CN211796268U

CN211796268U - Collodion mop

Info

Publication number: CN211796268U
Application number: CN202020307786.2U
Authority: CN
Inventors: 胡国云
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-03-12
Filing date: 2020-03-12
Publication date: 2020-10-30
Anticipated expiration: 2030-03-12

Abstract

The utility model provides a collodion mop belongs to domestic equipment technical field. It has solved the not enough problem of crowded water mode quantity of current glued membrane mop. The collodion mop comprises a collodion working head, a mop rod and a collodion frame positioned between the collodion working head and the mop rod, wherein the lower end part of the mop rod is connected with the collodion frame; the mop handle is characterized in that a wringing piece is arranged in the collodion working head, an operating piece is mounted on the mop rod, the wringing piece is connected with the operating piece through a transmission structure, and when the operating piece is operated, the operating piece can drive the wringing plate to move towards the direction close to the collodion frame through the transmission structure. When the collodion working head of the collodion mop is squeezed, the operating piece is operated, the operating piece drives the squeezing plate to move towards the direction close to the collodion frame through the transmission structure, so that the collodion frame and the squeezing piece squeeze and deform the collodion working head, and the moisture in the collodion working head naturally overflows.

Description

Collodion mop

Technical Field

The utility model belongs to the technical field of domestic equipment, a mop, especially a collodion mop is related to.

Background

The working head of the collodion mop is made of collodion, and the collodion has the functions of water squeezing and self cleaning and strong water absorption, so that the requirement of the working head on cleaning is fully met. The traditional collodion water squeezing mainly adopts roller shaft water squeezing, such as a roller collodion mop (grant publication No. CN 2249577Y). Then, water squeezing modes such as water squeezing for a plate and water squeezing for a cleaning barrel are proposed, such as a collodion mop (No. CN 2684755Y) and a water squeezing and pressing mechanism for a cleaning barrel of the collodion mop (No. CN 209733882U). Those skilled in the art would like to be able to propose more different ways of wringing to meet the usage habits of different consumers.

Disclosure of Invention

The utility model provides a collodion mop, which solves the technical problem of how to provide another collodion water squeezing mode.

The to-be-solved technical problem of the utility model can be realized through the following technical scheme: a collodion mop comprises a collodion working head, a mop rod and a collodion frame positioned between the collodion working head and the mop rod, wherein the lower end part of the mop rod is connected with the collodion frame; the mop is characterized in that a wringing piece is arranged in the collodion working head, an operating piece is mounted on the mop rod, the wringing piece is connected with the operating piece through a transmission structure, and when the operating piece is operated, the operating piece can drive the wringing plate to move towards the direction close to the collodion frame through the transmission structure.

Compared with the prior art, the wringing mode of the collodion mop is different from that of a roller shaft and that of a plate. When the collodion working head of the collodion mop is squeezed, the operating piece is operated, the operating piece drives the squeezing plate to move towards the direction close to the collodion frame through the transmission structure, so that the collodion frame and the squeezing piece squeeze and deform the collodion working head, and the moisture in the collodion working head naturally overflows. When the operating part is released, the operating part is gradually reset under the self elastic force operation of the collodion working head and is driven to automatically reset through the transmission structure.

Drawings

Fig. 1 and 2 are schematic perspective views of different viewing angles of a collodion mop in accordance with an embodiment.

FIG. 3 is a schematic cross-sectional view of a collodion mop according to an embodiment.

Fig. 4 is a schematic perspective view of a collodion mop in a wringing state according to an embodiment.

FIG. 5 is a schematic sectional view of a collodion mop in a wringing state according to an embodiment.

Fig. 6 is a schematic perspective view of a collodion mop according to a fourth embodiment.

Fig. 7 is a schematic perspective view of a collodion mop in a wringing state according to a fourth embodiment.

FIG. 8 is a schematic perspective view of a collodion mop according to the fifth embodiment.

FIG. 9 is a schematic sectional view of a collodion mop according to the fifth embodiment.

FIG. 10 is a schematic perspective view of a fifth embodiment of a collodion mop in a wringing position.

In the figure, 1, a collodion working head; 1a, avoiding a groove; 1b, avoiding holes; 2. a mop rod; 3. a collodion frame; 3a, a guide hole; 3b, a lever salient point; 4. a water squeezing piece; 4a, water outlet holes; 5. an operating member; 6. a guide bar; 7. a first pull rod; 8. a second pull rod; 8a, a chute; 8b, a telescopic hole; 9. a first rotating shaft; 10. a second rotating shaft; 11. a first roller; 12. a third rotating shaft; 13. a fourth rotating shaft; 14. a second roller.

Detailed Description

The following are specific embodiments of the present invention and the accompanying drawings are used to further describe the technical solution of the present invention, but the present invention is not limited to these embodiments.

The first embodiment is as follows: a collodion mop comprises a collodion working head 1, a mop rod 2 and a collodion frame 3. The collodion frame 3 is in a strip plate shape, the collodion frame 3 is positioned between the collodion working head 1 and the mop rod 2, and the lower end part of the mop rod 2 is fixedly connected with the middle part of the collodion frame 3.

The collodion working head 1 is in a strip-shaped block shape, an avoiding groove 1a is formed in the bottom surface of the collodion working head 1, and the avoiding groove 1a is arranged along the length direction of the collodion working head 1. The water squeezing piece 4 is plate-shaped, the water squeezing piece 4 is arranged in the avoiding groove 1a, and the water squeezing piece 4 is prevented from protruding out of the bottom surface of the collodion working head 1 by controlling the depth of the avoiding groove 1a and the thickness of the water squeezing piece 4, so that the water squeezing piece 4 is prevented from damaging the surface of an article when the collodion mop cleans the article.

The operating part 5 is installed on the mop rod 2, the operating part 5 is tubular, the operating part 5 is sleeved on the mop rod 2, and therefore the operating part 5 can move axially along the mop rod 2.

The water squeezing piece 4 is connected with the operating piece 5 through a transmission structure, the transmission structure comprises a plurality of guide rods 6 and two groups of pull rod assemblies, the guide rods 6 are fixedly connected with the water squeezing piece 4, the water squeezing piece 4 and the guide rods 6 are made of plastics or metal, and the guide rods 6 are connected with the water squeezing piece 4 into a whole. A plurality of guide rods 6 are arranged along the length direction of the collodion cotton rack 3, and the guide rods 6 are distributed on both sides of the mop rod 2; a plurality of guiding holes 3a are formed in the collodion frame 3, a plurality of guiding rods 6 are arranged in one-to-one correspondence with the guiding holes 3a, and the guiding rods 6 are embedded into the guiding holes 3a, so that the movement mobility and the stress uniformity of the water squeezing piece 4 are improved. Avoidance holes 1b corresponding to the guide rods 6 one by one are formed in the bottom surface of the avoidance groove 1a of the collodion working head 1, and the guide rods 6 are positioned in the avoidance holes 1 b; the structure limits the movement of the collodion working head 1 relative to the collodion frame 3, so that the collodion working head 1 is arranged on the collodion frame 3.

The two groups of pull rod assemblies are respectively positioned at two sides of the mop rod 2, two guide rods 6 and the two groups of pull rod assemblies are arranged in a one-to-one correspondence mode, and the guide rods 6 are connected with the operating piece 5 through the pull rod assemblies. The pull rod assembly comprises a first pull rod 7 and a second pull rod 8, and the first pull rod 7 is fixedly connected with the operating piece 5; the middle part of the second pull rod 8 is rotatably connected with the guide rod 6 through a first rotating shaft 9, the outer end part of the second pull rod 8 can be leaned on the top surface of the collodion frame 3, the inner end part of the second pull rod 8 is provided with a strip-shaped sliding groove 8a, the sliding groove 8a is arranged along the length direction of the second pull rod 8, the outer end part of the first pull rod 7 is provided with a second rotating shaft 10, and the second rotating shaft 10 is embedded into the sliding groove 8 a. The outer tip of second pull rod 8 rotates through third pivot 12 and is connected with first gyro wheel 11, and second pull rod 8 relies on the top surface of glued membrane frame 3 through first gyro wheel 11 from this, reduces frictional force between second pull rod 8 and the glued membrane frame 3 for second pull rod 8 is changeed for glued membrane frame 3 and is slided, and then improves 8 swing flexibility of second pull rod and stability, improves crowded 4 motion stability of water spare.

By explaining the function and advantages of each component further, as shown in fig. 3, when an operator holds the operating member 5, the operating member 5 is pulled to move in the direction indicated by the arrow, that is, the operating member 5 is pulled to move upwards, the operating member 5 drives the first pull rod 7 to move upwards synchronously, the first pull rod 7 drives the inner end of the second pull rod 8 to move upwards, the second rotating shaft 10 moves in the sliding groove 8a, and therefore the second pull rod 8 swings around the first rotating shaft 9. In the swinging process of the second pull rod 8, after the first roller 11 is leaned on the top surface of the collodion rack 3, the second pull rod 8 pulls the guide rod 6 to move; and the guide rod 6 drives the water squeezing plates to move synchronously, and the water squeezing plates move towards the direction close to the collodion cotton rack 3. Because the distance between the wringing plate and the collodion rack 3 is reduced, the part of the collodion working head 1, which is positioned between the wringing plate and the collodion rack 3, is squeezed, and then moisture is squeezed out, so that wringing operation is realized. The water squeezing piece 4 is provided with a plurality of water outlet holes 4a, so that the water draining smoothness is improved, and the water squeezing efficiency is improved.

Because the collodion working head 1 has elasticity, people can push the operating part 5 reversely to reset all the parts, and can also directly release the operating part 5 to gradually reset under the action of the elasticity of the collodion working head 1, namely, the collodion working head 1 drives the wringing plate to move towards the direction far away from the collodion frame 3, the wringing plate drives the guide rod 6 to move, the guide rod 6 drives the pull rod assembly to move, and the pull rod assembly drives the operating part 5 to move.

Example two: the structure and principle of the present embodiment are substantially the same as those of the first embodiment, and the substantially same parts are not described redundantly, but only different parts are described, and the different parts are: the top surface of the collodion working head 1 is fixedly connected with the collodion frame 3 in a bonding way.

Example three: the structure and principle of the present embodiment are substantially the same as those of the first embodiment, and the substantially same parts are not described redundantly, but only different parts are described, and the different parts are the operating member 5 and the pull rod assembly: the operating part 5 is an operating rod, one end of the operating rod rotates with the mop rod 2, the pull rod assembly comprises a third pull rod, the lower end of the third pull rod is rotatably connected with the guide rod 6, the upper end of the third pull rod is rotatably connected with the middle of the operating rod, and the other end of the operating rod is a handle part for being held by an operating hand.

During the water squeezing operation, an operator holds the operating piece 5 by hand, pulls the operating piece 5 to enable the operating piece 5 to swing upwards, the operating piece 5 pulls the third pull rod to move upwards and swing, and the third pull rod pulls the guide rod 6 to move; and the guide rod 6 drives the water squeezing plates to move synchronously, and the water squeezing plates move towards the direction close to the collodion cotton rack 3.

Example four: the structure and principle of the present embodiment are substantially the same as those of the first embodiment, and the description of the substantial parts is omitted, and only the differences are described, which are the connection structure between the first pull rod 7 and the operating member 5 and the second pull rod 8 in the pull rod assembly. As shown in fig. 6 and 7, the second link 8 has a telescopic hole 8b formed therein along the longitudinal direction, one end of the first link 7 is fitted into the telescopic hole 8b, and the other end of the first link 7 is rotatably connected to the operating element 5 via a fourth rotating shaft 13.

During the water squeezing operation, an operator holds the operating part 5 by hand, pulls the operating part 5 to move along the direction indicated by an arrow, namely, pulls the operating part 5 to move upwards, the operating part 5 pulls the first pull rod 7 to move upwards, the first pull rod 7 synchronously swings, the first pull rod 7 drives the inner end of the second pull rod 8 to swing upwards, the first pull rod 7 moves relative to the second pull rod 8 along the length direction, and therefore the second pull rod 8 swings around the first rotating shaft 9. In the swinging process of the second pull rod 8, after the first roller 11 is leaned on the top surface of the collodion rack 3, the second pull rod 8 pulls the guide rod 6 to move; and the guide rod 6 drives the water squeezing plates to move synchronously, and the water squeezing plates move towards the direction close to the collodion cotton rack 3.

Example five: as shown in fig. 8 to 10, the structure and principle of the present embodiment are substantially the same as those of the fourth embodiment, and the description of the substantially same parts is not repeated, but only the differences between the tie bar assembly and the connecting structure of the guide bar 6 and the collodion frame 3 are described. The pull rod assembly comprises a first rotating shaft 9 which is used for rotatably connecting the outer end part of the second pull rod 8 with the guide rod 6, and a lever salient point 3b which is used for the middle part of the second pull rod 8 to lean on is arranged on the top surface of the collodion rack 3. The lever salient point 3b is rotatably connected with a second roller 14, so that the second pull rod 8 is leaned on the top surface of the collodion frame 3 through the second roller 14, and the friction force between the second pull rod 8 and the collodion frame 3 is reduced.

As shown in fig. 8 to 10, during the water squeezing operation, an operator holds the operating element 5, pushes the operating element 5 to move in the direction indicated by the arrow, that is, pushes the operating element 5 to move downward, the operating element 5 pushes the first pull rod 7 to move downward, the first pull rod 7 synchronously swings, the first pull rod 7 drives the inner end of the second pull rod 8 to swing downward and the first pull rod 7 moves in the length direction relative to the second pull rod 8, so that the second pull rod 8 swings around the first rotating shaft 9. During the swinging process of the second pull rod 8, the second pull rod 8 is leant on the second roller 14, and the second pull rod 8 pulls the guide rod 6 to move; and the guide rod 6 drives the water squeezing plates to move synchronously, and the water squeezing plates move towards the direction close to the collodion cotton rack 3.

Claims

1. A collodion mop comprises a collodion working head (1), a mop rod (2) and a collodion frame (3) positioned between the collodion working head (1) and the mop rod (2), wherein the lower end part of the mop rod (2) is connected with the collodion frame (3), and the collodion working head (1) is arranged on the collodion frame (3); the mop is characterized in that a wringing piece (4) is arranged in the collodion working head (1), an operating piece (5) is installed on the mop rod (2), the wringing piece (4) is connected with the operating piece (5) through a transmission structure, and when the operating piece (5) is operated, the operating piece (5) can drive the wringing plate to move towards the direction close to the collodion frame (3) through the transmission structure.

2. The collodion mop of claim 1, wherein the transmission structure comprises a pull rod assembly and a plurality of guide rods (6), the guide rods (6) are fixedly connected with the wringing member (4), the collodion frame (3) is provided with a plurality of guide holes (3 a), the guide rods (6) and the guide holes (3 a) are arranged in a one-to-one correspondence manner, and the guide rods (6) are embedded into the guide holes (3 a); the guide rod (6) is connected with the operating piece (5) through a pull rod assembly.

3. The collodion mop according to claim 2, characterized in that the lever assembly comprises a first lever (7) and a second lever (8), the middle part of the second lever (8) is rotatably connected with the guide bar (6) through a first rotating shaft (9), the outer end part of the second lever (8) can rest on the top surface of the collodion frame (3), and the inner end part of the second lever (8) is connected with the operating piece (5) through the first lever (7).

4. The collodion mop of claim 3, in which the outer end of the second lever (8) is rotatably connected to a first roller (11) by a third shaft (12).

5. The collodion mop of claim 2, wherein the pull rod assembly comprises a first pull rod (7) and a second pull rod (8), the outer end of the second pull rod (8) is rotatably connected with the guide rod (6) through a first rotating shaft (9), and a lever salient point (3 b) for the middle part of the second pull rod (8) to lean against is arranged on the top surface of the collodion frame (3); the inner end of the second pull rod (8) is connected with the operating piece (5) through the first pull rod (7).

6. The collodion mop of claim 5, wherein a second roller (14) is rotatably attached to the lever nose (3 b).

7. The collodion mop of claim 3 or 4 or 5 or 6, in which the first lever (7) is fixedly connected to the operating member (5); the inner end part of the second pull rod (8) is provided with a strip-shaped sliding groove (8 a), the sliding groove (8 a) is arranged along the length direction of the second pull rod (8), the outer end part of the first pull rod (7) is provided with a second rotating shaft (10), and the second rotating shaft (10) is embedded into the sliding groove (8 a).

8. The collodion mop of claim 3 or 4 or 5 or 6, wherein the second pull rod (8) has a telescopic hole (8 b) arranged along the length direction, one end of the first pull rod (7) is embedded into the telescopic hole (8 b), and the other end of the first pull rod (7) is rotatably connected with the operating member (5) through a fourth rotating shaft (13).

9. The collodion mop of claim 3 or 4 or 5 or 6, wherein the operating member (5) is tubular, the operating member (5) fits over the mop pole (2), and the operating member (5) is axially movable along the mop pole (2).

10. The collodion mop of claim 2, wherein the operating member (5) is an operating lever, one end of the operating lever rotates with the mop rod (2), the pull rod assembly comprises a third pull rod, the lower end of the third pull rod is rotatably connected with the guide rod (6), the upper end of the third pull rod is rotatably connected with the middle part of the operating lever, and the other end of the operating lever is a handle part for an operator to hold.

11. The collodion mop according to claim 2 or 3 or 4 or 5 or 6 or 10, characterized in that the collodion frame (3) is in the shape of a strip plate, a plurality of guide rods (6) are arranged along the length direction of the collodion frame (3), and the guide rods (6) are distributed on both sides of the mop rod (2).

12. The collodion mop of claim 11, wherein the mop rod (2) has one set of tie rod assemblies distributed on both sides, and the two guide rods (6) are arranged in one-to-one correspondence with the two sets of tie rod assemblies.

13. The collodion mop according to claim 2 or 3 or 4 or 5 or 6 or 10, characterized in that the collodion working head (1) is provided with avoidance holes (1 b) corresponding to the guide rods (6) one by one, and the guide rods (6) are positioned in the avoidance holes (1 b).

14. The collodion mop of claim 2 or 3 or 4 or 5 or 6 or 10, wherein the wringing member (4) and the guide bar (6) are both made of plastic or metal, and the guide bar (6) is integrally connected with the wringing member (4).

15. The collodion mop according to claim 1, 2, 3, 4, 5, 6 or 10, wherein the collodion working head (1) is in the shape of a strip block, the bottom surface of the collodion working head (1) is provided with an avoiding groove (1 a), and the avoiding groove (1 a) is arranged along the length direction of the collodion working head (1); the water squeezing piece (4) is plate-shaped, and the water squeezing piece (4) is arranged in the avoiding groove (1 a).