CN112754379A - Mop with two water squeezing ends and assembly thereof - Google Patents

Abstract

The invention provides a mop with two water squeezing ends and a component thereof, wherein the mop comprises a wiping part, a mop panel and a mop rod, the mop panel is arranged at the lower end of the mop rod, a track is fixedly arranged below the mop panel, mounting blocks are sleeved on the track, two mounting blocks at the outermost side are respectively provided with a stress plate, and water squeezing at the two ends of the mop is realized by squeezing the stress plates at the two ends. Besides the mop structure, the mop structure also comprises a water squeezing bucket structure matched with the mop structure, and the functions of squeezing water and storing water are realized through the mop and the water squeezing bucket structure. Through such structure, overcome current crowded water mop inefficiency, life limit scheduling problem, can easily help the user to extrude the moisture in the portion of cleaning, more the person of facilitating the use uses.

Description

Mop with two water squeezing ends and assembly thereof

Technical Field

The invention relates to the field of daily necessities, in particular to a cleaning tool, and more particularly relates to a mop and a component thereof.

Background

The mop is a cleaning tool frequently used in daily life of people, the more mops in the market at present are two kinds of cloth belt type mops and collodion mops, the cloth belt type mops are usually provided with a spin dryer barrel structure, when water on the mop cloth needs to be squeezed, the mop head is placed into the spin dryer barrel to be spin-dried, and due to the fact that the spin dryer barrel structure exists, the mop structure needs to occupy more space under normal conditions, and inconvenience is brought to use.

At present, the prevalence rate of collodion formula mop in life is more and more high, and its major structure is roughly the same, including mop pole, mop head and crowded water installation, realizes the fifty percent discount of crowded water installation through the relative motion of mop pole and mop head to extrude the moisture in the collodion. The typical structure of the mop is as disclosed in chinese patent document CN204995396U, wherein a squeezing handle 5 is used to drive a squeezing link 6 to move, so as to realize the relative movement between the squeezing link 6 and the mop rod 1, and the squeezing collodion head 2 is folded to squeeze the collodion head 2 to dry the collodion head 2. The dehydration mode has the defects that: in the process of squeezing water, a user needs to bend down to pull the handle structure and lift the mop cloth, so that the physical burden of the user is increased, and the use efficiency is reduced; after the mop is used for a long time, the water can be effectively squeezed out only by using a great force, so that the using effect after the mop is used for a long time is greatly reduced. In addition, chinese patent document CN208988754U discloses a foam cotton head mop wringing device, which uses another bucket as the wringing device, so that the wringing component does not need to be on the mop rod all the time. However, when the foam cotton head is squeezed, the foam cotton head needs to be squeezed and slid, so that the foam cotton head is easily damaged and is not easy to squeeze water, and the use experience of a user is influenced.

Therefore, there is a need to further develop mops that have a faster way to wring water, are easier to wring water, or are more convenient to use.

Disclosure of Invention

In view of the shortcomings of the background art, the present invention develops mops with different wringing modes. The invention provides a mop with two water squeezing ends, which comprises a wiping part, a mop panel and a mop rod, wherein the mop panel is arranged at the lower end of the mop rod, a track is fixedly arranged below the mop panel, an installation block is sleeved on the track and fixedly connected with the wiping part, the two ends of the wiping part are squeezed by squeezing or drawing two outermost installation blocks or stress plates attached to the end faces of the two ends of the wiping part, preferably, the two ends are synchronously squeezed inwards along the length direction of the panel by squeezing or drawing, and the purpose of squeezing water is further achieved. Wherein, the installation piece cover is established on the track, the installation piece can be along track lateral motion, and the quantity of installation piece is 3 at least. The outermost mounting block may be integrated with or attached to the force-bearing plate on the end face of the wiping portion, for example, the outermost mounting block may be disposed at the outermost end of the wiping portion, and an extension plate may extend from the end face to serve as the force-bearing plate.

The wiping portion is conventional, such as a water absorbent wipe that may be formed from one or a combination of collodion, sponge, foam, cloth, etc.

In one embodiment of the invention, the mop with two water squeezing ends is provided with a handle sleeve, the mop rod is provided with a strip-shaped hole, the bolt penetrates through the handle sleeve and extends into the strip-shaped hole, so that the handle sleeve moves within a range limited by the strip-shaped row holes, and when the handle sleeve moves upwards, two mounting blocks at the outermost side or a stress plate attached to the end face of the wiping part can be pulled to move inwards, and then the two ends of the wiping part are squeezed.

Furthermore, the mop with the two water squeezing ends further comprises two moving arms, the first end of each moving arm is rotatably connected with the handle sleeve through a first rotating shaft, and the second end of each moving arm is rotatably connected with the two mounting blocks on the outermost side or the stress plate on the end face of the wiping part through a second rotating shaft. The mop rod is fixedly connected with the mop panel.

The two sides of the mop panel are provided with plugs, and the transverse movement of the moving arm is limited by the plugs so as not to exceed the mop panel.

In the embodiment, the sleeve drives the moving arm to move, so that the two mounting blocks at the outermost side or the stress plate at the end face of the wiping part are driven to drive the wiping part to squeeze to realize the water squeezing function, the return speed of the mechanism in the embodiment is relatively slow through the self elasticity of the wiping part, and the obvious defect of the water squeezing structure of the existing folding collodion cotton head is overcome.

In order to further improve the return speed of the mechanism and improve the use efficiency, a handle is further arranged outside the mop rod, a short rod structure is arranged in the middle of the mop panel, the mop rod is fixedly connected with the short rod structure, and the short rod structure can rotate around the middle of the mop panel. The mop with the two water squeezing ends is further provided with a pair of auxiliary wheels and two corresponding steel wire ropes, the auxiliary wheels are used for steering the steel wire ropes, one ends of the two steel wire ropes are respectively connected with the handles, and the other ends of the two steel wire ropes are respectively connected with the two mounting blocks on the outermost side or the stress plates on the end faces of the wiping parts.

At least one spring is arranged between the mounting blocks, and the spring is sleeved on the track. In another embodiment, two springs are provided, one end of each spring is fixed at the middle position of the mop panel, and the other end of each spring is respectively fixed on the stress plate at the end face of the corresponding outermost mounting block or wiping part. Through the structure of the latter, the number of the springs can be reduced, sufficient restoring force can be provided, and the use reliability of the whole equipment can be ensured.

Set up the spring structure between the installation piece, provided auxiliary wheel and wire rope matched with structure simultaneously, driven wire rope through the structure of shaking hands and taken turns along the auxiliary wheel and move to the shrink of drive installation piece and reset provide the power of wiping portion motion. This structure has improved the contraction rate and the speed that resets of wiping portion on the one hand, and on the other hand can realize the rotary motion of mop pole, very big promotion user's experience impression, further the person of facilitating the use uses. The invention further provides a mode matched with the squeezing bucket. The bottom of the water squeezing barrel is fixedly provided with a protruding part, the water squeezing mops at two ends are placed on the water squeezing barrel, and the water squeezing function is achieved by pressing the water squeezing mops towards the direction of the water squeezing barrel. Preferably, the two outermost mounting blocks or the stress plates on the end faces of the wiping parts are provided with groove structures, and the groove structures move downwards along the protruding parts under the action of external force. The design of the water squeezing bucket enriches the using environment of the mop with two water squeezing ends, and provides the possibility of using the mop with two water squeezing ends in the area which is not convenient for water receiving.

The mop of the present invention has the further advantage that it can be easily drilled into a bed, mopped under a sofa, and mopped in a lengthwise direction without the use of a handle or the like.

Drawings

FIG. 1 is a schematic view of a prior art mop with a double-sided folding collodion mop head

FIG. 2 is an exploded view of a double-sided water wringing mop provided in example 1 of the present invention;

FIG. 3 is a schematic view of a mop provided in accordance with example 1 of the present invention in an unpumped condition;

FIG. 4 is an enlarged view of the upward lifting detail of the mop cover according to embodiment 1 of the present invention;

FIG. 5 is a schematic view of a mop cover pushed down according to example 1 of the present invention;

FIG. 6 is an exploded view of a water wringing mop provided in example 2 of the present invention;

FIG. 7 is a schematic view of a mop provided in accordance with example 2 of the present invention in an unpumped state;

FIG. 8 is a schematic view of a mop provided in accordance with example 2 of the present invention with the sleeve tilted during use;

FIG. 9 is an enlarged detail view of a mop head provided in example 2 of the present invention;

FIG. 10 is a schematic view of a two-end wringing process provided in example 2 of the present invention;

fig. 11 is a schematic diagram of an automatic head recovery process according to embodiment 2 of the present invention;

FIG. 12 is a schematic view of a mop head according to example 3 of the present invention;

FIG. 13 is an exploded view of the mop head provided in embodiment 3 of the present invention;

FIG. 14 is an assembled view of a mop head structure provided in example 3 of the present invention;

fig. 15 is a schematic structural view of a water squeezing bucket and a mop provided in embodiment 3 of the invention;

FIG. 16 is a schematic view showing a mop and a water squeezing bucket provided in example 3 of the present invention;

FIG. 17 is an exploded view of a mop provided in accordance with example 4 of the present invention;

fig. 18 shows a mop assembly structure provided in example 4 of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings and specific embodiments. While exemplary embodiments of the present disclosure are shown in the drawings, it should be understood that the present disclosure may be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the concept of the invention to those skilled in the art.

Example 1

As shown in fig. 2-5, the present embodiment provides a mop comprising a collodion head 20, a rotating shaft 21 or 27, a mop panel 22, a mounting block 23, a track 24, a plug 25, a motion arm 26, a grip 28, and a mop rod 29.

In this embodiment, the outer diameter of the mop rod 29 should be slightly smaller than the inner diameter of the handle sleeve 28, so that the mop rod 29 can be smoothly placed into the handle sleeve 28 and can be flexibly pulled out from the handle sleeve 28. The mop panel 22 is provided with a groove for the movement arm 26 to pass through, the two sides of the mop panel 22 are provided with plugs 25, the middle of the upper end face of the mop panel 22 is fixedly connected with a pipe 29, so that the integral positioning of the mop is realized, the two sides of the mop panel 22 are provided with the plugs 25, and the plugs 25 are used for limiting the transverse movement of the movement arm 27 and preventing sundries from entering the mop head. The rail 24 shown in fig. 2 is fixedly mounted on the lower end surface of the mop panel 22, and seven mounting blocks 23 can slide back and forth on the rail 24. In the use, the installation piece 23 is fixed on the collodion head 20, realizes the synchronous lateral motion of installation piece 23 and collodion head, seven even distributions of installation piece 23 are on the collodion head 20, and wherein the installation piece 23 at both ends is equipped with the atress board to the terminal surface extension, and atress board fixed mounting is on the installation piece of both sides, and the atress board sets up the both ends at the collodion head, realizes through the extrusion of atress board or pull that the collodion head is along mop panel length direction inward movement, realizes the crowded water function.

In fig. 3-4, the moving arm 26 is composed of two left and right members with equal length, two ends of the moving arm 26 are respectively provided with a rotating shaft 21 and a rotating shaft 27, one rotating shaft 27 is arranged on the handle sleeve 28 and driven to move up and down by the up-and-down movement of the handle sleeve 27, the other rotating shaft 21 is arranged on the outermost mounting block and driven to move transversely by the transverse movement of the rotating shaft 27, and the outermost mounting block 23 is driven to move transversely. The overall length of the two motion arms 26 should be slightly greater than the length of the slot in the mop panel 22 so that the motion arms 26 can be placed over the mop panel 22 in an unpulped state while limiting lateral movement of the motion arms 26 by the plugs 25.

As shown in FIG. 3, when the mop is not squeezing water, the rotating shaft 27 is located at the interface of the handle cover 28 and the mop panel 22, and the moving arm 26 is in a nearly flat state. The collodion head 20 is now in a relaxed normal condition.

When water squeezing is required, external force acts on the handle sleeve 28 to vertically move the handle sleeve 28 upwards along the handle bar 29, and the moving arm 26 starts to displace by being pulled by the rotating shaft 27, and meanwhile, the moving arm 26 pulls the mounting block 23 to move towards the middle by the rotating shaft 21, as shown in fig. 4. As shown in FIG. 4, since the seven mounting blocks are all drawn to the middle and are close to each other, the collodion head 20 is squeezed, and the water in the collodion head 20 is discharged to achieve the wringing effect. In the process, the content of the water reserved in the collodion cotton head 20 can be adjusted by controlling the strength of the external force, so that the aim of cleaning different dirt is fulfilled.

After the squeezing action is completed, as shown in fig. 5, the external force is downward to return the sleeve 28 to the original position, and at this time, the moving arm 26 pulls the mounting blocks 23 outward through the rotating shaft 27 and the rotating shaft 21, so that the seven mounting blocks 23 are restored to the original state, and the collodion head 20 is then returned to the relaxed state. At which point cleaning of the floor can begin.

In this embodiment, seven mounting blocks are adopted, and other reasonable number of mounting blocks are also conceivable in the art, and the mounting blocks and the collodion head can be fixed in various forms of fixed connection modes such as clamping connection and the like.

Example 2

Referring to fig. 6-11, the difference between this embodiment and embodiment 1 is that 6 spring structures 34 are disposed on the sliding rail, and 3 spring structures are disposed on the left and right sides, respectively, although the number of springs can be adjusted according to the working conditions and the elasticity of the collodion head. A short rod structure is rotatably arranged in the middle of the upper end face of the mop panel, and the lower rod 37 is fixedly connected with the short rod. Be provided with structures such as auxiliary wheel 36, wire rope 35, can realize collodion head 31's self return through such structure, improve the convenience of use.

As shown in fig. 6, a spring 34 is disposed on the track, the spring can be compressed and reset along the track, and a steel wire rope 35 bypasses an auxiliary wheel 36 structure, so that the extension direction of the steel wire rope is changed, and friction loss is reduced.

As shown in fig. 7, the lower rod 37 extends into the short rod structure in the mounting state, and the lower rod 37 is fixedly connected with the short rod, which may be a conventional fixing means in the mechanical field, such as a threaded structure or a convex-concave matching structure. The auxiliary wheel 36 is fixed inside the mop rod through a shaft, and the steel wire rope 35 penetrates through the lower rod 37, the broken rod structure and the like and is arranged inside the mop.

As shown in fig. 8, in the using process, the mop rod can rotate around the rotating shaft, so that the flexibility of the whole mop structure is increased, and the mop is convenient to clean narrow spaces.

As shown in fig. 9, in the non-wringing state, one end of the wire rope 35 is fixed to the handle 38, the other end passes through the hollow structure of the spring and is fixedly connected to the outermost mounting block, which is consistent with embodiment 1, and the outermost mounting block is fixedly connected to the stress plate. The auxiliary wheel is fixed at the intersection part of the mop panel 32 and the short rod structure, and the inner side of the spring 34 is fixed on the fixed plate to provide a supporting point for the spring 34 to rebound.

As shown in fig. 10, in the water squeezing state, the handle 38 moves upward along the lower rod 37, and drives the wire rope 35 to move upward around the auxiliary wheel 36, the other end of the wire rope 35 is fixed on the outermost mounting block, and the outermost mounting block is driven to move inward during the inward movement of the wire rope 35. The spring 34 is arranged between two adjacent mounting blocks 33, the two adjacent mounting blocks provide stress surfaces for two sections of the spring, and the mounting blocks at the outermost sides move inwards to drive the whole collodion head 31 to shrink and squeeze water.

As shown in fig. 11, when the user releases his/her hand, the collodion head 31 expands, and at the same time, the compression spring 34 expands and returns to drive the mounting block to move to both sides, and pulls the wire rope 35 to move to both sides synchronously, so that the handle 38 moves downwards along the lower rod 37.

Example 3

Referring to fig. 12-16, the mop provided in this embodiment includes any one of the above-mentioned collodion head, rail, mop panel structures, and also includes the short bar structure of embodiment 2, which can realize the rotation of the mop bar.

The difference between the two embodiments is that the two side mounting blocks 40 are provided with a groove therein, and the groove is provided with an inclined slope structure therein, which can be used in cooperation with a squeezing barrel, the squeezing barrel is provided with a protruding part 44 therein as an abutting part, and the bottom of the protruding part 44 is fixedly connected with the bottom of the inner side of the squeezing barrel. During the wringing process, the upper side of the protruding member 44 cooperates with the inclined ramp of the groove to effect inward movement of the two side mounting blocks 40.

In this embodiment, the track can be provided with the spring structure of embodiment 2 or without a corresponding spring, the reset speed of the collodion head is improved after the spring is arranged, and if the spring is not arranged, the mop head is reset by the elasticity of the collodion head.

It will be appreciated by those skilled in the art that the height of the protruding member 44 is greater than the thickness of the collodion head to avoid the mop panel touching the bottom of the wringing bucket, so that it has a better wringing effect, and the bottom can have a certain level of water when cleaning. In addition, a protruding part may be formed inwardly of the side wall of the squeezing tub as an abutting part.

Example 4

Embodiment 4 referring specifically to fig. 17-18, a short rod structure 49 is identical to the short rod structure in the previous embodiments, and is pivotally connected to the mop panel, the lower rod is provided with an elongated hole 48, the handle 46 is sleeved on the lower rod, and the plug 47 passes through the handle 46 and is inserted into the elongated hole 48 structure, so as to achieve the purpose of moving the handle along the lower rod. In this embodiment, two spring structures 45 are provided and located in the gap between the mop panel and the sliding structure, one end of each spring is fixed to the middle of the mop panel, and the other end of each spring is provided with a corresponding mounting block on the outermost side. The structure of the steel wire rope in this embodiment is the same as that in embodiment 2, and will not be described herein.

Finally, it should be noted that the above examples are only used to illustrate the technical solutions of the present invention and are not limitative. Although the present invention has been described in detail with reference to the embodiments, it will be understood by those skilled in the art that various changes may be made and equivalents may be substituted without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (15)

1. The utility model provides a mop of squeezing water in both ends, is including wiping portion (20, 31), mop panel (22, 32) and mop pole (29, 37), mop panel (22, 32) set up mop pole (29, 37) lower extreme, its characterized in that, fixed mounting has track (24) under mop panel (22, 32), and the cover is equipped with installation piece (23, 33) on track (24), installation piece (23, 33) fixed connection wipes portion (20, 31), and two installation pieces (23, 33) of outermost side or paste in the atress board of wiping portion (20, 31) both ends face inwards realize wiping portion's extrusion through extrusion or traction in step along panel length direction.

2. The mop with two ends squeezing water according to claim 1, characterized in that the upper end of the mounting block (23, 33) is a hollow structure, the mounting block (23, 33) is sleeved on the rail (24) through the hollow structure, and the mounting block (23, 33) can move transversely along the rail (24).

3. The two-end wringing mop of claim 2, wherein the number of mounting blocks is at least 3.

4. The mop with the two ends squeezing water according to claim 1, characterized in that the mop with the two ends squeezing water further comprises a handle sleeve (28), the handle sleeve (28) can move in a vertical direction along the mop rod (29, 37), the mop rod (29, 37) is provided with a strip-shaped hole (48), and a bolt (47) penetrates through the handle sleeve (28) and extends into the strip-shaped hole (48), so that the handle sleeve (28) can move in a range limited by the strip-shaped row hole (48), and when the handle sleeve moves upwards, two mounting blocks (23, 33) at the outermost side or stress plates attached to two end faces of the wiping part (20, 31) can be pulled to move inwards, and then squeezing of two ends of the wiping part is achieved.

5. The two-end wringing mop of claim 4, further comprising two moving arms (26), wherein a first end of each moving arm (26) is rotatably connected with the handle sleeve (28) through a first rotating shaft (27), and a second end of each moving arm (26) is rotatably connected with the two outermost mounting blocks (23, 33) or the stress plates on the end surfaces of the wiping parts (20, 31) through a second rotating shaft (21).

6. A two end wringing mop according to claim 1, wherein the mop pole (29, 37) is fixedly connected to the mop panel (22, 32).

7. A two end wringing mop according to claim 5, wherein the mop panel (22, 32) is provided with stops (25) on either side thereof by which to limit removal of the outermost mounting block and/or to limit lateral movement of the second end of the arm (26) beyond the mop panel (22, 32).

8. The mop with the two ends squeezing water according to claim 1, wherein a handle (38) is arranged on the outer side of the mop rod (29, 37), a short rod structure (49) is arranged in the middle of the mop panel (22, 32), the mop rod (29, 37) is fixedly connected with the short rod structure (49), and the short rod structure (49) can rotate around the middle of the mop panel (22, 32).

9. The mop with two ends squeezing water according to claim 8, characterized in that the mop with two ends squeezing water is further provided with a pair of auxiliary wheels (36) and two corresponding steel wire ropes (35), the auxiliary wheels (36) provide the steel wire ropes (35) for steering, one ends of the two steel wire ropes (35) are respectively connected with the handle (38), and the other ends of the two steel wire ropes are respectively connected with the two outermost mounting blocks (23, 33).

10. A two-end wringing mop according to claim 9, wherein the auxiliary wheel (36) is provided at the intersection of the mop panel (22, 32) and the stub bar arrangement.

11. The two-end wringing mop of any one of claims 1 to 10, wherein at least one spring (34) is disposed between the mounting blocks (33), the spring (34) fitting over the track; or two springs are arranged, one end of each spring is respectively fixed at the middle position of the mop panel, and the other end of each spring is respectively fixed on the stress plate at the end face of the corresponding outermost mounting block or wiping part (20, 31).

12. A two-end wringing mop according to any one of claims 1 to 10, wherein the wiping portion (20, 31) is a water-absorbent wipe formed from one or a combination of collodion, sponge, foam, cloth.

13. A two-end wringing mop assembly comprising a two-end wringing mop as claimed in any one of claims 1 to 12 and a complementary wringing bucket on which the two-end wringing mop can be placed for wringing by pressing the wringing mop towards the wringing bucket.

14. A two end wringing mop assembly according to claim 13, wherein symmetrical protruding members (44) are fixedly provided to the bottom of the wringing bucket.

15. A two end wringing mop assembly according to claim 14, wherein the outermost two mounting blocks (23, 33) or the force bearing plate on the end face of the wiping portion are provided with a groove formation which moves downwardly along the projecting member (44) under an external force.

Images