CN207286013U - A kind of water squeezing labour-saving collodion mop - Google Patents

Abstract

The utility model discloses a kind of water squeezing labour-saving collodion mop, including water squeezing frame, water squeezing structure, the movable part that can be moved up and down and the collodion head being connected with movable part, at least two rows of water squeezing structures are respectively equipped with the water squeezing frame left and right sides；The water squeezing structure includes metallic rod and 3 dewatering rods being sheathed in the metallic rod；Gap is equipped 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 work efficiency is high.

Description

A kind of water squeezing labour-saving collodion mop

Technical field

Utility model belongs to burnisher technical field, more particularly, to a kind of water squeezing labour-saving collodion mop.

Background technology

Water squeezing labour-saving collodion mop is the common 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 rod, tie rod and two ball bars, resistance is small, and flushing operation is laborsaving.But the mop under this kind of structure, Its ball bar is more difficult when being installed with water squeezing frame, and is easily worn between ball and water squeezing frame, and service life is not grown；Its It is secondary, mutually can freely it be rolled between ball, sync rates during rolling are low, and part ball occurs often and has rolled, and part is rolled The phenomenon that pearl does not roll also, the ball not rolled cause cleaning head larger frictional resistance so that water squeezing is more laborious.

Utility model content

The utility model in order to overcome the deficiencies of the prior art and provide it is a kind of so that mop flushing operation it is laborsaving, use The water squeezing labour-saving collodion mop of long lifespan.

To achieve these goals, the utility model uses following technical scheme：A kind of water squeezing labour-saving collodion mop, bag Include water squeezing frame, water squeezing structure, the movable part that can be moved up and down and the collodion head being connected with movable part, the water squeezing frame left and right sides On be respectively equipped with least two rows of water squeezing structures；The water squeezing structure includes metallic rod and 3 water squeezings being sheathed in the metallic rod Bar；Gap is equipped with multiple rhones on the dewatering rod lateral wall, and the rhone is sequentially distributed along the length direction of dewatering rod. The dewatering rod of the utility model is arranged to 3, has gap, the gap between adjacent two dewatering rod after being set on dewatering rod In metallic rod can expose, you can with water squeezing frame be connected, assembling it is more convenient；And matched somebody with somebody by metallic rod and water squeezing frame Connection is closed, is not susceptible to wear between the two, service life is longer；Secondly, during water squeezing, dewatering rod integrally rotates, and compares Mutual free rolling situation, the frictional force between dewatering rod and collodion head can reduce nearly 30% between ball, high degree Reduction frictional resistance, water squeezing is more laborsaving；Also, water squeezing groove is molded directly within dewatering rod so that dewatering rod generally one Body formed, manufacture is more easy, and the manufacture of relatively independent ball, reduces multiple tracks manufacturing process so that processing duration obtains pole The shortening of big degree, production efficiency improve at least 40%；And setting is integrally formed due to dewatering rod, it can avoid occurring such as ball As the situation mutually colliding and extrude, there is no the situation of crimp, spoilage reduces by 80%, further prolongs the service life； Meanwhile dewatering rod will not shake in water squeezing, ensure to carry out collodion head in water squeezing good extruding, water squeezing effect is more It is good；

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 collodion head squeezing action 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 are 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 will be partly 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 slipping phenomenon, dewatering rod can realize collodion head good extruding, while the effect of its extruding Power is also more balanced, and water squeezing effect is good.

Further, the dewatering rod in the water squeezing structure in the middle part of the metallic rod can the realization rolling of opposing metallic bar It is dynamic；With requiring to reduce, the accuracy when dewatering rod at middle part is perforated reduces the card of dewatering rod and metallic rod for middle part, is not easy There are scrap products, improve production qualification rate；Specifically, since dewatering rod is 3, two positioned at 41 both ends of metallic rod are two The dewatering rod at end, and the dewatering rod between the dewatering rod at both ends is the dewatering rod at middle part.

Further, the metallic rod is rotatably arranged on the water squeezing frame；Metallic rod can squeeze relatively in water squeezing Water frame rotates, and then dewatering rod thereon can be driven together to rotate, and effectively reduces the frictional resistance between dewatering rod and collodion head, Flushing operation is more laborsaving.

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 There are rhone, water squeezing effect is more preferable.

Preferably, the spacing between the adjacent row sink is 18-22mm；When the length of water squeezing section is in this kind of value range 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 of the rhone is arranged to 6-9mm；When the length of rhone is in this kind of value range, 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, right It is more clean in the water squeezing of collodion head；And particularly in the case of water squeezing section and rhone are matched, water squeezing structure is overall Water squeezing effect for collodion head is best, compares other length mated conditions, at least 30% water squeezing amount can be improved, for collodion The water squeezing of head is more clean；And under this kind of structure, collodion head long-time service will not also deform damage, service life length.

Further, at least part outer surface of the dewatering rod is equipped with anti-slip structure；Since ball surface is smooth, Easily skid 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, prevents slipping phenomenon, water squeezing effect is more It is good；Furthermore water squeezing rod outer surface need not carry out smooth processing, and the smooth situation of counter ball, reduces at least two procedures, add Man-hour length shortens so that production efficiency improves at least 60%.

Or it is preferable, the water squeezing rod outer surface is equipped with some salient points or tooth to form the anti-slip structure；Salient point Can directly it be integrally formed with dewatering rod when dewatering rod is processed with tooth, manufacture is very convenient, and the structure of salient point and tooth is more close Collection, the effect of increasing friction force is more obvious, and skidding rate is low.

Or it is preferable, the dewatering rod has rough external surface to form the anti-slip structure, can be to the outer of dewatering rod Surface is directly processed, such as frosted, and difficulty of processing is low, and staple expends excess stock, more energy conservation and environmental protection.

Or it is preferable, the water squeezing rod outer surface is equipped with some anti-slip tanks to form the anti-slip structure, this is anti-skidding Groove is sequentially distributed along the circumferential direction of the dewatering rod；Collodion head can be partly caught in anti-slip tank during water squeezing, contact area increase so that Frictional force is greatly increased, good antiskid effect, and shaping, the manufacture of groove body are relatively easy to.

Or it is preferable, the water squeezing rod outer surface is equipped with some convex ribs to form the anti-slip structure, and the convex ribs are along institute The circumferential direction for stating dewatering rod is sequentially distributed；The setting of convex ribs, increases the contact area between dewatering rod and collodion head so that friction Power is greatly increased, good antiskid effect；And convex ribs will not cause the scratch of collodion head, the service life length of cotton head.

In conclusion the utility model has the following advantages：Metallic rod is not susceptible to wear with water squeezing frame, service life It is long；The frictional resistance that collodion head is subject to during water squeezing is minimum, and flushing operation is more laborsaving；The pressure action that collodion head is subject to Greatly, collodion head water squeezing is clean, and water squeezing work efficiency is high.

Brief description of the drawings

Fig. 1 is the structure diagram of collodion mop.

Fig. 2 is the structure diagram one of water squeezing structure.

Fig. 3 is the structure diagram two of water squeezing structure.

Fig. 4 is the sectional view of Fig. 1.

Fig. 5 is the structure diagram of another embodiment of water squeezing structure.

Fig. 6 is the cross-sectional view one of dewatering rod.

Fig. 7 is the cross-sectional view two of dewatering rod.

Fig. 8 is the structure diagram of water squeezing frame.

Embodiment

It is real below in conjunction with the utility model in order to make those skilled in the art be better understood from the utility model The attached drawing in example is applied, clear, complete description is carried out to the technical scheme in the embodiment of the utility model.

As shown in Figs. 1-5, a kind of collodion mop, the collodion mop include collodion head 2, water squeezing frame 3, water squeezing structure 4, mop Bar 1, handle 7 and the movable part being connected with collodion head；The water squeezing frame 3 includes water squeezing hack lever body 31 and water squeezing frame body 32, The upper end of mop rod 1 is nested with water squeezing hack lever body 31 and is connected together, and can be mutually connected by screw 100；The movable part 5 includes Motion bar 51 and the clamp bar 52 arranged on motion bar lower part, the clamp bar 52 can be connected with the collodion head 2, and the upper end of motion bar can be worn Enter to water squeezing frame 3, and gap distribution there are multiple teeth along its length on motion bar；The handle 7 is hinged on water squeezing frame 3, Its end is set for circular or semicircular structure, and is provided with tooth；Tooth on handle is meshed with the tooth on motion bar, into And pulling handle 7 can drive motion bar to move up and down, and then drive and moved up on collodion head 2 in spacing, realize water squeezing；When So, in other embodiment, motion bar and tooth can be also not provided with, drives collodion head to move by two or a pull rod, is drawn Bar one end connects collodion head, and other end connection handle, handle, which is pulled, to drive collodion head to move up, and carry out water squeezing.

The water squeezing symmetrical configuration is arranged on the left and right sides position of the water squeezing frame, and then two water squeezings that left and right is adjacent Between structure formed can water squeezing space, when collodion head is pulled up into water squeezing space, water squeezing structure can squeeze collodion head Pressure, the water on collodion head is extruded, realizes the water squeezing of mop；As shown in Figure 2-5, the water squeezing structure includes metallic rod 41 With 3 dewatering rods 42 being sheathed in metallic rod 41, gap is equipped with multiple rhones 43 on the dewatering rod 42, is preferably arranged to Annular groove, the rhone 43 are sequentially distributed along the length direction of dewatering rod 42；Due to the presence of rhone 43, and rhone exists The water squeezing of extruding force during to(for) collodion head is almost nil, and then water squeezing structure carries out collodion head the area reduction of squeezing action； In the case of equal pressure, the size of pressure and the size of contact area are inversely proportional；Then in flushing operation, dewatering rod 42 is right Larger in the local pressure of collodion head, the extruding for collodion head is more strong so that water squeezing is more clean；Secondly, water squeezing Cheng Zhong, water can be flowed out by rhone 43, and draining is more quick, accelerate water squeezing speed；During draining, present in collodion head Air can also quickly be discharged by the rhone of both sides, further reduce the resistance that is subject in flushing operation, feel during water squeezing More preferably, water squeezing efficiency is improved.

Specifically, the dewatering rod is made of plastics, the metallic rod is metallic rod, more firmly, is hardly damaged；It is described The cross section of metallic rod 41 and dewatering rod is provided in round, and certainly, may also be configured to the other shapes such as square；The dewatering rod 42 On the position at wherein 2 both ends for being arranged on the metallic rod, another dewatering rod 42 is arranged between the two dewatering rods, It is located just on the medium position of the metallic rod 41；Dewatering rod 42 in end positions and the dewatering rod 42 on medium position it Between be respectively provided with gap so that metallic rod 41 can be connected with the bayonet；42 anticreep of dewatering rod in end positions is matched with gold Belong on bar, the dewatering rod 42 on medium position is then located between the dewatering rod 42 in end positions, the dewatering rod on medium position 42 can opposing metallic bar 41 rotate, can also be installed in metallic rod；Preferably, the dewatering rod 42 on the end position is directly solid Surely it is sheathed in the metallic rod 41, is located at respectively on the position at 41 both ends of metallic rod, the dewatering rod 42 on medium position Can opposing metallic bar 41 rotate；In other embodiment, as shown in figure 4, the dewatering rod 42 on end position also can opposing metallic Bar 41 rotates, and dewatering rod is dropped out from metallic rod 41 in order to prevent, can be bolted with an end cap 9 respectively at the both ends of metallic rod, should The diameter of end cap 9 should be more than the diameter of the through hole on the dewatering rod 42 on end position, and then effectively prevent on end position Dewatering rod 42 dropped out from metallic rod；In other embodiment, also annular can be set close to the position at the both ends of metallic rod Protrusion, sets annular groove on 42 inner surface of dewatering rod in end positions, when the annular protrusion is caught in annular groove, The axial movement of the dewatering rod 42 on end position can be limited, the dewatering rod 42 in end positions is by after fixation, you can prevents So dewatering rod drops out.

Preferably, the spacing between the adjacent row sink 43 is d1, the length of rhone 43 is d2, and the d1 is more than The length of d2, as shown in Figure 1, the d1 can be arranged to 18-22mm, reaches preferable water squeezing effect；

Several experimental datas are simply enumerated below：

D1 is 15mm, when d2 is 7mm：After flushing operation, the water of 60%-70% is extruded on collodion head；

D1 is 18mm, when d2 is 7mm：After flushing operation, the water of 75%-82% is extruded on collodion head；

D1 is 20mm, when d2 is 7mm：After flushing operation, the water of 85%-85% is extruded on collodion head；

D1 is 20mm, when d2 is 8mm：After flushing operation, the water of 80%-92% is extruded on collodion head；

D1 is 22mm, when d2 is 8mm：After flushing operation, the water of 80%-88% is extruded on collodion head；

D1 is 25mm, when d2 is 8mm：After flushing operation, the water of 60%-70% is extruded on collodion head；

According to 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, the value of d1 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, the water of 60%-65% is extruded on collodion head；

D1 is 18mm, when d2 is 6mm：After flushing operation, the water of 75%-82% is extruded on collodion head；

D1 is 18mm, when d2 is 8mm：After flushing operation, the water of 80%-90% is extruded on collodion head；

D1 is 18mm, when d2 is 9mm：After flushing operation, the water of 85%-92% is extruded on collodion head；

D1 is 20mm, when d2 is 9mm：After flushing operation, the water of 90%-95% is extruded on collodion head；

D1 is 20mm, when d2 is 12mm：After flushing operation, the water of 60%-65% is extruded on collodion head；

According to 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, the water of 60-65% is extruded on collodion head；

D1 is 18mm, when d2 is 6mm：After flushing operation, the water of 65%-75% is extruded on collodion head；

D1 is 18mm, when d2 is 8mm：After flushing operation, the water of 80%-85% is extruded on collodion head；

D1 is 18mm, when d2 is 9mm：After flushing operation, the water of 82-88% is extruded on collodion head；

D1 is 20mm, when d2 is 6mm：After flushing operation, the water of 85%-92% is extruded on collodion head；

D1 is 20mm, when d2 is 8mm：After flushing operation, the water of 88%-95% is extruded on collodion head；

D1 is 20mm, when d2 is 9mm：After flushing operation, the water of 80%-85% is extruded on collodion head；

D1 is 22mm, when d2 is 9mm：After flushing operation, the water of 70%-82% is extruded on collodion head；

D1 is 25mm, when d2 is 10mm：After flushing operation, the water of 65%-75% is extruded on collodion head；

According to 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-time service, collodion head is not easy, deformed damaged, makes Use long lifespan；Drawn at the same time after many experiments, the water squeezing structure under the value range is combining mop progress water squeezing behaviour When making, required active force can save 30% compared to the water squeezing structure outside the value range, and operation is very laborsaving, and strength is smaller Women old man mop can be extracted completely.

Further, at least part outer surface of the dewatering rod 42 is equipped with anti-slip structure, specifically, the water squeezing Bar 42 is equipped with the groove 421 of multiple strips to form anti-slip structure, is preferably arranged to 13-6, these grooves 421 are arranged on 42 outer surface of dewatering rod, and length is arranged to equal with the length of dewatering rod 42 so that the both ends of groove 421 can be placed in crowded On the both ends of water bar 42, i.e., 421 both ends of groove can be that opening is set, and during water squeezing, water can be flowed out from the opening at both ends；Groove 421 Cross-sectional area be square structure set, may also be configured to the other structures such as U-shaped, triangle certainly；The groove 421 is around water squeezing The peripheral direction gap distribution of bar, passes through the setting of groove 421, it is possible to increase the frictional force between dewatering rod 42 and collodion head, In the case that contact area reduces, slipping phenomenon is effectively prevented；Preferably, which corresponds to 42 appearance of dewatering rod Face side carried out chamfer angle technique, and preferably rounded corner, and then tooth in this position is more smooth, will not be excessively sharp, And then collodion head is not easy to be scratched；In other embodiment, as shown in fig. 6, can also be set in 42 circumferential direction of dewatering rod or outer surface Tooth or the grade of salient point 422 are put to form anti-slip structure, or the outer surface of dewatering rod 42 is directly arranged to rough external surface i.e. Can, such as matte surface；As shown in fig. 7, also the convex ribs 423 equipped with multiple strips it can prevent beating to be formed on the dewatering rod 42 Slipped Clove Hitch structure.

Preferably, as shown in figure 8, the water squeezing structure setting is 4 groups, water squeezing frame body 52 or so is symmetrically arranged on two-by-two On both sides, i.e., there are two groups of water squeezing structures, and two groups of water squeezing structures are from top to bottom sequentially distributed on the same side of water squeezing frame body 52 On water squeezing frame body 52；There are two linking arms 521 on the water squeezing frame body 52, there is upper and lower two bayonets on linking arm 521 522, and then the metallic rod 411 of water squeezing structure can be caught in the opening, and then be limited on water squeezing frame；Metallic rod 411 It can be rotated relative to bayonet 522, then in water squeezing, metallic rod 411 can drive all dewatering rods 42 thereon to rotate； In water squeezing, the dewatering rod 42 in two metallic rods 411 at the same time extrudes collodion head, and water squeezing effect is more preferable；Preferably, institute The rhone 43 for stating two rows water squeezing structure is interlaced setting, specifically, the dewatering rod in two rows water squeezing structure 42 position is just interlaced to come, so that the position of the rhone 43 in two rows water squeezing structure is also interlaced Come, the rhone 43 of lower part water squeezing structure will not be with the rhone 43 of top water squeezing structure on same position, usual lower part The 43 corresponding position of rhone of water squeezing structure is the position where top water squeezing structure dewatering rod 42, then collodion head is in water squeezing Cheng Zhong, same position will not be extruded always, water squeezing is more abundant；And it is not easy to be scratched after long-time service, service life It is longer.

Obviously, described embodiment is only the part of the embodiment of the utility model, instead of all the embodiments. Based on the embodiment in the utility model, what those of ordinary skill in the art were obtained without making creative work Every other embodiment, should all belong to the scope of the utility model protection.

Claims (10)

1. a kind of water squeezing labour-saving collodion mop, including water squeezing frame (3), water squeezing structure (4), the movable part (5) that can be moved up and down And the collodion head (2) being connected with movable part, at left and right sides of the water squeezing frame (3) on be respectively equipped with least two rows of water squeezing structures (4)； It is characterized in that：The water squeezing structure (4) includes metallic rod (41) and 3 dewatering rods (42) being sheathed in the metallic rod；Institute State gap on dewatering rod (42) lateral wall and be equipped with multiple rhones (43), length side of the rhone (43) along dewatering rod (42) To being sequentially distributed.

A kind of 2. water squeezing labour-saving collodion mop according to claim 1, it is characterised in that：On the water squeezing structure (4) Dewatering rod (42) in the middle part of the metallic rod (41) can opposing metallic bar (41) realization rolling.

A kind of 3. water squeezing labour-saving collodion mop according to claim 1, it is characterised in that：The metallic rod (41) can roll Dynamic is arranged on the water squeezing frame (3).

A kind of 4. water squeezing labour-saving collodion mop according to claim 1, it is characterised in that：The adjacent row sink (43) Rhone d1 be 18-22mm, the length d2 of the rhone (43) is 6-9mm.

A kind of 5. water squeezing labour-saving collodion mop according to claim 1, it is characterised in that：The rhone (43) is ring Shape groove.

A kind of 6. water squeezing labour-saving collodion mop according to claim 1, it is characterised in that：The dewatering rod (42) is extremely Small part outer surface is equipped with anti-slip structure.

A kind of 7. water squeezing labour-saving collodion mop according to claim 6, it is characterised in that：Dewatering rod (42) appearance Face is equipped with some salient points or tooth to form the anti-slip structure.

A kind of 8. water squeezing labour-saving collodion mop according to claim 6, it is characterised in that：The dewatering rod (2) has Rough external surface is to form the anti-slip structure.

A kind of 9. water squeezing labour-saving collodion mop according to claim 6, it is characterised in that：Dewatering rod (42) appearance Face is equipped with some anti-slip tanks to form the anti-slip structure, which is sequentially distributed along the circumferential direction of the dewatering rod.

A kind of 10. water squeezing labour-saving collodion mop according to claim 6, it is characterised in that：The dewatering rod (42) is outside Surface is equipped with some convex ribs to form the anti-slip structure, which is sequentially distributed along the circumferential direction of the dewatering rod.