Collodion mop
Technical field
The utility model belongs to cleaning supplies technical field, is related to mop, more particularly, to a kind of collodion mop.
Background technology
Existing collodion mop includes mop rod, collodion head, the pull bar for pulling collodion head, for pulling pulling for pull bar
Hand, collodion head is connected to the lower end of pull bar, and the upper end of pull bar is penetrated in spanner, and spanner is hinged on mop rod, collodion head it is upper
End is located between two squeeze rolls, and squeeze roll is arranged on water squeezing frame, and water squeezing frame is arranged on mop rod end.Pulled during operation
Bar, you can pull up collodion head, so that collodion head is extruded its contained humidity by squeeze roll.
Existing collodion mop also has the disadvantage that:After long-term use between the squeeze roll and collodion head of collodion mop
Can not tight abutment, gap can be produced between the two, causing mop, collodion head occurs fixed unstable in use, easily shakes
Dynamic phenomenon, the effect that mops floor is poor, and the collodion mop of prior art can not be adjusted to the elastic of collodion mop head.
Utility model content
The purpose of this utility model is in view of the above-mentioned problems, provide a kind of collodion mop, can to adjust collodion head and water squeezing
Elasticity between structure.
To reach above-mentioned purpose, the utility model employs following technical proposal:This collodion mop, including mop rod and glue
Cotton head, water squeezing frame is provided with one end of mop rod, and water squeezing structure is provided with water squeezing frame, and described collodion head is located at water squeezing structure
Lower section, being connected with collodion head can drive collodion head to be moved relative to water squeezing structure and can make what described collodion head was positioned
Operating-controlling mechanism, described operating-controlling mechanism is provided with can adjust collodion head relative to water squeezing knot after operating-controlling mechanism positions collodion head
The position of structure is so that collodion head top is resisted against in water squeezing structure to adjust the adjustment mechanism of collodion head elasticity.
Preferably, described operating-controlling mechanism includes pull bar and spanner, described pull bar lower end is connected with collodion head, described
Pull bar upper end and spanner in the middle part of be hinged, described spanner the inner is rotatably connected with mop rod, and works as spanner relative to dragging
Spanner can drive collodion head to be moved up and down relative to water squeezing structure by pull bar when barre is rotated.
Preferably, described water squeezing structure includes squeeze roll, described water squeezing frame has two opposite installation portions
And the accommodation space that can enter collodion head is formed between two installation portions, it is respectively equipped with the bottom of each installation portion
At least one bayonet socket, the squeeze roll that described squeeze roll is buckled into described bayonet socket and on two installation portions is arranged in parallel.
Preferably, the bayonet socket on described installation portion is towards the inner side of installation portion, each installation portion is provided with least one
Group bayonet socket, each bayonet socket that the quantity of each group of bayonet socket is no less than in two and same group of bayonet socket is respectively positioned on sustained height, every
It is caught in a squeeze roll in one group of bayonet socket, and each group bayonet socket on same installation portion is located at different height.
Preferably, described adjustment mechanism is arranged between spanner and mop rod and adjustment mechanism can adjust spanner positioning
In the different rotational angles relative to mop rod to change position of the collodion head relative to water squeezing structure so as to realizing collodion head
The adjustment of elasticity.
Preferably, described adjustment mechanism includes the adjusting body that can be moved relative to mop rod and on spanner
Adjustment portion, and adjustment portion described in when adjusting body is moved relative to mop rod may act on adjusting body different parts to adjust
Spanner angle;Provided with the position adjustment structure that can position the adjusting body after movement between described adjusting body and mop rod.
Preferably, having the different height adjustment surface of height on the outside of described adjusting body and when adjusting body is relative to dragging
Adjustment portion described in when barre is moved may act on the diverse location on height adjustment surface to adjust spanner angle;Described height
Degree adjustment surface is any one or more combination in step surface, cam surface, inclined-plane, arcwall face.
Preferably, be additionally provided with connecting seat on described mop rod, described position adjustment structure be arranged on adjusting body with
Between connecting seat, described spanner the inner is hinged with connecting seat;Described connecting seat is in have c-type jaggy, and connecting seat
It can be fastened on mop rod or departed from mop rod by breach, the lower end of described connecting seat is hinged with mop rod.
Preferably, described collodion head is connected with pull bar by demountable structure, described pull bar can drive collodion
Head is moved up and down relative to water squeezing structure so that collodion head draws in water squeezing structure to realize water squeezing or make collodion head depart from water squeezing
Structure, and demountable structure described in when pull bar drives collodion head to depart from water squeezing structure is completely exposed to below water squeezing structure.
Preferably, described demountable structure is included located at least one horizontal jack on collodion head top and located at drawing
At least one horizontal pin of bar lower end, described horizontal pin is corresponded and is mutually inserted with horizontal jack.
Preferably, described pull bar is symmetrically bent by elongated material and formed and the two ends of elongated material form two respectively
Oppositely extending horizontal pin respectively, the quantity of described horizontal jack for two and horizontal jack aperture it is opposite, two
Horizontal pin is located between two horizontal jacks and horizontal pin is corresponded and is mutually inserted with horizontal jack.
Preferably, described collodion head includes mounting bracket and the collodion body being fixed on mounting bracket, described mounting bracket
Provided with two there is the bulge of opening to form above-mentioned horizontal jack.
Preferably, described adjustment mechanism is arranged between spanner and mop rod and adjustment mechanism can adjust spanner the inner
With mop rod junction relative to the position of mop rod axial direction so as to realize the adjustment of collodion head elasticity.
Preferably, described adjustment mechanism includes being arranged on the shifting that can be moved axially on mop rod and relative to mop rod
Dynamic seat, described spanner the inner is hinged with Mobile base, and rotary sleeve, described rotary sleeve are threaded with described mop rod
Circumferentially rotate and be connected with Mobile base axially position.
Preferably, described collodion head is connected with pull bar by demountable structure, described rotary sleeve can pass through movement
Seat and pull bar drive collodion head moved up and down relative to water squeezing structure so that collodion head draw in water squeezing structure with realize water squeezing or
Collodion head is set to depart from water squeezing structure, and the demountable structure described in when rotary sleeve drives collodion head to depart from water squeezing structure is completely sudden and violent
It is exposed to below water squeezing structure.
Compared with prior art, the utility model has the advantage of:
1st, the tightness between collodion head and water squeezing structure can be realized by adjustment mechanism, collodion head loosening is occurring
When, it can easily carry out elasticity adjustment, it is ensured that collodion head is together with water squeezing structure phase tight abutment, it is possible to increase mop floor
Efficiency;
2nd, provided with the position adjustment structure that can position the adjusting body after movement, the structure between adjusting body and mop rod
It can prevent adjusting body from being rocked after adjustment is finished, it is ensured that the collodion head after adjustment has good stability;
3rd, collodion head and water squeezing structure can be caused to completely fall off by connecting seat, is easy to collodion mop to change collodion head.
Brief description of the drawings
Fig. 1 is the stereogram for the collodion mop that the utility model is provided.
Fig. 2 is the side view for the collodion mop that the utility model is provided.
Fig. 3 is the low-angle adjustment schematic diagram for the collodion mop that the utility model is provided.
Fig. 4 is the wide-angle adjustment schematic diagram for the collodion mop that the utility model is provided.
Fig. 5 is Fig. 2 A portions enlarged drawing.
Fig. 6 is the front side structure figure for the connecting seat that the utility model is provided.
Fig. 7 is the rear structure figure for the connecting seat that the utility model is provided.
Fig. 8 is the state diagram of the collodion head separation for the collodion mop that the utility model is provided.
Fig. 9 is the structure chart for the collodion head that the utility model is provided.
Figure 10 is the schematic diagram for the demountable structure that the utility model is provided.
Figure 11 is the water squeezing frame and the installation diagram of water squeezing structure that the utility model is provided.
Figure 12 is the water squeezing frame and the explosive view of water squeezing structure that the utility model is provided.
Figure 13 is the structure chart for the short roller body that the utility model is provided.
Figure 14 is the schematic diagram of the embodiment two for the collodion mop that the utility model is provided.
In figure, mop rod 1, collodion head 2, water squeezing frame 31, operating-controlling mechanism 4, adjustment mechanism 5, pull bar 41, spanner 42, water squeezing
Roller 32, installation portion 31b, accommodation space 33, bayonet socket 31a, clamping part 32a, short roller body 32b, connecting shaft 32c, gap 34, adjusting body
51st, adjustment portion 43, height adjustment surface 52, connecting seat 6, gear bar 61, shift slot 62, slide rail 63, chute 53, stopper slot 54,
Limited block 64, breach 65, demountable structure 7, jack 71, pin 72, mounting bracket 21, collodion body 22, Mobile base 8, rotary sleeve 9.
Embodiment
Embodiment one:
As shown in figure 1 to figure 13, the present embodiment includes mop rod 1 and collodion head 2, and water squeezing is provided with one end of mop rod 1
Frame 31, is provided with water squeezing structure on water squeezing frame 31, and collodion head 2 is located at below water squeezing structure, and being connected with collodion head 2 being capable of band
Dynamic collodion head 2 moves and can made the operating-controlling mechanism 4 that collodion head 2 is positioned relative to water squeezing structure, and operating-controlling mechanism 4 is provided with when manipulation
Mechanism 4 can be adjusted after collodion head 2 is positioned collodion head 2 relative to water squeezing structure position so that the top of collodion head 2 be resisted against it is crowded
So as to adjust the adjustment mechanism 5 of the elasticity of collodion head 2 on water-bound, this programme can be realized by adjustment mechanism 5 collodion head 2 with
Tightness between squeeze roll 32, when there is the loosening of collodion head 2, can easily carry out elasticity adjustment, it is ensured that collodion
First 2 together with the phase tight abutment of squeeze roll 32, it is possible to increase the efficiency mopped floor.
Specifically, operating-controlling mechanism 4 includes pull bar 41 and spanner 42, and the lower end of pull bar 41 is connected with collodion head 2, on pull bar 41
End is hinged with the middle part of spanner 42, and the inner of spanner 42 is rotatably connected with mop rod 1, and works as spanner 42 relative to 1 turn of mop rod
Spanner 42 can drive collodion head 2 to be moved up and down relative to water squeezing structure by pull bar 41 when dynamic.During water squeezing, spanner 42 is turned upwards
Dynamic, spanner 42 drives the collodion head 2 being connected with pull bar 41 to move upwardly together, and collodion head 2 is by between two squeeze rolls 32
Gap after can complete water squeezing action;Rotated down by spanner 42, spanner 42 drives the collodion head 2 being connected with pull bar 41
Move, collodion head 2 can be resetted, so as to be mopped floor using mop downwardly together.
In the present embodiment, water squeezing structure includes squeeze roll 32, water squeezing frame 31 have opposite two installation portion 31b and
The accommodation space 33 that can enter collodion head 2 is formed between two installation portion 31b, in each installation portion 31b lower part
Not She You at least one bayonet socket 31a, the squeeze roll 32 that squeeze roll 32 is buckled into bayonet socket 31a and on two installation portion 31b is mutually flat
Row is set, and squeeze roll 32 is installed on water squeezing frame 31 by interface arrangment, is easy to squeeze roll 32 to dismantle and install, in order to more steady
Solid installation squeeze roll 32, bayonet socket 31a on installation portion 31b is towards installation portion 31b inner side so that squeeze roll 32 is arranged at peace
Dress portion 31b inner side.
When needing to install vertically disposed multiple squeeze rolls 32 on installation portion 31b, each installation portion 31b is provided with least
Each bayonet socket 31a that one group of bayonet socket 31a, each group of bayonet socket 31a quantity are no less than in two and same group of bayonet socket 31a is respectively positioned on
Sustained height, each group bayonet socket 31a being caught in each group of bayonet socket 31a on a squeeze roll 32, and same installation portion 31b is located at
Different height, is caught in a squeeze roll 32 in each group of bayonet socket 31a, and squeeze roll 32 is blocked by multiple bayonet socket 31a
Connect fixation.
Squeeze roll 32 is in integral elongate configuration in the present embodiment, and squeeze roll 32 is provided with the clamping part 32a of indent, clamping part
32a is buckled into bayonet socket 31a.
In addition, squeeze roll 32 can also be by least two short roller body 32b, end adjacent two short roller body 32b passes through even
Axle 32c is connected to form elongate configuration and leave gap 34 between adjacent end, and the connecting shaft 32c parts at gap 34 are caught in
In bayonet socket 31a.
Specifically, adjustment mechanism 5 is arranged between spanner 42 and mop rod 1 and adjustment mechanism 5 can adjust spanner 42 and determine
The different rotational angles of mop rod 1 are located relative to change collodion head 2 relative to the position of water squeezing structure to realize glue
The adjustment of first 2 elasticity of cotton.Because spanner 42 is connected with pull bar 41, when the angulation change of spanner 42, pull bar 41 and spanner
The height of 42 pin joint will change, so as to change the height and position of collodion head 2, finally realize collodion head 2 and water squeezing
The adjustment of elasticity between roller 32.
Specifically, adjustment mechanism 5 includes the adjusting body 51 that can be moved relative to mop rod 1 and on spanner 42
Adjustment portion 43, and when adjusting body 51 is moved relative to mop rod 1 adjustment portion 43 may act on the different parts of adjusting body 51 so as to
Adjust the angle of spanner 42;Provided with the position adjustments that can position the adjusting body 51 after movement between adjusting body 51 and mop rod 1
Structure, the structure can prevent adjusting body 51 from being rocked after adjustment is finished, it is ensured that the collodion head 2 after adjustment has good
Stability.
Specifically, position adjustment structure includes the connecting seat 6 being arranged on mop rod 1, and connecting seat 6 is provided with least one
The shift slot 62 of gear bar 61/, the inner side of adjusting body 51 is provided with the gear bar 61 of an at least shift slot 62/, and adjusting body 51 is arranged on connection
On seat 6 and gear bar 61 and the clamping of shift slot 62 are positioned, this programme carrys out reality by gear bar 61 and working in coordination for shift slot 62
The positioning function of existing adjusting body 51, with simple in construction, the advantage of good positioning effect.
In addition, connecting seat 6 is provided with slide rail 63, the inner side of adjusting body 51 is provided with chute 53, and slide rail 63 is located in chute 53;For
Prevent adjusting body 51 from gliding excessively and the connecting seat 6 that comes off, the inner side of adjusting body 51 is provided with stopper slot 54, and connecting seat 6 is provided with
Limited block 64, limited block 64 be located at stopper slot 54 in and stopper slot 54 length be more than limited block 64 length.
Specifically, the outside of adjusting body 51 has the different height adjustment surface 52 of height and when adjusting body 51 is relative to dragging
Adjustment portion 43 may act on the diverse location on height adjustment surface 52 to adjust the angle of spanner 42 when barre 1 is moved;Highly adjust
Whole surface 52 is any one or more combination in step surface, cam surface, inclined-plane, arcwall face.When adjustment portion 43 acts on tune
When on overall 51 highly less height adjustment surfaces 52, the angle that spanner 42 is flipped up is smaller, the upward displacement of collodion head 2
Amount is smaller;When adjustment portion 43 is acted on the highly larger height adjustment surface 52 of adjusting body 51, what spanner 42 was flipped up
Angle is larger, and the upward displacement of collodion head 2 is larger.Therefore this programme can adjust glue according to the tightness of collodion head 2
The upward shift length of cotton first 2, it is ensured that collodion head 2 and water squeezing structure 3 keep appropriate tight ness rating, technical ability prevent collodion head 2 with
Water squeezing structure 3 loosens, and can also prevent collodion head 2 and the tension of water squeezing structure 3 and collodion head 2 can not be made to store enough moisture.
Further say, connecting seat 6 is additionally provided with mop rod 1, and position adjustment structure is arranged on adjusting body 51 and connecting seat 6
Between, the inner of spanner 42 is hinged with connecting seat 6;Connecting seat 6 is in the c-type with breach 65, and connecting seat 6 can pass through breach 65
It is fastened on mop rod 1 or departs from mop rod 1, lower end and the mop rod 1 of connecting seat 6 is hinged.Connecting seat 6 in this programme
Lower end be hinged with mop rod 1, the one end of spanner 42 is articulated with connecting seat 6, when rotating down connecting seat 6, connecting seat 6 will drive
Spanner 42 and pull bar 41 are moved downward so that collodion head 2 is completely fallen off with water squeezing structure 3, and above-mentioned design causes this programme
Collodion mop is conveniently replaceable collodion head 2.
The replacing of collodion head 2 for convenience, collodion head 2 is connected with pull bar 41 by demountable structure 7, and pull bar 41 being capable of band
Dynamic collodion head 2 is moved up and down relative to water squeezing structure so that collodion head 2 draws in water squeezing structure to realize water squeezing or make collodion head 2
Depart from water squeezing structure, and demountable structure 7 is completely exposed to water squeezing structure when pull bar 41 drives collodion head 2 to depart from water squeezing structure
Lower section.
Specifically, demountable structure 7 is included located at least one horizontal jack 71 on the top of collodion head 2 and located at pull bar
At least one horizontal pin 72 of 41 lower ends, horizontal pin 72 is corresponded and is mutually inserted with horizontal jack 71.
Further say, pull bar 41 is symmetrically bent by elongated material to be formed and the two ends of elongated material form two points respectively
Not oppositely extending horizontal pin 72, the quantity of horizontal jack 71 for two and horizontal jack 71 aperture it is opposite, two horizontal strokes
It is located to pin 72 between two horizontal jacks 71 and horizontal pin 72 is corresponded and is mutually inserted with horizontal jack 71.Collodion
First 2 include mounting bracket 21 and the collodion body 22 being fixed on mounting bracket 21, and mounting bracket 21 is provided with two bulges with opening
So as to form above-mentioned horizontal jack 71.
Embodiment two:
As shown in figure 14, the adjustment mechanism 5 in the present embodiment is arranged between spanner 42 and mop rod 1 and adjustment mechanism 5
The inner position with the junction of mop rod 1 relative to the axial direction of mop rod 1 of spanner 42 can be adjusted so as to realize the elasticity of collodion head 2
Adjustment.
Specifically, adjustment mechanism 5 includes being arranged on the movement that can be moved axially on mop rod 1 and relative to mop rod 1
Seat 8, the inner of spanner 42 is hinged with Mobile base 8, and rotary sleeve 9, rotary sleeve 9 and the axial direction of Mobile base 8 are threaded with mop rod 1
Positioning circumferentially rotates connection.
The replacing of collodion head 2 for convenience, collodion head 2 is connected with pull bar 41 by demountable structure 7, and rotary sleeve 9 can lead to
Cross Mobile base 8 and pull bar 41 drive collodion head 2 to be moved up and down relative to water squeezing structure so that collodion head 2 draw in water squeezing structure with
Realize water squeezing or collodion head 2 is departed from water squeezing structure, and when rotary sleeve 9 drives collodion head 2 detachably to be tied when departing from water squeezing structure
Structure 7 is completely exposed to below water squeezing structure.
During adjustment, rotate rotary sleeve 9 and cause rotary sleeve 9 to occur upper and lower displacement with mop rod 1, and then drive and Mobile base 8
The collodion head 2 being connected is moved up and down, and can not only realize the elasticity adjustment of collodion head 2, moreover it is possible to realize collodion head 2 and water squeezing
Structure 3 is completely disengaged from, and the Mobile base 8 in the present embodiment is the cylindrical body structure being sheathed on rotary sleeve 9 or is to be connected in rotation
The ferrule structure with bayonet socket on pivoted housing 9.
Other structures in the present embodiment are identical with the structure in embodiment one, will not be repeated here.
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 mop rod 1, collodion head 2, water squeezing frame 31, operating-controlling mechanism 4, adjustment mechanism 5, pull bar herein
41st, spanner 42, squeeze roll 32, installation portion 31b, accommodation space 33, bayonet socket 31a, clamping part 32a, short roller body 32b, connecting shaft 32c,
Gap 34, adjusting body 51, adjustment portion 43, height adjustment surface 52, connecting seat 6, gear bar 61, shift slot 62, slide rail 63, chute
53rd, stopper slot 54, limited block 64, breach 65, demountable structure 7, jack 71, pin 72, mounting bracket 21, collodion body 22, movement
The terms such as seat 8, rotary sleeve 9, but it is not precluded from the possibility using other terms.Using these terms just for the sake of more convenient
Ground describes and explains essence of the present utility model, and being construed as any additional limitation is all and the utility model essence
What god disagreed.