CN206934064U - A kind of water squeezing structure and water squeezing labour-saving collodion mop for mop - Google Patents
A kind of water squeezing structure and water squeezing labour-saving collodion mop for mop Download PDFInfo
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- CN206934064U CN206934064U CN201621446617.7U CN201621446617U CN206934064U CN 206934064 U CN206934064 U CN 206934064U CN 201621446617 U CN201621446617 U CN 201621446617U CN 206934064 U CN206934064 U CN 206934064U
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Abstract
The utility model discloses a kind of water squeezing structure for mop, including connecting rod and the dewatering rod that is sheathed in connecting rod, gap is provided with multiple rhones on the dewatering rod lateral wall, and the rhone is sequentially distributed along the length direction of dewatering rod.The frictional resistance that collodion head is subject to during water squeezing in the utility model is minimum, and flushing operation is more laborsaving;Dewatering rod is hardly damaged, service life length;The pressure action that collodion head is subject to is big, and collodion head water squeezing is clean, and water squeezing operating efficiency is high.
Description
Technical field
Utility model belongs to burnisher technical field, is saved more particularly, to a kind of for the water squeezing structure of mop and water squeezing
The collodion mop of power.
Background technology
Water squeezing labour-saving collodion mop is the conventional cleaning thing of Modern Family, because its cleaning capacity is strong, easy to use, clear
Wash and wring out the advantages that convenient and be extensively popular.Chinese patent CN203763016 U are disclosed《A kind of ball mop》, including drag
Labour contractor, cleaning head, pull bar, tie rod and two ball bars, resistance is small, and flushing operation is laborsaving.But the mop under this kind of structure,
Mutually can freely it be rolled between its ball, sync rates during rolling are low, and part ball occurs often and has rolled, and part ball
The phenomenon not rolled also, the ball not rolled cause larger frictional resistance to cleaning head so that water squeezing is more laborious;And ball
Easily shaken in water squeezing, not only influence the squeezing effect to collodion head, be also easy to collide between adjacent ball, squeeze
Pressure etc. so that abrasion, deformation occur for ball, and service life is short.
Utility model content
The utility model is for overcome the deficiencies in the prior art, there is provided a kind of make it that the flushing operation of mop is laborsaving, uses
The water squeezing structure and water squeezing labour-saving collodion mop for mop of long lifespan.
To achieve these goals, the utility model uses following technical scheme:A kind of water squeezing structure for mop, bag
Connecting rod and the dewatering rod being sheathed in connecting rod are included, gap is provided with multiple rhones, the row on the dewatering rod lateral wall
Tank is sequentially distributed along the length direction of dewatering rod.Dewatering rod of the present utility model is set in connecting rod, is water squeezing during rotation
Bar integrally rotates, compared to mutual free rolling situation, the frictional force between dewatering rod and collodion head between ball
Nearly 30% can be reduced, the reduction frictional resistance of high degree, water squeezing is more laborsaving;Also, water squeezing groove is molded directly within dewatering rod
On so that dewatering rod is integrally formed in one, and manufactures more easy, the manufacture of relatively independent ball, reduces multiple tracks manufacture work
Sequence so that processing duration obtains the shortening of high degree, and production efficiency improves at least 40%;And being integrally formed due to dewatering rod
Set, can avoid that the situation mutually collided and extruded such as ball occurs, in the absence of the situation of crimp, spoilage reduces
80%, further increase the service life;Meanwhile dewatering rod will not shake in water squeezing, ensure to enter collodion head in water squeezing
The good extruding of row, water squeezing effect are more preferable;Secondly as ball is is independently arranged, rubbish be easily caught in ball and shaft core it
Between gap in, it is long-term use of after ball easily there is slight crack;And water squeezing section is formed in one in the utility model, length is set
To be longer, rubbish is not easy to be caught between dewatering rod and connecting rod, and rupture rate reduces by 80%, and service life is longer;
Further, there is provided rhone, extruding force of the rhone in water squeezing for collodion head is almost nil, and then
The area that water squeezing structure carries out squeezing action to collodion head reduces;In the case of equal pressure, the size and acting surface of pressure
Long-pending size is inversely proportional, then in the case where active area reduces, water squeezing structure increases for the local pressure of collodion head, for
The active force of collodion head extruding enhances more than 50% so that at least 2 times of water squeezing effect promoting, cotton head water squeezing is more clean;And
And air present in collodion head can quickly be discharged by the rhone of both sides, further reduce what is be subject in flushing operation
Resistance, feel is light during water squeezing, more laborsaving, improves at least 2 times of water squeezing efficiency;Certainly, during water squeezing, in collodion head
Water can also be flowed out via the rhone, drainage speed improve nearly 40%, effectively accelerate water squeezing speed, improve water squeezing efficiency;And
And collodion head partly will be caught in rhone during water squeezing, there is certain friction between dewatering rod and collodion head
Power, and then collodion head is not susceptible to skidding, dewatering rod can realize good extruding, while the effect of its extruding to collodion head
Power is also more balanced, and water squeezing effect is good.
Preferably, the rhone is annular groove;Dewatering rod needs to be rotated relative to water squeezing frame during water squeezing, is rubbed with reducing
Resistance is wiped, rhone is arranged to annular, you can during ensureing that dewatering rod rotates, on the surface that is in contact with collodion head
Rhone be present, water squeezing effect is more preferable.
Or it is preferable, the spacing d1 between the adjacent row tank is 18-22mm, when d1 length is in this kind of span
When, its water squeezing effect for collodion head is best, in the case of comparing other length values, can improve at least 20% water squeezing amount,
Water squeezing for collodion head is more clean
Or it is preferable, the length d2 of the rhone is 6-9mm;When d2 length is in this kind of span, its for
The water squeezing effect of collodion head is best, in the case of comparing other length values, at least 20% water squeezing amount can be improved, for collodion
The water squeezing of head is more clean;And particularly in the case that water squeezing section and rhone are engaged, water squeezing structure is overall for glue
The water squeezing effect of cotton head is best, compares other length mated conditions, can improve at least 30% water squeezing amount, for squeezing for collodion head
Water is more clean;And under this kind of structure, collodion head long-term use will not also deform damage, service life length.
Further, at least part outer surface of the dewatering rod is provided with anti-slip structure;Because ball surface is smooth,
Easily skidded between ball and cleaning head, poor hence for the squeezing effect of cleaning head, water squeezing effect is bad;By anti-
The setting of slip structure, it is possible to increase the frictional force between collodion head and dewatering rod, prevent skidding, water squeezing effect is more
It is good;Furthermore water squeezing rod outer surface need not carry out smooth processing, the smooth situation of counter ball, reduce at least two procedures, add
Man-hour length shortens so that production efficiency improves at least 60%.
The utility model additionally provides a kind of water squeezing labour-saving collodion mop, including collodion head, water squeezing frame and located at water squeezing
Water squeezing structure on frame;The water squeezing structure includes connecting rod and the dewatering rod being sheathed in connecting rod, the dewatering rod outside
Gap is provided with multiple rhones on wall, and the rhone is sequentially distributed along the length direction of dewatering rod.Water squeezing of the present utility model
Rod set is located in connecting rod, is integrally rotated for dewatering rod during rotation, compared to mutual free rolling feelings between ball
Condition, the frictional force between dewatering rod and collodion head can reduce nearly 30%, the reduction frictional resistance of high degree, and water squeezing is more laborsaving;
Also, water squeezing groove is molded directly within dewatering rod so that dewatering rod is integrally formed in one, and manufacture is more easy, relatively independent
The manufacture of ball, reduce multiple tracks manufacturing process so that processing duration obtains the shortening of high degree, and production efficiency improves at least
40%;And setting is integrally formed due to dewatering rod, it can avoid that the situation mutually collided and extruded such as ball occurs, be not present
The situation of crimp, spoilage reduce by 80%, further increased the service life;Meanwhile dewatering rod will not shake in water squeezing
It is dynamic, ensure to carry out collodion head in water squeezing good extruding, water squeezing effect is more preferable;Secondly as ball is to be independently arranged, rubbish
Rubbish is easily caught in the gap between ball and shaft core, and slight crack easily occurs in ball after long-term use;And in the utility model
Water squeezing section is formed in one, and length is arranged to longer, and rubbish is not easy to be caught between dewatering rod and connecting rod, and rupture rate reduces by 80%,
Service life is longer;
Further, there is provided rhone, extruding force of the rhone in water squeezing for collodion head is almost nil, and then
The area that water squeezing structure carries out squeezing action to collodion head reduces;In the case of equal pressure, the size and acting surface of pressure
Long-pending size is inversely proportional, then in the case where active area reduces, water squeezing structure increases for the local pressure of collodion head, for
The active force of collodion head extruding enhances more than 50% so that at least 2 times of water squeezing effect promoting, cotton head water squeezing is more clean;And
And air present in collodion head can quickly be discharged by the rhone of both sides, further reduce what is be subject in flushing operation
Resistance, feel is light during water squeezing, more laborsaving, improves at least 2 times of water squeezing efficiency;Certainly, during water squeezing, in collodion head
Water can also be flowed out via the rhone, drainage speed improve nearly 40%, effectively accelerate water squeezing speed, improve water squeezing efficiency;And
And collodion head partly will be caught in rhone during water squeezing, there is certain friction between dewatering rod and collodion head
Power, and then collodion head is not susceptible to skidding, dewatering rod can realize good extruding, while the effect of its extruding to collodion head
Power is also more balanced, and water squeezing effect is good.
Preferably, the rhone is annular groove;Dewatering rod needs to be rotated relative to water squeezing frame during water squeezing, is rubbed with reducing
Resistance is wiped, rhone is arranged to annular, you can during ensureing that dewatering rod rotates, on the surface that is in contact with collodion head
Rhone be present, water squeezing effect is more preferable.
Or it is preferable, the spacing d1 between the adjacent row tank is 18-22mm, and the length d2 of the rhone is 6-
9mm;Under this kind of length mated condition, water squeezing effect of the water squeezing structure for collodion head is best, intersects other length mated conditions,
At least 30% water squeezing amount can be improved, the water squeezing for collodion head is more clean;And under this kind of structure, collodion head long-term use is also
Will not be deformed damage, service life length.
The utility model additionally provides a kind of collodion mop, including collodion head, water squeezing frame and is respectively arranged on the water squeezing frame
At least two row's followers on the left and right sides;The follower includes connecting rod and the dewatering rod being sheathed in connecting rod, described
Gap is provided with multiple rhones on dewatering rod lateral wall, and the rhone is sequentially distributed along the length direction of dewatering rod;On described
It is interlaced setting to arrange the rhone on follower and the rhone on lower row's follower.Dewatering rod of the present utility model is arranged
In connecting rod, integrally rotated for dewatering rod during rotation, compared to mutual free rolling situation, water squeezing between ball
Frictional force between bar and collodion head can reduce nearly 30%, the reduction frictional resistance of high degree, and water squeezing is more laborsaving;Also, squeeze
Tank is molded directly within dewatering rod so that dewatering rod is integrally formed in one, and manufactures more easy, the system of relatively independent ball
Make, reduce multiple tracks manufacturing process so that processing duration obtains the shortening of high degree, and production efficiency improves at least 40%;And by
Setting is integrally formed in dewatering rod, can avoid that the situation mutually collided and extruded such as ball occurs, in the absence of crimp
Situation, spoilage reduce by 80%, further increase the service life;Meanwhile dewatering rod will not shake in water squeezing, ensure
Good extruding is carried out to collodion head in water squeezing, water squeezing effect is more preferable;Secondly as ball is is independently arranged, rubbish is easy
It is caught in the gap between ball and shaft core, slight crack easily occurs in ball after long-term use;And water squeezing section in the utility model
It is formed in one, length is arranged to longer, and rubbish is not easy to be caught between dewatering rod and connecting rod, and rupture rate reduces by 80%, uses the longevity
Order longer;
Further, there is provided rhone, extruding force of the rhone in water squeezing for collodion head is almost nil, and then
The area that water squeezing structure carries out squeezing action to collodion head reduces;In the case of equal pressure, the size and acting surface of pressure
Long-pending size is inversely proportional, then in the case where active area reduces, water squeezing structure increases for the local pressure of collodion head, for
The active force of collodion head extruding enhances more than 50% so that at least 2 times of water squeezing effect promoting, cotton head water squeezing is more clean;And
And air present in collodion head can quickly be discharged by the rhone of both sides, further reduce what is be subject in flushing operation
Resistance, feel is light during water squeezing, more laborsaving, improves at least 2 times of water squeezing efficiency;Certainly, during water squeezing, in collodion head
Water can also be flowed out via the rhone, drainage speed improve nearly 40%, effectively accelerate water squeezing speed, improve water squeezing efficiency;And
And collodion head partly will be caught in rhone during water squeezing, there is certain friction between dewatering rod and collodion head
Power, and then collodion head is not susceptible to skidding, dewatering rod can realize good extruding, while the effect of its extruding to collodion head
Power is also more balanced, and water squeezing effect is good.
Preferably, the rhone is annular groove;Dewatering rod needs to be rotated relative to water squeezing frame during water squeezing, is rubbed with reducing
Resistance is wiped, rhone is arranged to annular, you can during ensureing that dewatering rod rotates, on the surface that is in contact with collodion head
Rhone be present, water squeezing effect is more preferable.
Or it is preferable, the spacing d1 between the adjacent row tank is 18-22mm, when d1 length is in this kind of span
When, its water squeezing effect for collodion head is best, in the case of comparing other length values, can improve at least 20% water squeezing amount,
Water squeezing for collodion head is more clean
Or it is preferable, the spacing d1 between the adjacent row tank is 18-22mm, and the length d2 of the rhone is 6-
9mm;Under this kind of length mated condition, water squeezing effect of the water squeezing structure for collodion head is best, intersects other length mated conditions,
At least 30% water squeezing amount can be improved, the water squeezing for collodion head is more clean;And under this kind of structure, collodion head long-term use is also
Will not be deformed damage, service life length.
In summary, the utility model has advantages below:The frictional resistance being subject to during water squeezing is minimum, water squeezing behaviour
Make more laborsaving;Dewatering rod is hardly damaged, service life length;The pressure action that collodion head is subject to is big, and collodion head water squeezing is clean, squeezes
Efficiency high is made in water conservancy project.
Brief description of the drawings
Fig. 1 is the structural representation one of water squeezing structure.
Fig. 2 is the structural representation two of water squeezing structure.
Fig. 3 is Fig. 1 sectional view.
Fig. 4 is the structural representation of another embodiment of water squeezing structure.
Fig. 5 is the structural representation of collodion mop.
Fig. 6 is the structural representation of water squeezing frame.
Embodiment
In order that those skilled in the art are better understood from the utility model, 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 embodiment of the utility model.
As Figure 1-5, a kind of water squeezing structure for mop, can be symmetricly set on the water squeezing frame of mop, and then two
Water squeezing space is formed between water squeezing structure, when collodion head is pulled up into water squeezing space, water squeezing structure can be carried out to collodion head
Extruding, the water on collodion head is extruded, realizes the water squeezing of mop;Specifically, the water squeezing structure includes connecting rod 1 and set
Dewatering rod 2 in connecting rod 1, gap is provided with multiple rhones 3 on the lateral wall of the dewatering rod 2, is preferably arranged to ring
Shape groove, length direction of the rhone 3 along dewatering rod 2 are sequentially distributed;Due to the presence of rhone 3, and rhone is in water squeezing
When for collodion head extruding force it is almost nil, and then water squeezing structure to collodion head carry out squeezing action area reduce;Same
In the case of pressure, the size of pressure and the size of contact area are inversely proportional;Then in flushing operation, dewatering rod 2 is for glue
The local pressure of cotton head is larger, and the extruding for collodion head is more strong so that water squeezing is more clean;Secondly, during water squeezing,
Water can be flowed out by rhone 3, and draining is more quick, accelerate water squeezing speed;During draining, air present in collodion head
It can quickly be discharged by the rhone of both sides, further reduce the resistance that is subject in flushing operation, feel is more preferable during water squeezing, carries
High water squeezing efficiency.
Specifically, the dewatering rod is made up of plastics, the connecting rod is metallic rod, more firmly, is hardly damaged;It is described
The cross section of connecting rod 1 and dewatering rod is provided in round, and certainly, may also be configured to the other shapes such as square;Preferably, it is described to squeeze
Water bar is arranged to 3, including two end dewatering rods 21 and a middle part dewatering rod 22, two anticreeps of end dewatering rod 21 coordinate
In in connecting rod, for middle part dewatering rod 22 then between both ends dewatering rod 21, middle part dewatering rod 22 can be 1 turn with respect to connecting rod
It is dynamic, it can also be installed in connecting rod;Preferably, the 21 direct fixed cover of end dewatering rod is in the connecting rod 1, respectively
Positioned on the position at the both ends of connecting rod 1;In other embodiment, as shown in figure 4, end dewatering rod 21 also can relative connection
Bar 1 rotates, and in order to prevent dewatering rod from being dropped out from connecting rod 1, can be bolted with an end cap 9, the end respectively at the both ends of connecting rod
The diameter of lid 9 should be more than the diameter of the through hole on end dewatering rod 21, and then effectively prevent end dewatering rod 21 from connecting rod
On drop out;In other embodiment, also annular protrusion can be set close to the position at the both ends of connecting rod, in both ends dewatering rod
Annular groove is set on 21 inner surfaces, when the annular protrusion is caught in annular groove, you can the axle of limitation end dewatering rod 21
To movement, both ends dewatering rod 21 is by after fixation, you can prevents so dewatering rod drops out.In other embodiment, the middle part
Dewatering rod may be configured as multiple, all can be rotated relative to connecting rod, also can only part it is rotatable;Certainly, also can be by dewatering rod
2 are only arranged to, 2 dewatering rods are connected in connecting rod 1, or 2 dewatering rods are rotatable, by setting anti-falling piece to prevent
Dewatering rod drops out.
Preferably, the spacing between the adjacent row tank 43 is d1, the length of rhone 43 is d2, and the d1 is more than
D2 length, as shown in figure 1, the d1 can be arranged into 18-22mm, reach preferable water squeezing effect;
Several experimental datas are simply enumerated below:
D1 is 15mm, when d2 is 7mm:After flushing operation, 60%-70% water is extruded on collodion head;
D1 is 18mm, when d2 is 7mm:After flushing operation, 75%-82% water is extruded on collodion head;
D1 is 20mm, when d2 is 7mm:After flushing operation, 85%-85% water is extruded on collodion head;
D1 is 20mm, when d2 is 8mm:After flushing operation, 80%-92% water is extruded on collodion head;
D1 is 22mm, when d2 is 8mm:After flushing operation, 80%-88% water is extruded on collodion head;
D1 is 25mm, when d2 is 8mm:After flushing operation, 60%-70% water is extruded on collodion head;
It can be seen from above-mentioned experimental result:When d1 is arranged to 18-22mm, more than 80% water can be discharged on collodion head;
Reach good water squeezing effect;In other embodiment, d1 value may be alternatively provided as smaller, and width and ball or disk are similar
Seemingly, as shown in Figure 2;
Or it is preferable, the d2 is arranged to 6-9mm, reaches preferable water squeezing effect;
Several experimental datas are simply enumerated below:
D1 is 15mm, when d2 is 5mm:After flushing operation, 60%-65% water is extruded on collodion head;
D1 is 18mm, when d2 is 6mm:After flushing operation, 75%-82% water is extruded on collodion head;
D1 is 18mm, when d2 is 8mm:After flushing operation, 80%-90% water is extruded on collodion head;
D1 is 18mm, when d2 is 9mm:After flushing operation, 85%-92% water is extruded on collodion head;
D1 is 20mm, when d2 is 9mm:After flushing operation, 90%-95% water is extruded on collodion head;
D1 is 20mm, when d2 is 12mm:After flushing operation, 60%-65% water is extruded on collodion head;
It can be seen from above-mentioned experimental result:When the d2 is arranged to 6-9mm, more than 80% water can be arranged on collodion head
Go out;Reach good water squeezing effect;
Further, as shown in figure 1, the d1 can be arranged to 18-22mm, the d2 is arranged to 6-9mm, reaches preferable
Water squeezing effect;
Several experimental datas are simply enumerated below:
D1 is 15mm, when d2 is 5mm:After flushing operation, 60-65% water is extruded on collodion head;
D1 is 18mm, when d2 is 6mm:After flushing operation, 65%-75% water is extruded on collodion head;
D1 is 18mm, when d2 is 8mm:After flushing operation, 80%-85% water is extruded on collodion head;
D1 is 18mm, when d2 is 9mm:After flushing operation, 82-88% water is extruded on collodion head;
D1 is 20mm, when d2 is 6mm:After flushing operation, 85%-92% water is extruded on collodion head;
D1 is 20mm, when d2 is 8mm:After flushing operation, 88%-95% water is extruded on collodion head;
D1 is 20mm, when d2 is 9mm:After flushing operation, 80%-85% water is extruded on collodion head;
D1 is 22mm, when d2 is 9mm:After flushing operation, 70%-82% water is extruded on collodion head;
D1 is 25mm, when d2 is 10mm:After flushing operation, 65%-75% water is extruded on collodion head;
It can be seen from above-mentioned experimental result:When d1 is arranged to 18-22mm, and d2 is arranged to 6-9mm, the draining of collodion head
Amount can reach more than 80%, reach good water squeezing effect;And it is preferable, when d1 is arranged to 20mm, and d2 is arranged to 8mm, glue
The displacement of cotton head can reach 95%, and displacement is maximum, basically reaches extracting completely for collodion head;And in above-mentioned length value
Water squeezing structure in section and under the cooperation of rhone, during long-term use, collodion head is not easy, deformed damaged, makes
Use long lifespan;Drawn simultaneously after many experiments, the water squeezing structure under the span is combining mop progress water squeezing behaviour
When making, required active force can save 30% compared to the water squeezing structure outside the span, and operation is very laborsaving, and strength is smaller
Women old man mop can be extracted completely.
Further, the dewatering rod 2 is provided with anti-slip structure, specifically, the anti-slip structure includes multiple strips
Groove 24, be preferably arranged to 13-6, these grooves 24 be located at the outer surface of dewatering rod 2, and length and the length of dewatering rod 2
Degree is arranged to equal so that and the both ends of groove 24 can be placed on the both ends of dewatering rod 2, i.e., the both ends of groove 24 can be that opening is set,
During water squeezing, water can flow out from the opening at both ends;The cross-sectional area of groove 24 be square structure set, may also be configured to certainly U-shaped,
The other structures such as triangle;The groove 24 passes through the setting of groove 24 around the peripheral direction gap distribution of dewatering rod, it is possible to increase
Frictional force between dewatering rod 2 and collodion head, in the case where contact area reduces, effectively prevent skidding;It is preferred that
, the groove 24 carried out chamfer angle technique, and preferably rounded corner, and then the position corresponding to the outer surface side of dewatering rod 2
On tooth it is more smooth, will not be excessively sharp, and then collodion head is not easy to be scratched;, can also be by anti-slip in other embodiment
Structure setting is along circumferentially distributed tooth, salient point or some convex tendons on its outer surface of dewatering rod 2 etc., or directly by dewatering rod
2 outer surface is arranged to rough external surface, such as matte surface.
As shown in figure 5, the embodiment is a kind of collodion mop, it has water squeezing structure described above;The collodion mop
Including collodion head 4, water squeezing frame 5, mop rod 6, handle 7 and the movable part being connected with collodion head;The water squeezing symmetrical configuration
It is arranged on the left and right sides position of the water squeezing frame;The water squeezing frame 5 includes water squeezing hack lever body 51 and water squeezing support body 52, mop
The upper end of bar 6 is nested with water squeezing hack lever body 51 and is connected together, and can be mutually connected by screw 100;The movable part includes activity
Bar 81 and the clamp bar 82 located at motion bar bottom, the clamp bar 82 can be connected with the collodion head 4, the upper end of motion bar can penetrate to
In water squeezing frame 5, and gap distribution has multiple teeth along its length on motion bar;The handle 7 is hinged on water squeezing frame 5, its end
Portion is set for circular or semicircular structure, and is provided with tooth;Tooth on handle is meshed with the tooth on motion bar, and then pulls
Dynamic handle 7 can drive motion bar to move up and down, and then drive and moved up on collodion head 4 in rhone, realize water squeezing;Certainly,
In other embodiment, motion bar and tooth can be also not provided with, drives collodion head to move by two or a pull bar, pull bar one
End connection collodion head, other end connection handle, handle, which is pulled, to drive collodion head to move up, and carry out water squeezing.
Embodiment 2
As shown in figure 5, a kind of collodion mop, the collodion mop include collodion head 4, water squeezing frame 5, follower, mop rod 6,
Handle 7 and the movable part being connected with collodion head;The water squeezing frame 5 includes water squeezing hack lever body 51 and water squeezing support body 52, mop
The upper end of bar 6 is nested with water squeezing hack lever body 51 and is connected together, and can be mutually connected by screw 100;The movable part includes activity
Bar 81 and the clamp bar 82 located at motion bar bottom, the clamp bar 82 can be connected with the collodion head 4, the upper end of motion bar can penetrate to
In water squeezing frame 5, and gap distribution has multiple teeth along its length on motion bar;The handle 7 is hinged on water squeezing frame 5, its end
Portion is set for circular or semicircular structure, and is provided with tooth;Tooth on handle is meshed with the tooth on motion bar, and then pulls
Dynamic handle 7 can drive motion bar to move up and down, and then drive and moved up on collodion head 4 in rhone, realize water squeezing;Certainly,
In other embodiment, motion bar and tooth can be also not provided with, drives collodion head to move by two or a pull bar, pull bar one
End connection collodion head, other end connection handle, handle, which is pulled, to drive collodion head to move up, and carry out water squeezing.
The follower is symmetricly set on the left and right sides position of the water squeezing frame, and then two followers that left and right is adjacent
Between formed can water squeezing space, when collodion head is pulled up into water squeezing space, follower can be extruded collodion head, by glue
Water extrusion on cotton head, realizes the water squeezing of mop;As Figure 1-4, the water squeezing structure includes connecting rod 1 and is sheathed on
Dewatering rod 2 in connecting rod 1, gap is provided with multiple rhones 3 on the lateral wall of the dewatering rod 2, is preferably arranged to annular groove,
Length direction of the rhone 3 along dewatering rod 2 is sequentially distributed;Due to the presence of rhone 3, and rhone in water squeezing for
The extruding force of collodion head is almost nil, and then water squeezing structure carries out the area reduction of squeezing action to collodion head;In equal pressure
In the case of, the size of pressure and the size of contact area are inversely proportional;Then in flushing operation, dewatering rod 2 is for collodion head
Local pressure is larger, and the extruding for collodion head is more strong so that water squeezing is more clean;Secondly, during water squeezing, water can be by
Rhone 3 flows out, and draining is more quick, accelerates water squeezing speed;During draining, air present in collodion head can also lead to
The rhone for crossing both sides is quickly discharged, and further reduces the resistance that is subject in flushing operation, and feel is more preferable during water squeezing, improves water squeezing
Efficiency.
Specifically, the dewatering rod is made up of plastics, the connecting rod is metallic rod, more firmly, is hardly damaged;It is described
The cross section of connecting rod 1 and dewatering rod is provided in round, and certainly, may also be configured to the other shapes such as square;Preferably, it is described to squeeze
Water bar is arranged to 3, including two end dewatering rods 21 and a middle part dewatering rod 22, two anticreeps of end dewatering rod 21 coordinate
In in connecting rod, for middle part dewatering rod 22 then between both ends dewatering rod 21, middle part dewatering rod 22 can be 1 turn with respect to connecting rod
It is dynamic, it can also be installed in connecting rod;Preferably, the 21 direct fixed cover of end dewatering rod is in the connecting rod 1, respectively
Positioned on the position at the both ends of connecting rod 1;In other embodiment, as shown in figure 4, end dewatering rod 21 also can relative connection
Bar 1 rotates, and in order to prevent dewatering rod from being dropped out from connecting rod 1, can be bolted with an end cap 9, the end respectively at the both ends of connecting rod
The diameter of lid 9 should be more than the diameter of the through hole on end dewatering rod 21, and then effectively prevent end dewatering rod 21 from connecting rod
On drop out;In other embodiment, also annular protrusion can be set close to the position at the both ends of connecting rod, in both ends dewatering rod
Annular groove is set on 21 inner surfaces, when the annular protrusion is caught in annular groove, you can the axle of limitation end dewatering rod 21
To movement, both ends dewatering rod 21 is by after fixation, you can prevents so dewatering rod drops out.In other embodiment, the middle part
Dewatering rod may be configured as multiple, all can be rotated relative to connecting rod, also can only part it is rotatable;Certainly, also can be by dewatering rod
2 are only arranged to, 2 dewatering rods are connected in connecting rod 1, or 2 dewatering rods are rotatable, by setting anti-falling piece to prevent
Dewatering rod drops out.
Preferably, the d1 is more than the length of the rhone, as shown in figure 1, the d1 can be arranged into 18-
22mm, reach preferable water squeezing effect;
Several experimental datas are simply enumerated below:
D1 is 15mm, when d2 is 7mm:After flushing operation, 60%-70% water is extruded on collodion head;
D1 is 18mm, when d2 is 7mm:After flushing operation, 75%-82% water is extruded on collodion head;
D1 is 20mm, when d2 is 7mm:After flushing operation, 85%-85% water is extruded on collodion head;
D1 is 20mm, when d2 is 8mm:After flushing operation, 80%-92% water is extruded on collodion head;
D1 is 22mm, when d2 is 8mm:After flushing operation, 80%-88% water is extruded on collodion head;
D1 is 25mm, when d2 is 8mm:After flushing operation, 60%-70% water is extruded on collodion head;
It can be seen from above-mentioned experimental result:When d1 is arranged to 18-22mm, more than 80% water can be discharged on collodion head;
Reach good water squeezing effect;In other embodiment, d1 value may be alternatively provided as smaller, and width and ball or disk are similar
Seemingly, as shown in Figure 2;
Or it is preferable, the d2 is arranged to 6-9mm, reaches preferable water squeezing effect;
Several experimental datas are simply enumerated below:
D1 is 15mm, when d2 is 5mm:After flushing operation, 60%-65% water is extruded on collodion head;
D1 is 18mm, when d2 is 6mm:After flushing operation, 75%-82% water is extruded on collodion head;
D1 is 18mm, when d2 is 8mm:After flushing operation, 80%-90% water is extruded on collodion head;
D1 is 18mm, when d2 is 9mm:After flushing operation, 85%-92% water is extruded on collodion head;
D1 is 20mm, when d2 is 9mm:After flushing operation, 90%-95% water is extruded on collodion head;
D1 is 20mm, when d2 is 12mm:After flushing operation, 60%-65% water is extruded on collodion head;
It can be seen from above-mentioned experimental result:When the d2 is arranged to 6-9mm, more than 80% water can be arranged on collodion head
Go out;Reach good water squeezing effect;
Further, the d1 is more than the length of the rhone, as shown in figure 1, the d1 can be arranged to 18-22mm,
The d2 is arranged to 6-9mm, reaches preferable water squeezing effect;
Several experimental datas are simply enumerated below:
D1 is 15mm, when d2 is 5mm:After flushing operation, 60-65% water is extruded on collodion head;
D1 is 18mm, when d2 is 6mm:After flushing operation, 65%-75% water is extruded on collodion head;
D1 is 18mm, when d2 is 8mm:After flushing operation, 80%-85% water is extruded on collodion head;
D1 is 18mm, when d2 is 9mm:After flushing operation, 82-88% water is extruded on collodion head;
D1 is 20mm, when d2 is 6mm:After flushing operation, 85%-92% water is extruded on collodion head;
D1 is 20mm, when d2 is 8mm:After flushing operation, 88%-95% water is extruded on collodion head;
D1 is 20mm, when d2 is 9mm:After flushing operation, 80%-85% water is extruded on collodion head;
D1 is 22mm, when d2 is 9mm:After flushing operation, 70%-82% water is extruded on collodion head;
D1 is 25mm, when d2 is 10mm:After flushing operation, 65%-75% water is extruded on collodion head;
It can be seen from above-mentioned experimental result:When d1 is arranged to 18-22mm, and d2 is arranged to 6-9mm, the draining of collodion head
Amount can reach more than 80%, reach good water squeezing effect;And it is preferable, when d1 is arranged to 20mm, and d2 is arranged to 8mm, glue
The displacement of cotton head can reach 95%, and displacement is maximum, basically reaches extracting completely for collodion head;And in above-mentioned length value
Water squeezing structure in section and under the cooperation of rhone, during long-term use, collodion head is not easy, deformed damaged, makes
Use long lifespan;Drawn simultaneously after many experiments, the water squeezing structure under the span is combining mop progress water squeezing behaviour
When making, required active force can save 30% compared to the water squeezing structure outside the span, and operation is very laborsaving, and strength is smaller
Women old man mop can be extracted completely.
Further, the dewatering rod 2 is provided with anti-slip structure, specifically, the anti-slip structure includes multiple strips
Groove 24, be preferably arranged to 13-6, these grooves 24 be located at the outer surface of dewatering rod 2, and length and the length of dewatering rod 2
Degree is arranged to equal so that and the both ends of groove 24 can be placed on the both ends of dewatering rod 2, i.e., the both ends of groove 24 can be that opening is set,
During water squeezing, water can flow out from the opening at both ends;The cross-sectional area of groove 24 be square structure set, may also be configured to certainly U-shaped,
The other structures such as triangle;The groove 24 passes through the setting of groove 24 around the peripheral direction gap distribution of dewatering rod, it is possible to increase
Frictional force between dewatering rod 2 and collodion head, in the case where contact area reduces, effectively prevent skidding;It is preferred that
, the groove 24 carried out chamfer angle technique, and preferably rounded corner, and then the position corresponding to the outer surface side of dewatering rod 2
On tooth it is more smooth, will not be excessively sharp, and then collodion head is not easy to be scratched;, can also be by anti-slip in other embodiment
Structure setting is along circumferentially distributed tooth, salient point or some convex tendons on its outer surface of dewatering rod 2 etc., or directly by dewatering rod
2 outer surface is arranged to rough external surface, such as matte surface.
Preferably, as seen in figs. 5-6, the follower is arranged to 4 rows, is symmetrically arranged on water squeezing support body 52 or so two-by-two
On both sides, i.e., there are two row's followers, and two groups of followers are from top to bottom sequentially distributed and squeezed on the same side of water squeezing support body 52
On water support body 52;There are two linking arms 521 on the water squeezing support body 52, there is upper and lower two bayonet sockets 522 on linking arm 521, enter
And the connecting rod 1 of follower can be caught in the opening, and then it is limited on water squeezing frame;Connecting rod 1 can be with respect to bayonet socket 522
Rotated, then in water squeezing, connecting rod 1 can drive all water squeezing sections 2 thereon to rotate;In water squeezing, two companies
Water squeezing section 2 on extension bar 1 is extruded collodion head simultaneously, and water squeezing effect is more preferable;Preferably, the two rows follower
Rhone 3 is interlaced setting, is come specifically, the position of the water squeezing section 2 on two rows follower is just interlaced,
And then causing the position of the rhone 3 on two rows follower is also interlaced to come, the rhone 3 of bottom follower will not
For rhone 3 with top follower on same position, position corresponding to the rhone 3 of usual bottom follower is top water squeezing
Position where rod water squeezing section 2, then collodion head same position will not be extruded always, water squeezing is more filled during water squeezing
Point;And it is not easy to be scratched after long-term use, service life is longer.
Obviously, described embodiment is only part of the 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, it should all belong to the scope of the utility model protection.
Claims (10)
- A kind of 1. water squeezing structure for mop, it is characterised in that:Including connecting rod(1)Be sheathed on connecting rod(1)On squeeze Water bar(2), the dewatering rod(2)Gap is provided with multiple rhones on lateral wall(3), the rhone(3)Along dewatering rod(2)'s Length direction is sequentially distributed.
- A kind of 2. water squeezing structure for mop according to claim 1, it is characterised in that:The rhone(3)For ring Shape groove.
- A kind of 3. water squeezing structure for mop according to claim 1, it is characterised in that:The adjacent row tank(3) Between spacing d1 be 18-22mm.
- A kind of 4. water squeezing structure for mop according to claim 1, it is characterised in that:The rhone(3)Length Degree d2 is 6-9mm.
- A kind of 5. water squeezing structure for mop according to claim 1, it is characterised in that:The dewatering rod(2)Extremely Small part outer surface is provided with anti-slip structure.
- 6. a kind of water squeezing labour-saving collodion mop, including collodion head(4), water squeezing frame(5)And located at water squeezing frame(5)On water squeezing knot Structure;It is characterized in that:The water squeezing structure includes connecting rod(1)Be sheathed on connecting rod(1)On dewatering rod(2), it is described to squeeze Water bar(2)Gap is provided with multiple rhones on lateral wall(3), the rhone(3)Along dewatering rod(2)Length direction divide successively Cloth.
- A kind of 7. water squeezing labour-saving collodion mop according to claim 6, it is characterised in that:The rhone(3)For ring Shape groove.
- A kind of 8. water squeezing labour-saving collodion mop according to claim 6, it is characterised in that:The adjacent row tank(3) Between spacing d1 be 18-22mm, the rhone(3)Length d2 be 6-9mm.
- 9. a kind of water squeezing labour-saving collodion mop, including collodion head(4), water squeezing frame(5)And it is respectively arranged on described water squeezing frame or so At least two row's followers on both sides;It is characterized in that:The follower includes connecting rod(1)Be sheathed on connecting rod(1)On Dewatering rod(2), the dewatering rod(2)Gap is provided with multiple rhones on lateral wall(3), the rhone(3)Along dewatering rod (2)Length direction be sequentially distributed;Rhone on upper row's follower and the rhone on lower row's follower(3)To be mutual It is staggered.
- A kind of 10. water squeezing labour-saving collodion mop according to claim 9, it is characterised in that:The adjacent row tank(3) Between spacing d1 be 18-22mm, the rhone(3)Length d2 be 6-9mm.
Applications Claiming Priority (2)
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CN2016212306972 | 2016-11-16 | ||
CN201621230697 | 2016-11-16 |
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Family Applications (7)
Application Number | Title | Priority Date | Filing Date |
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CN201621290113.0U Active CN206491771U (en) | 2016-11-16 | 2016-11-29 | Socket type collodion mop |
CN201621290024.6U Active CN206491762U (en) | 2016-11-16 | 2016-11-29 | A kind of light collodion mop of water squeezing |
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 |
Family Applications Before (3)
Application Number | Title | Priority Date | Filing Date |
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CN201621290113.0U Active CN206491771U (en) | 2016-11-16 | 2016-11-29 | Socket type collodion mop |
CN201621290024.6U Active CN206491762U (en) | 2016-11-16 | 2016-11-29 | A kind of light collodion mop of water squeezing |
CN201621397881.6U Active CN207152548U (en) | 2016-11-16 | 2016-12-20 | The mop drive mechanism and collodion mop of a kind of rapid operation |
Family Applications After (3)
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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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CN114983304A (en) * | 2018-12-06 | 2022-09-02 | 西安佳品创意设计有限公司 | Mop with handle |
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
- 2016-11-29 CN CN201621290113.0U patent/CN206491771U/en active Active
- 2016-11-29 CN CN201621290024.6U patent/CN206491762U/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
- 2016-12-27 CN CN201621448115.8U patent/CN207356047U/en active Active
- 2016-12-27 CN CN201621446618.1U patent/CN207101236U/en active Active
- 2016-12-27 CN CN201621446642.5U patent/CN207286013U/en active Active
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CN207286013U (en) | 2018-05-01 |
CN207356047U (en) | 2018-05-15 |
CN207101236U (en) | 2018-03-16 |
CN206491771U (en) | 2017-09-15 |
CN207152548U (en) | 2018-03-30 |
CN206491762U (en) | 2017-09-15 |
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