16 | 2016-12-27 | A kind of water squeezing structure and collodion mop for collodion mop |
CN201621446618.1U Active CN207101236U (en) | 2016-11-16 | 2016-12-27 | A kind of mop water-expelling structure and collodion mop |
CN201621446642.5U Active CN207286013U (en) | 2016-11-16 | 2016-12-27 | A kind of water squeezing labour-saving collodion mop |
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CN114617505B (en) * | 2018-12-06 | 2023-10-03 | 西安佳品创意设计有限公司 | Collodion mop |
CN113289940B (en) * | 2021-06-04 | 2022-06-14 | 海南师范大学 | Intelligent operation and maintenance big data supervision equipment |
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- 2016-11-29 CN CN201621290113.0U patent/CN206491771U/en active Active
- 2016-12-20 CN CN201621397881.6U patent/CN207152548U/en active Active
- 2016-12-27 CN CN201621446617.7U patent/CN206934064U/en active Active
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CN206934064U (en) | 2018-01-30 |
CN207356047U (en) | 2018-05-15 |
CN206491762U (en) | 2017-09-15 |
CN207286013U (en) | 2018-05-01 |
CN207101236U (en) | 2018-03-16 |
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