CN218870206U - Hand-washing-free cotton-tipped mop - Google Patents

Abstract

The utility model provides a cotton-tipped mop of exempting from to wash by hand, including mop pole and mop head, the mop pole with be equipped with traction element between the mop head, traction element includes cover, linkage strip and brace, the cover is established on the mop pole, the both ends of linkage strip respectively with the cover with the brace is connected, the mop head includes mop panel and cotton head, cotton overhead at least is equipped with two installation pieces, one of them installation piece with the brace is connected, the cover is followed when mop pole rebound, the brace drives one of them the installation piece removes, makes the extrusion dehydration of cotton head, the length of brace is 12CM-40CM. The utility model has the advantages that the independent water squeezing device is not arranged, and the cotton head is driven to deform and squeeze to dewater through the brace; the length of the brace is optimized, the mop head can be automatically driven to rotate upwards to a squeezing state through the movement of the handle sleeve, the linkage strip and the brace, and the squeezing advantage is achieved.

Description

Hand-washing-free cotton-tipped mop

Technical Field

The utility model relates to a clean field of house especially indicates a cotton-tipped mop exempts from to wash by hand.

Background

At present, the use of collodion mops in the market is continuously developing towards cleaning and convenience, and particularly the water squeezing function of the collodion mops is continuously improved. Such as folding and squeezing, squeezing on both sides. More recent water squeezing modes are more abundant, for example, CN107616764a discloses a cotton head mop, which comprises a mop rod and a cotton head, wherein the cotton head is movably connected at the lower end of the mop rod, the mop rod is provided with a squeezing device capable of sliding along the mop rod, and the cotton head can be rotated to the length direction thereof to be basically parallel to the mop rod and aligned with the water squeezing device. The Chinese patent document CN208988754U in the prior art discloses a foam cotton head mop water squeezing device, and an additional barrel is used as the water squeezing device, so that a water squeezing part is not required to be always arranged on a mop rod. However, when the water is squeezed, the water needs to be squeezed and slide from the foaming cotton head, so that the foaming cotton head is easy to damage and is not easy to squeeze water, and the use experience of a user is influenced.

CN110772190 discloses a more novel water squeezing method, which is to squeeze water through the sliding of the cotton head in the length direction, and a plurality of mounting blocks are fixed on the cotton head in an adhesive manner, so that the water squeezing operation can be realized by using another barrel or without using another barrel (which still needs to be abutted against). Such mops have subsequently been improved in a number of ways, including mops that are easy to clean (e.g., CN 211961947U), that can be individually wringed from both ends of a cotton swab, and the like.

Therefore, the cotton-head mop squeezed in length is popular in the market because the operation is simple and easy. There is still a need for further improvement in certain aspects such as how to facilitate wringing.

SUMMERY OF THE UTILITY MODEL

It is an object of the present invention to provide a hand-washing free cotton-tipped mop which solves the above problems.

In order to achieve the above object, the present invention provides a method for manufacturing a semiconductor device, comprising:

the mop is characterized in that the length of the brace is 12CM-40CM, when the mop sleeve moves upwards along the mop rod, the brace drives one of the installation blocks to move, and the distance between the two installation blocks is changed to realize squeezing and dewatering of the cotton head.

Preferably, a through hole for the brace to pass through is formed in the eccentric position of the mop panel, a supporting plate is arranged on the mop panel in the position, away from the direction of the mop rod, of the through hole, and at least part of the brace is arranged right above the supporting plate after being installed;

preferably, the mop panel is provided with a through hole through which the brace can pass, the through hole is positioned at the end part of the brace or at a position close to the end part in a mopping state, the mop panel is provided with a support plate at a position far away from the through hole in the direction of the mop rod, and at least part of the brace is positioned right above the support plate after being installed.

Preferably, the height of the mop panel at one side of the through hole close to the mop rod is higher than that of the supporting plate, and when the pull strip moves, the lower surface of the mop panel and the upper surface of the supporting plate are simultaneously attached to the pull strip or play a role in guiding. The pull strip penetrates through the through hole and then is respectively connected with the linkage strip and the cotton head in the vertical direction of the mop panel, the movement direction of the pull strip is jointly limited by the mop panel and the supporting plate, so that the pull strip can move in a basically straight direction or on a track, and jamming and deviation are avoided.

Preferably, the mop panel is provided with a first guide rail, the first guide rail extends along the length direction of the mop panel, the first guide rail comprises one or more first blocking walls, at least part of the first blocking walls are positioned between the mop panel and the supporting plate, or at least part of the first blocking walls are used for connecting the mop panel and the supporting plate. The first blocking wall can limit the moving direction of the pull strip, so that the moving deviation of the pull strip is avoided, and meanwhile, the strength of the mop panel and the supporting plate can be increased.

Preferably, the brace and the linkage bar are rotatably connected along a third axis, the third axis is located above the support plate, a first positioning groove is formed in the first blocking wall/between the first blocking wall and the support plate, and the first positioning groove is matched with the brace/the linkage bar/the third axis to position the brace, the linkage bar and the third axis in a mopping state.

Preferably, a limiting mechanism is arranged between the linkage strip and the mop panel and prevents the traction part from moving. Avoid when dragging ground state, brace, linkage strip and installation piece rock. The cotton head can be prevented from deforming and extruding due to the movement of the mounting block caused by the resistance of the ground when mopping the floor.

Preferably, an auxiliary wheel is arranged on the brace or between the brace and the linkage strip, and an arc surface matched with the mop rod is arranged on the surface of the auxiliary wheel.

Preferably, the mounting block comprises a fixing part and a guide part, the fixing part is fixedly connected with the cotton head, at least part of the fixing part protrudes out of the surface of the cotton head after the fixing part is fixedly connected with the cotton head, a second guide rail is arranged on the mop panel, and the guide part is matched with the second guide rail, so that the mounting block can move along the second guide rail to drive the cotton head to deform and extrude by itself;

preferably, the mounting block further comprises a squeezing portion, the squeezing portion is at least partially inserted into the cotton head or at least partially coincides with the cotton head when being mounted, and when the mounting block moves and drives the cotton head to deform, the squeezing portion can assist in squeezing the cotton head. The supplementary squeezing action of extrusion portion can make cotton head extrusion dehydration more thorough to, extrusion portion still can increase the area of contact between installation piece and the cotton head, avoids cotton head when deformation extrusion, and installation piece and cotton head break away from the damage.

Preferably, the periphery of the mop panel is provided with a flanging extending downwards, and the inner side of the flanging is fixedly connected with a guide strip; the guide strip is L-shaped, and the second guide rail is formed between the installed guide strip and the mop panel;

preferably, the guide strip is in a straight shape, a heightening pad is arranged on the mop panel, and the guide strip is arranged below the heightening pad, so that a gap is formed between the guide strip and the mop panel to form the second guide rail. The movement of the mounting block is guided.

Preferably, the brace is provided with a first step, a second step and a third step, the first step is fixedly connected with the mounting block through a quick-release structure, at least part of the surface of the mounting block is matched with the first step, so that when the brace is connected with the mounting block, the first step is attached to the mounting block, the second step is attached to or abutted against the mounting block, the brace can drive the mounting block to move, the third step extends along the length direction of the brace and is connected with the first step, the thickness of the third step is smaller than that of the first step, and at least part of the bottom surface of the third step is an inclined surface.

Preferably, when the cotton head moves and extrudes, the deformation amount of the upper end of the cotton head is larger than that of the lower end of the cotton head.

The beneficial effects of the utility model include: compared with the prior art, a device for squeezing, cleaning and wringing cotton heads is not required to be arranged on the mop rod, so that the mop is lighter as a whole; the length is shortened through the deformation of the cotton head to realize extrusion dehydration, so that the problems that the cotton head is extruded or twisted by foreign matters, and the length of the cotton head is lengthened and loosened can be avoided; the length of the brace is optimized, the mop head can be automatically driven to upwards rotate to an extrusion state through the movement of the handle sleeve, the linkage strip and the brace, the extrusion is realized, the brace can be pulled to realize the extrusion without rotating the mop head to the extrusion state, and the use is more convenient; the pull strip penetrates through the through hole and then is respectively connected with the linkage strip and the cotton head in the vertical direction of the mop panel, the movement direction of the pull strip is jointly limited by the mop panel and the supporting plate, the pull strip can move in a basically straight direction or on a track, and jamming and deviation are avoided.

Drawings

Fig. 1 is an exploded view of the mop of the present invention.

Fig. 2 is a first schematic sectional view of a mop panel of the present invention.

Fig. 3 is a schematic cross-sectional view of the mop head of the present invention.

Fig. 4 is a partial schematic view of the mop of the present invention.

Fig. 5 is an overall schematic view of the installation block of the present invention.

Fig. 6 is a second cross-sectional view of the mop panel of the present invention.

Fig. 7 is an overall schematic view of the brace of the present invention.

Fig. 8 is a schematic view of the squeezing and dewatering process of the mop of the present invention.

Detailed Description

In order to make the technical solutions of the present invention better understood, the technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person skilled in the art without creative efforts shall belong to the protection scope of the present invention.

The terms "mounted", "provided", "connected" and "sleeved" in the description and claims of the present invention and the above-mentioned drawings should be interpreted broadly. For example, it may be a fixed connection, a removable connection, or a unitary construction; can be a mechanical connection, or an electrical connection; may be directly connected, or indirectly connected through intervening media, or may be in internal communication between two devices, elements or components. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art. When an arrangement is described as being "connected" or "coupled" or the like, it may be directly connected or may be indirectly connected through intervening components. If not indicated otherwise, a component "disposed on," "disposed on," or "connected to" another component does not exclude the two components from being integrally formed.

Furthermore, spatially relative terms, such as bottom, top, and the like, may be used to describe one element and/or feature's relationship to another element(s) and/or feature(s), such as is illustrated in the figures. It will be understood that the spatially relative terms are intended to encompass different orientations of the device in use and/or operation in addition to the orientation depicted in the figures. For example, if the device in the figures is turned over, elements described as "front" may be oriented "behind" other elements or features. The device may be otherwise oriented (e.g., rotated 90 degrees or at other orientations) and the spatially relative descriptors used herein interpreted accordingly.

Referring to fig. 1-8, a no-hand washing cotton mop comprises a mop rod 1 and a mop head 2, wherein the mop rod 1 is rotatably connected with the mop head 2 along a first shaft 3 direction through a hinge, a positioning device is arranged between the mop rod 1 and the hinge, the positioning device positions the mop rod 1 and the mop head 2 in a mopping state and a squeezing state, a traction part is arranged between the mop rod 1 and the mop head 2, the traction part comprises a handle sleeve 4, a linkage strip 5 and a brace 6, the handle sleeve 4 is sleeved on the mop rod 1 and can move up and down along the mop rod 1, the handle sleeve 4 is rotatably connected with one end of the linkage strip 5 along a second shaft 7 direction, the first shaft 3 and the second shaft 7 are in the same straight line or parallel, the other end of the linkage strip 5 is connected with the brace 6, the mop head 2 comprises a mop panel 8 and a cotton head 9 which are detachably connected, at least two mounting blocks 10 are arranged on the cotton head 9, the two mounting blocks 10 are respectively arranged at the end part or the position of the cotton head 9, and one of the mounting block 10 is fixedly connected with the brace 6; when the handle sleeve 4 moves upwards along the mop rod 1, the linkage strip 5 and the pull strip 6 drive the mop head 2 to rotate to a squeezing state and drive one of the mounting blocks 10 to move upwards, and the self-squeezing dehydration of the cotton head 9 is realized after the distance between the two mounting blocks 10 is changed.

Specifically, mop pole 1 comprises a plurality of son poles, son pole is made by the metal, form mop pole 1 through screw thread end to end between each son pole, the setting of son pole, can reduce whole length and the volume when accomodating and transporting of mop, and connect conveniently, the son pole that is located the top can set up the couple, the mop of being convenient for hangs and accomodates, the son pole that is located the bottom is connected with mop head 2, hookup location between two adjacent son poles can set up cotton cover or protection piece, avoid the oral area incised finger of son pole. Of course, a telescopic rod can be arranged between the sub-rods to adjust the overall length of the mop rod 1. In other embodiments, the mop rod 1 may be configured to be composed of only one rod body, or the length of the mop rod 1 may be adjusted by the mop rod 1 through a telescopic structure.

In this embodiment, the positioning device includes a hinge seat 11 and a top rod 12, the hinge seat 11 is fixedly installed at the center of the mop panel 8 or integrally formed with the mop panel 8, the hinge seat 11 protrudes upward from the top surface of the mop panel 8, a cavity is formed at the bottom of the mop rod 1, the top rod 12 is movably installed in the cavity, when the mop rod 1 and the hinge seat 11 are hinged along the first shaft 3, the top rod 12 can abut against the surface of the hinge seat 11, a groove 13 is formed at the top end and/or the side portion of the hinge seat 11, the top rod 12 can be inserted into the groove 13 under the action of its own elasticity or the elasticity of other elastic members, and when the mop rod 1 and the mop head 2 are stationary or slightly shaken, the vertical or substantially vertical mopping state and the parallel or substantially parallel squeezing state can be maintained between the mop rod 1 and the mop head 2. When the mop is switched between the mopping state and the squeezing state, the ejector rod 12 slides along the surface of the hinge base 11.

Preferably, a ball or a roller for reducing the moving resistance may be further provided between the push rod 12 and the hinge base 11.

Preferably, the height of the left side and the right side of the groove 13 are different, and the height of the left side is higher than that of the right side, in this embodiment, the right side is the direction of the mop head 2 rotating to the squeezing state, and the right side of the groove 13 and the side surface of the hinged seat are in smooth transition, so that the ejector rod 12 can be switched between the squeezing state and the mopping state more smoothly.

In this embodiment, the extrusion state accessible traction element drive of mop head 2, upwards stimulate sleeve 4 promptly, linkage strip 5 and brace 6 drive installation piece 10 and remove and make mop head 2 atress rotate to the extrusion state, and traditional flat mop compares, need not earlier to rotate to parallel extrusion state with mop head 2 and mop pole 1, can make mop head 2 automatic rotation to the extrusion state through parts such as sleeve 4, and it is more convenient to use. In other embodiments, the mop head 2 is rotated to a squeezed state and squeezed to remove water as in the prior art.

In order to make the traction part drive the mop head 2 to rotate to the squeezing state, the length of the pull strip 6 or the positions of the two ends of the pull strip need to be reasonably arranged, in the embodiment, the two ends of the pull strip 6 are respectively positioned at the two ends of the mop rod 1, the length of the pull strip 6 is not less than half of the length of the mop head 2, when the pull strip 6 is moved, the mop head 2 is stressed by an eccentric force, and meanwhile, in order to facilitate mopping and reducing the volume of a product, the length of the pull strip 6 is not more than the length of the mop head 2.

Preferably, the length of the riblets 6 is in the range of 12CM to 40CM.

In this embodiment, the brace 6 is a bar made of plastic, and in other embodiments, the brace 6 may be a bar made of right metal, or a chain, a pull rope, or the like that can be connected to the mounting block 10 and the linkage bar 5 to move the mounting block 10. Meanwhile, the brace 6 is not only formed by one strip, but also formed by connecting a plurality of strips, similarly, the linkage strips 5 and the brace 6 are not respectively corresponding to one strip, or a plurality of linkage strips 5 are connected end to end and then connected with the brace 6, or a plurality of braces 6 are connected end to end and then connected with the linkage strips 5, or the linkage strips 5 and the braces 6 are integrated.

In this embodiment, the grip sleeve 4 and the linkage bar 5 may be directly rotatably connected or indirectly rotatably connected, for example, the grip sleeve 4 and the linkage bar 5 are rotatably connected with each other by a single component. The linkage bar 5 and the brace 6 can be in direct rotary connection or indirect rotary connection.

In this embodiment, the mop rod 1 or the mop head 2 is not provided with a device for squeezing, cleaning and squeezing the cotton head 9, for example, the existing mop needs to be provided with a squeezing frame, a clamp seat and other devices for squeezing and scraping the cotton head 9 or the wiping object, or the existing mop assists in driving the cotton head 9 to be folded in half for squeezing water.

In this embodiment, the first shaft 3 and the second shaft 7 are arranged in the same line or in parallel, that is, when the mop is kept in a floor mopping state or in a state that the mop rod 1 and the mop head 2 are perpendicular to each other, the first shaft 3 and the second shaft 7 are positioned on the same line or substantially on the same line (as shown in fig. 3), and when the mop is in a squeezing state, the handle sleeve 4 moves upwards along the mop rod 1, and the position of the second shaft 7 is changed, so that the first shaft 3 and the second shaft 7 are in a parallel state (as shown in fig. 8). The same straight line setting of the primary shaft 3 and the secondary shaft 7 can make the mop rod 1 and the mop sleeve 4 rotate relative to the mop head 2 at the same time when in a mopping state, thereby avoiding the influence of the primary shaft 3 and the secondary shaft 7 on different straight lines and preventing the mop rod 1 and the mop sleeve 4 from rotating along a certain direction.

Preferably, the eccentric position of the mop panel 8 is provided with a through hole 14 for the pulling strip 6 to pass through, the mop panel 8 is provided with a supporting plate 18 at the position of the through hole 14 far away from the mop rod 1, and the pulling strip 6 is at least partially positioned right above the supporting plate 18 after being installed. The mop cover 4 and the linkage strip 5 are located above the mop panel 8, the mounting block 10 and the cotton head 9 are located below the mop panel 8, the brace 6 penetrates through the through hole 14 and then is connected with the linkage strip 5 and the mounting block 10, so that the mop cover 4, the linkage strip 5, the brace 6, the mounting block 10 and the cotton head 9 are connected into a whole, and the cotton head 9 is indirectly driven to deform through upward movement of the mop cover 4 to shorten self-squeezing dehydration.

In this embodiment, as shown in fig. 2, the height of the mop panel 8 of the through hole 14 near the mop rod 1 is higher than that of the support plate 18, and when the pull strip 6 moves, the lower surface of the mop panel 8 and the upper surface of the support plate 18 simultaneously abut against or guide the pull strip 6. The through hole 14 is set to be a step hole, the hole edges on two opposite sides of the through hole 14 have a height difference to accommodate the brace 6 to pass through, when the brace 6 moves on the mop panel 8, the mop panel 8 and the supporting plate 18 can jointly play a guiding and supporting role for the brace 6, and the brace 6 moves along a basically straight direction when being squeezed under the driving, so that the deformation and distortion of the brace 6 are prevented when the supporting plate 18 and the mop panel 8 are positioned at the same height.

Preferably, the mop panel 8 is provided with a first guide rail 15, the first guide rail 15 extends along the length of the mop panel 8, the first guide rail 15 comprises one or more first blocking walls 16, at least a portion of the first blocking wall 16 is located between the mop panel 8 and the support plate 18, or at least a portion of the first blocking wall 16 is used to connect the mop panel 8 and the support plate 18.

In this embodiment, the mop panel 8 is made of plastic, the mop panel 8, the supporting plate 18 and the first blocking wall 16 are integrally formed, the top surface of the mop panel 8 is in a shape with a high middle part and a low edge, the high middle part can be used for accommodating the pull strip 6, and the height difference of different parts of the mop panel 8 can be set to make the strength of the mop panel 8 better together with the first blocking wall 16.

In this embodiment, the brace 6 is rotatably connected to the linkage bar 5 along a third axis 17, the third axis 17 is located above the supporting plate 18, a first positioning groove 19 is formed in the first blocking wall 16/between the first blocking wall 16 and the supporting plate 18, and the first positioning groove 19 is matched with the brace 6/the linkage bar 5/the third axis 17 to position the brace 6, the linkage bar 5 and the third axis 17 in the position of the mopping state.

Preferably, a limiting mechanism can be arranged between the linkage strip 5 and the mop panel 8, the limiting mechanism can be a magnetic object with a bulge, a notch and mutual attraction, and the limiting mechanism can limit the movement of the traction part independently and can also be matched with the first positioning groove 19 in a positioning way to realize double limiting functions.

In this embodiment, an auxiliary wheel is arranged on the brace 6 or between the brace 6 and the linkage strip 5, the surface of the auxiliary wheel is provided with an arc surface matched with the mop rod 1, when the mop is in a wringing state, the auxiliary wheel is attached to the surface of the mop rod 1, and the auxiliary wheel slides or rotates on the surface of the mop rod 1 to reduce resistance.

In the above embodiment, the mounting block 10 includes the fixing portion 20 and the guide portion 21, the fixing portion 20 is fixedly connected with the cotton head 9, at least a part of the fixing portion 20 is protruded from the surface of the cotton head 9 after being fixedly connected with the cotton head 9, the mop panel 8 is provided with the second guide rail 25, and the guide portion 21 is matched with the second guide rail 25, so that the mounting block 10 can move along the second guide rail 25 to drive the cotton head 9 to deform and extrude by itself.

In this embodiment, when the mounting block 10 moves, the fixing portion 20 of the protruding portion contacts or abuts against the bottom surface of the mop panel 8, so that a first distance is formed between the mop panel 8 and the cotton head 9, the cotton head 9 is moved and squeezed while the contact between the cotton head 9 and the mop panel 8 is reduced, the movement resistance is reduced by the contact between the mop panel 8 and the fixing portion 20, and the cotton head 9 is prevented from being deformed and then positioned between the mop panel 8 and the fixing portion 20, so that the cotton head 9 is damaged. In other embodiments, a separate part may be provided on the mounting block, which is independent from the fixing part 20, and the separate part provides a first distance between the mop panel 8 and the cotton head 9, and the separate part may also be one of the fixing parts 20 for separating.

In this embodiment, the top surface position at cotton head 9 is fixed through the mode of viscose to installation piece 10, for prevent that glue from overflowing too much to cotton head 9 or other positions of cotton head 9 absorb glue, after the glue sclerosis, if direct contact removes the extrusion between cotton head 9 and the mop panel 8, glue or adsorb have great resistance between this part cotton head 9 and the mop panel 8 of glue, cotton head 9 is difficult to remove on mop panel 8, and the setting of first distance, can avoid the condition that glue hinders cotton head 9 to remove.

Preferably, the width of the anchor 20 is adapted to the width of the mop face 8 to further reduce contact between the cotton head 9 and the mop face 8.

Preferably, the mounting block 10 further comprises a pressing portion 22, the pressing portion 22 is at least partially inserted into the cotton head 9 or at least partially overlapped with the cotton head 9 when the mounting block 10 is mounted, and when the mounting block 10 moves and drives the cotton head 9 to deform, the pressing portion 22 can assist in pressing the cotton head 9.

In this embodiment, two kinds of mounting blocks 10 are arranged on the cotton head 9, the mounting blocks 10 at two ends of the cotton head 9 include a fixing portion 20, a guide portion 21 and a squeezing portion 22, the mounting block 10 at the middle of the cotton head 9 only includes the fixing portion 20 and the guide portion 21, and the squeezing portion 22 at the middle can be reduced to influence the mopping of the cotton head 9. In other embodiments, only one kind of the mounting blocks 10 may be disposed on the cotton head 9, for example, each mounting block 10 includes the fixing portion 20, the guide portion 21 and the pressing portion 22, or each mounting block 10 includes only the fixing portion 20 and the guide portion 21.

Preferably, the size of the squeezing portion 22 is smaller than the cross-sectional area of the cotton head 9, and since the cotton head 9 is generally contacted with the ground by the bottom surface or the side surface when mopping the ground, the size of the squeezing portion 22 is reduced, and the friction between the squeezing portion 22 and the ground and the noise generation can be avoided.

In this embodiment, interval setting between each installation piece 10 on cotton head 9, when cotton head 9 removed the deformation extrusion, the interval between each installation piece 10 diminishes, and cotton head is to keeping away from the direction deformation (deformation downwards) of installation piece 10 to avoid when the interval of each installation piece 10 is too little, cotton head 9 is by the centre gripping.

Preferably, the deformation amount of the cotton head 9 at the upper end is larger than that of the lower end when the cotton head 9 moves and extrudes, and the deformation amount is the length of a path which the cotton head 9 passes when the cotton head moves and deforms.

Preferably, the periphery of the mop panel 8 is provided with a downward extending flanging 23, and the inner side of the flanging 23 is fixedly connected with a guide strip 24; the guide strip 24 is L-shaped, and a second guide rail 25 is formed between the installed guide strip 24 and the mop panel 8; alternatively, the guide bar 24 is in a line shape, the mop panel 8 is provided with a heightening pad 26, and the guide bar 24 is installed below the heightening pad 26 to have a space between the guide bar 24 and the mop panel 8 to form the second guide rail 25.

In this embodiment, the inboard of turn-ups 23 is equipped with the buckle, and the buckle can be spacing to the upper and lower direction of conducting strip 24 at least, and mop panel 8 is located the inboard of turn-ups 23 and still is equipped with reference column 27, and reference column 27's lower extreme can insert in the conducting strip 24, and reference column 27 can be spacing to the horizontal direction of conducting strip 24 to realize conducting strip 24 and mop panel 8's fixed.

In the above embodiment, the brace 6 is provided with the first step 28, the first step 28 is fixedly connected with the mounting block 10 through a quick release structure, and at least part of the surface of the mounting block 10 is matched with the first step 28, so that when the brace 6 is connected with the mounting block 10, the first step 28 is attached to the mounting block 10.

Preferably, the brace 6 is further provided with a second step 29, and the second step 29 is attached to or abutted against the mounting block 10, so that the brace 6 can drive the mounting block 10 to move.

Preferably, the brace 6 is further provided with a third step 30, the third step 30 extends along the length direction of the brace 6 and is connected with the third step, the thickness of the third step 30 is smaller than that of the first step 28, and the bottom surface of the third step 30 is at least partially provided with an inclined surface.

The above description in this specification is merely illustrative of the present invention. Various modifications, additions and substitutions may be made by those skilled in the art without departing from the scope of the invention as defined in the accompanying claims.

Claims (10)

1. The mop is characterized in that the length of the brace is 12CM-40CM, when the mop sleeve moves upwards along the mop rod, the brace drives one of the installation blocks to move, and the distance between the two installation blocks is changed to realize squeezing and dewatering of the cotton head.

2. The no-hand-washing cotton-tipped mop as claimed in claim 1, wherein a through hole for the pulling strip to pass through is arranged at an eccentric position of the mop panel, a supporting plate is arranged at a position of the mop panel in the direction away from the mop rod, and the pulling strip is at least partially arranged right above the supporting plate after being installed;

or the mop panel is provided with a through hole through which the brace can pass, the through hole is positioned at the end part of the brace or at a position close to the end part in a mopping state, the mop panel is provided with a support plate at a position where the through hole is far away from the mop rod direction, and at least part of the brace is positioned right above the support plate after being installed.

3. The wash-free cotton-tipped mop of claim 2, wherein the height of the mop panel at the side of the through hole close to the mop rod is higher than that of the support plate, and when the pull strip moves, the lower surface of the mop panel and the upper surface of the support plate are simultaneously attached to or guide the pull strip.

4. The wash-free cotton-tipped mop of claim 3, wherein the mop panel is provided with a first guide rail extending along the length of the mop panel, the first guide rail comprising one or more first blocking walls, at least a portion of which is located between the mop panel and the support plate, or at least a portion of which is used to connect the mop panel and the support plate.

5. The wash-free cotton-tipped mop of claim 4, wherein the pull strip is rotatably connected with the linkage strip along a third axis, the third axis is positioned above the support plate, a first positioning groove is arranged between the first blocking wall and the support plate, and the first positioning groove is matched with the third axis to position the pull strip, the linkage strip and the third axis in a mopping state;

and/or a limiting mechanism is arranged between the linkage strip and the mop panel and prevents the traction part from moving.

6. The no-hand-washing cotton-tipped mop of claim 5, characterized in that an auxiliary wheel is arranged on the brace or between the brace and the linkage strip, and the surface of the auxiliary wheel is provided with an arc surface matched with the mop rod.

7. The no-hand-washing cotton head mop as claimed in any one of claims 1 to 6, wherein the mounting block comprises a fixing portion and a guide portion, the fixing portion is fixedly connected with the cotton head, at least a part of the fixing portion protrudes from the surface of the cotton head after the fixing portion is fixedly connected with the cotton head, a second guide rail is arranged on the mop panel, and the guide portion is matched with the second guide rail, so that the mounting block can move along the second guide rail to drive the cotton head to deform and self-squeeze;

and/or, the installation piece still includes the extrusion portion, the extrusion portion at least partially inserts when the installation cotton head is inside or at least partially with the cotton head coincidence, works as the installation piece removes and drives when the cotton head warp, the extrusion portion can be to the supplementary extrusion of cotton head.

8. The no-hand-washing cotton head mop as claimed in claim 7, wherein a downward extending flanging is arranged on the periphery of the mop panel, and a guide bar is fixedly connected to the inner side of the flanging; the guide strip is L-shaped, and a second guide rail is formed between the installed guide strip and the mop panel;

or, the conducting bar is a straight line, a heightening pad is arranged on the mop panel, and the conducting bar is arranged below the heightening pad, so that an interval is formed between the conducting bar and the mop panel to form the second guide rail.

9. The no-hand-washing cotton-tipped mop of any one of claims 1-6,8, wherein the brace is provided with a first step, a second step and a third step, the first step is fixedly connected with the mounting block through a quick release structure, and at least a part of the surface of the mounting block is matched with the first step, so that when the brace is connected with the mounting block, the first step is attached to the mounting block, the second step is attached to or abutted against the mounting block, so that the brace can drive the mounting block to move, the third step extends along the length direction of the brace and is connected with the first step, the thickness of the third step is smaller than that of the first step, and at least a part of the bottom surface of the third step is provided with an inclined surface.

10. The hands-free cotton head mop of any one of claims 1-6,8 wherein the amount of deformation of the upper end of the cotton head is greater than the amount of deformation of the lower end of the cotton head when the cotton head is squeezed in motion.

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