阅读说明：本技术 胶棉平板拖挤水装置 (Collodion flat mop water squeezing device ) 是由 郑红燕 于 2018-01-23 设计创作，主要内容包括：本发明提供了一种胶棉平板拖挤水装置,属于生活用品技术领域。它解决了现有的平板拖把挤水装置不适合对胶棉平板拖把擦拭物进行挤水作业的问题。本胶棉平板拖挤水装置包括基座和挤压件,基座上具有拖把工作头放置腔,拖把工作头放置腔的底面上具有泄水孔；挤压件位于拖把工作头放置腔的底面上方；基座固定在清洁桶上或基座与清洁桶连为一体,清洁桶上安装有与挤压件相连接的踏板或把手；当踩踏踏板或按压把手时,踏板或把手能带动挤压件向下运动,挤压件迫使背板向下运动以及擦拭物挤压变形。本胶棉平板拖挤水装置适合对胶棉平板拖把擦拭物进行挤水。本胶棉平板拖挤水装置还具有结构简单、制造成本低、使用方便且性能稳定的优点。(The invention provides a collodion flat mop wringing device, and belongs to the technical field of articles for daily use. The device solves the problem that the existing flat mop wringing device is not suitable for wringing the wiping material of the collodion flat mop. The collodion flat mop water squeezing device comprises a base and a squeezing piece, wherein the base is provided with a mop working head placing cavity, and the bottom surface of the mop working head placing cavity is provided with a water drainage hole; the extrusion piece is positioned above the bottom surface of the mop working head placing cavity; the base is fixed on the cleaning barrel or the base and the cleaning barrel are connected into a whole, and a pedal or a handle connected with the extrusion piece is arranged on the cleaning barrel; when the pedal is stepped or the handle is pressed, the pedal or the handle can drive the extrusion piece to move downwards, the extrusion piece forces the back plate to move downwards and the wiping object to deform in an extrusion way. The collodion flat mop wringing device is suitable for wringing the wiping materials of the collodion flat mop. The collodion flat mop wringing device also has the advantages of simple structure, low manufacturing cost, convenient use and stable performance.)

1. A collodion flat mop water squeezing device comprises a base (1) and a squeezing piece (2), wherein a mop working head placing cavity (1 a) is formed in the base (1), and a water drainage hole (1 b) is formed in the bottom surface of the mop working head placing cavity (1 a); the extrusion piece (2) is positioned above the bottom surface of the mop working head placing cavity (1 a);

the collodion flat plate dragging and squeezing device is arranged on the cleaning barrel (4), the base (1) is fixed on the cleaning barrel (4) or the base (1) and the cleaning barrel (4) are connected into a whole, and the cleaning barrel (4) is provided with a pedal (5) or a handle connected with the extrusion piece (2); when the mop working head (7) dragged by the collodion flat plate is placed in the mop working head placing cavity (1 a), the mop working head (7) is positioned between the bottom surface of the mop working head placing cavity (1 a) and the extrusion piece (2), and when the pedal (5) is stepped or the handle is pressed, the pedal (5) or the handle can drive the extrusion piece (2) to move downwards, and the extrusion piece (2) forces the back plate (7 a) to move downwards and the wiping object (7 b) to extrude and deform.

2. The collodion flat mop wringing device of claim 1, wherein the extrusion piece (2) is in the shape of a round bar, and the extrusion piece (2) is connected with the base (1) through a guide mechanism;

or the extrusion piece (2) comprises a plurality of extrusion blocks (2 a), and the extrusion blocks (2 a) are arranged along the longitudinal direction of the mop working head placing cavity (1 a); when the mop working head (7) dragged by the collodion flat plate is placed in the mop working head placing cavity (1 a), the plurality of squeezing blocks (2 a) are arranged along the longitudinal direction of the mop working head (7).

3. The collodion flat mop wringing device of claim 2, wherein the guide structure comprises a guide chute (1 c), the guide chutes (1 c) are formed on both end walls of the base (1), the guide chute (1 c) comprises a vertical section (1 c 1) and an inward-contracting section (1 c 2), the lower end of the inward-contracting section (1 c 2) is communicated with the upper end of the vertical section (1 c 1), and the inward-contracting section (1 c 2) is obliquely arranged relative to the vertical section (1 c 1); one end of the round rod-shaped extrusion piece (2) is embedded in the guide chute (1 c) on one end wall, and the other end of the round rod-shaped extrusion piece (2) is embedded in the guide chute (1 c) on the other end wall.

4. The collodion flat mop wringing device of claim 2, characterized in that the base (1) has the same number of guide slides (1 d) as the number of the squeezing blocks (2 a), and the squeezing blocks (2 a) are connected with the guide slides (1 d) through a linear guide structure.

5. The collodion flat mop wringing device of claim 4, wherein the linear guide structure comprises a guide chute (1 c) and a guide slide block which are obliquely arranged, and the squeezing block (2 a) moves horizontally when moving downwards.

6. The collodion flat mop wringing device according to claim 3 or 5, wherein the number of the extrusion parts (2) is two, the two extrusion parts (2) are respectively arranged at two sides of the mop head placing cavity (1 a), and the two extrusion parts (2) are both connected with the pedal (5) or the handle; when the mop working head (7) dragged by the collodion flat plate is placed in the mop working head placing cavity (1 a), the two groups of extrusion pieces (2) are arranged along the transverse direction of the mop working head (7).

7. A collodion flat mop wringer device according to claim 6, wherein the spacing between the two sets of expression members (2) can be gradually reduced as the two sets of expression members (2) move downwardly.

8. The collodion flat mop wringing device of claim 6, characterized in that the two groups of extrusions (2) are connected by a linkage mechanism which enables the two groups of extrusions (2) to move synchronously; and the two groups of the extrusion parts (2) are connected with the pedal (5) or the handle through the linkage mechanism.

9. The collodion flat mop wringing device according to claim 8, wherein the linkage mechanism comprises two groups of linkage pieces (3), the linkage pieces (3) are provided with two horizontally arranged strip-shaped grooves (3 a), one end of each group of round-bar-shaped extrusion pieces (2) is correspondingly arranged in the two strip-shaped grooves (3 a) of one group of linkage pieces (3), and the other end of each group of round-bar-shaped extrusion pieces (2) is correspondingly arranged in the two strip-shaped grooves (3 a) of the other group of linkage pieces (3); the linkage sheet (3) is connected with the pedal (5) or the handle;

or the linkage mechanism comprises two groups of linkage pieces (3) and two linkage rods (6), and a plurality of extrusion blocks (2 a) in one group of extrusion pieces (2) are fixedly connected with one linkage rod (6); two groups of linkage pieces (3) are respectively positioned at two ends of the base (1), two strip-shaped grooves (3 a) which are horizontally arranged are formed in the linkage pieces (3), two ends of the linkage rod (6) are respectively embedded in the strip-shaped grooves (3 a) of the two groups of linkage pieces (3), and the linkage pieces (3) are connected with the pedals (5) or the handles.

Technical Field

The invention belongs to the technical field of articles for daily use, and relates to a mop water squeezing barrel, in particular to a collodion flat mop water squeezing device.

Background

The wiping material of the collodion mop is made of polyvinyl alcohol collodion. At present, the wringing mode of the collodion mop wiping object mainly comprises squeezing the wiping object by adopting roller shafts positioned at two sides of the wiping object and wringing the wiping object by adopting a turnover plate.

The existing flat mop wiper is made of cotton cloth, the flat mop wiper is made of polyvinyl alcohol collodion cotton, namely, a mop working head of the collodion flat mop comprises a back plate and a wiper connected with the back plate, the wiper is made of collodion cotton, and the wiper is in a sheet shape. The existing flat mop water squeezing device is not suitable for squeezing the wiping materials of the collodion flat mop; it would be desirable to provide a mechanism suitable for wringing a collodion flat mop wipe.

Disclosure of Invention

The invention provides a collodion flat mop wringing device, and aims to solve the technical problem of how to provide a mechanism suitable for wringing wiping materials of a collodion flat mop.

The technical problem to be solved by the invention can be realized by the following technical scheme: a collodion flat mop water squeezing device comprises a base and a squeezing piece, wherein a mop working head placing cavity is arranged on the base, and a water drainage hole is formed in the bottom surface of the mop working head placing cavity; the extrusion piece is positioned above the bottom surface of the mop working head placing cavity; the collodion flat plate dragging and squeezing device is arranged on the cleaning barrel, the base is fixed on the cleaning barrel or the base and the cleaning barrel are connected into a whole, and the cleaning barrel is provided with a pedal or a handle connected with the squeezing piece; when the mop working head dragged by the collodion flat plate is placed in the mop working head placing cavity, the mop working head is positioned between the bottom surface of the mop working head placing cavity and the extrusion piece, and when the pedal is stepped or the handle is pressed, the pedal or the handle can drive the extrusion piece to move downwards, and the extrusion piece forces the back plate to move downwards and the wiping object to be extruded and deformed.

The collodion flat mop comprises a mop working head, the mop working head also comprises a back plate and a wiping object arranged on the back plate, and a mop handle is arranged on the back plate. When the collodion flat mop wringing device is used for wringing collodion wiping materials, the mop working head of the collodion flat mop is placed in the mop working head placing cavity, and the working surface of the wiping materials and the bottom surface of the mop working head placing cavity are depended on each other. Then holding the mop handle of the collodion flat mop to keep the collodion flat mop in the state; and the pressing piece is forced to move downwards by adopting a foot to step on the pedal or adopting a hand to press the handle; in the movement process, the extrusion piece is firstly abutted against the top surface of the back plate, and then the extrusion piece drives the back plate to move downwards, so that the wiping object is forced to be extruded and deformed, water in the wiping object is extruded out, and the water flows away through the water drainage hole.

The backplate can disperse the effort of extruded article, improves the wiper extrusion deformation homogeneity, guarantees crowded water effect, avoids causing the local crowded water transition of wiper and the not enough problem of partial crowded water from this.

Compared with the prior art, the collodion flat mop wringing device is suitable for wringing the wiping material of the collodion flat mop. The collodion flat mop wringing device also has the advantages of simple structure, low manufacturing cost, convenient use and stable performance.

The extrusion can adopt any one of the following two schemes: the extrusion piece is in a round bar shape, and the extrusion piece is connected with the base through a guide mechanism. The round bar-shaped extrusion piece is arranged along the longitudinal direction of the mop working head placing cavity, so that when the mop working head dragged by the collodion flat plate is placed in the mop working head placing cavity, the round bar-shaped extrusion piece is arranged in parallel with the longitudinal direction of the mop working head. Scheme II: the extrusion piece comprises a plurality of extrusion blocks which are arranged along the longitudinal direction of the mop working head placing cavity; therefore, when the mop working head dragged by the collodion flat plate is placed in the mop working head placing cavity, the plurality of squeezing blocks are arranged along the longitudinal direction of the mop working head.

In the collodion flat mop wringing device, the guide structure comprises guide chutes, the two end walls of the base are both provided with the guide chutes, each guide chute comprises a vertical section and an inner contraction section, the lower end of the inner contraction section is communicated with the upper end of the vertical section, and the inner contraction section is obliquely arranged relative to the vertical section; one end of the round rod-shaped extrusion piece is embedded in the guide sliding groove on one end wall, and the other end of the round rod-shaped extrusion piece is embedded in the guide sliding groove on the other end wall. Whereby the extrusion also moves horizontally during the downward movement when the extrusion is in the retracted position.

In the collodion flat mop wringing device, the base is provided with the guide sliding seats the number of which is the same as that of the squeezing blocks, and the squeezing blocks are connected with the guide sliding seats through the linear guide structure.

In the above collodion flat mop wringing device, the linear guide structure comprises the guide chute and the guide slide block which are obliquely arranged, and the squeezing block also moves horizontally when moving downwards.

The guide structure and the linear guide structure can enable the extrusion part to move to the upper part of the mop working head from the outer side of the mop working head, in other words, the influence of the extrusion part on the placing of the mop working head dragged by the collodion flat plate into the mop working head placing cavity can be reduced, and the smoothness of the placing of the mop working head into the mop working head placing cavity is ensured.

In the collodion flat mop water squeezing device, the number of the squeezing parts is two, the two squeezing parts are respectively positioned at two sides of the mop working head placing cavity, and the two squeezing parts are connected with the pedal or the handle; when the mop working head dragged by the collodion flat plate is placed in the mop working head placing cavity, the two groups of extrusion pieces are arranged along the transverse direction of the mop working head. Therefore, when the two groups of extrusion parts move downwards through the reasonable step guide structure and the straight line guide structure, the distance between the two groups of extrusion parts can be gradually reduced, namely the two groups of extrusion parts can move to the upper part of the mop working head from the outer side of the mop working head. The two groups of extrusion pieces are adopted to apply acting force to the mop working head, so that the extrusion deformation uniformity of the wiping object is improved, the wringing effect is ensured, and in other words, the problems of partial wringing transition and partial wringing insufficiency of the wiping object are avoided.

In the collodion flat mop water squeezing device, the two groups of squeezing parts are connected through a linkage mechanism which can lead the two groups of squeezing parts to move synchronously; and the two groups of the extrusion pieces are connected with the pedal or the handle through the linkage mechanism. The linkage mechanism enables the two groups of extrusion parts to move synchronously, is convenient for applying acting force to the two groups of extrusion parts simultaneously, improves the consistency of the acting force applied by the two groups of extrusion parts simultaneously, and further improves the extrusion deformation uniformity of the wiping object.

Drawings

Fig. 1 is a schematic perspective view of a collodion flat mop wringing device in an embodiment.

Fig. 2 is a schematic perspective view of a base according to an embodiment.

Fig. 3 is a schematic view of a three-dimensional structure of squeezing water by a collodion flat mop squeezing device.

Fig. 4 is a schematic sectional view of the wiper in a deformed state by pressing.

Fig. 5 is a schematic perspective view of a collodion flat mop wringing device in the second embodiment.

Fig. 6 is a schematic view of a three-dimensional structure of squeezing water by a collodion flat mop squeezing device.

Fig. 7 is a schematic sectional view of the wiper in a deformed state by pressing.

In the figure, 1, a base; 1a, a mop working head placing cavity; 1b, a water drainage hole; 1c, a guide chute; 1c1, vertical segment; 1c2, internal contraction section; 1d, a guide sliding seat; 2. an extrusion; 2a, extruding a block; 3. a linkage piece; 3a, a strip-shaped groove; 4. cleaning the barrel; 5. a pedal; 6. a linkage rod; 7. a mop working head; 7a, a back plate; 7b, a wipe; 8. a mop handle.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.