CN210902877U - Collodion or flat mop water squeezing device and filtering cleaning bucket - Google Patents

Abstract

The utility model provides a collodion or dull and stereotyped mop wringing device and filtration cleaning bucket, the device include preceding wringer and back wringer, preceding wringer and back wringer at least one of them include structure A, structure A includes two fixed connection's riser, is provided with at least one wringing roller between two risers, wringing roller is through setting up guide slot and two riser roll connection on the riser, the trend route of guide slot draws in gradually by collodion or dull and stereotyped mop wringing device's outside inboard in the entering direction of collodion mop. The efficiency ratio is relatively high, the opening degree of the guide groove can be smaller, the structure is compact, the work is reliable, and the maintenance is convenient.

Description

Collodion or flat mop water squeezing device and filtering cleaning bucket

Technical Field

The utility model relates to a burnisher field especially relates to a collodion or dull and stereotyped mop water squeezing device and filtration cleaning cask.

Background

The collodion mop is a mop adopting collodion as a wiping object, and the prior collodion mop mainly adopts a collodion head fixed on a mounting plate with a mop rod. The flat mop is similar to the flat mop, so that the mop needs to squeeze out water adsorbed on the mop head when in use, and therefore a collodion or flat mop water squeezing device is needed, and the collodion or flat mop water squeezing device is usually arranged in the filtering and cleaning water bucket for convenience of use. The collodion mop usually needs to greatly extrude the collodion head through a narrow slit to discharge water in the water extruding process, so the extruding force is relatively large, the passing resistance of the mop is large, if the width of the narrow slit of the collodion or flat mop water extruding device is consistent, the mop needs large force in the processes of entering and pulling out, and the mop extrudes most of water in the process of entering, so the water discharge in the process of pulling out is little, and the whole efficiency ratio (the ratio of work to effect) is not high.

SUMMERY OF THE UTILITY MODEL

The technical problem to be solved by the utility model is to provide a collodion or flat mop wringing device and a filtering cleaning bucket with relatively high efficacy ratio.

In order to solve the technical problem, the technical scheme of the utility model is that: at least one of the front water squeezer and the rear water squeezer comprises a structure A, the structure A comprises two vertical plates which are fixedly connected, at least one water squeezing roller is arranged between the two vertical plates, the water squeezing roller is in rolling connection with the two vertical plates through guide grooves arranged on the vertical plates, and the trend path of the guide grooves is gradually folded from the outer side to the inner side of the water squeezing device of the collodion or flat mop in the entering direction of the collodion mop.

Further: the front water squeezing device and the rear water squeezing device both comprise structures A.

Further: the water squeezing roller of the rear water squeezing device is in a dumbbell shape with two thick heads and a connecting rod, and the radius difference between the thick heads and the connecting rod is not less than the height difference from the mop rod to the mounting plate after the collodion mop is folded.

Further: the number of the rear wringers is 2, the wringing rollers and the guide grooves of the 2 rear wringers have the same overall dimension, the moving paths of the guide grooves are the same, the 2 rear wringers are axially arranged along the wringing rollers, and a middle empty groove which is not smaller than the width of the cross section of the mop rod of the collodion mop is formed between the two rear wringers.

Further: the guide groove trend paths of the front water squeezing device and the rear water squeezing device are in mirror symmetry.

Further: the outer layer of the water squeezing roller of the rear water squeezing device is a rubber layer.

A filtering and cleaning water bucket comprises a bucket body and a collodion or flat mop water squeezing device arranged in the bucket body, wherein the collodion or flat mop water squeezing device is the collodion or flat mop water squeezing device.

Further: the structure A further comprises a water guide plate, two side rings are arranged on one side of the water guide plate, the side rings are sleeved at two ends of the water squeezing roller in a clearance fit mode, and the other side of the water guide plate is lapped on the U-shaped vertical edge of the water guide groove.

Further: the barrel body is internally provided with a clapboard for separating the lower part of the barrel body to form an extruding area and a cleaning area on the lower part of the barrel body, a collodion or flat mop water squeezing device is arranged on the barrel body above at least one of the extruding area and the cleaning area, the bottom surface of the water guide groove is an inclined bottom plate inclined towards the cleaning area, and the bottom of the water guide groove close to the lower end of the inclined bottom plate is provided with a water leakage hole.

Further: and a filtering sponge is laid on the inner bottom surface of the water chute.

Through adopting the technical scheme, the technical effect of the utility model is that an efficiency is than the crowded water device of higher glued membrane or dull and stereotyped mop and filter clean cask relatively is provided, and the guide slot aperture of this product can be less, its compact structure, reliable operation, and it is convenient to maintain.

Drawings

FIG. 1 is a plan view of embodiment I of the present invention;

FIG. 2 is a cross-sectional view of section A-A of FIG. 1;

FIG. 3 is an enlarged partial view at C of FIG. 2;

fig. 4 is a top view of embodiment ii of the present invention;

FIG. 5 is a cross-sectional view of section B-B of FIG. 4;

the cleaning device comprises a barrel body 1, an outer vertical plate 2, a water guide groove 3, a filtering sponge 4, a water guide plate 5, a side ring 6, a front water squeezing roller 7, a limiting block 8, a rear water squeezing roller 9, a squeezing area 10, a rubber ring 11, a cleaning area 12, a connecting rod 13, a thick head 14, a collodion mop 15, a rear guide groove 16, a partition plate 17, a front guide groove 18, a water squeezing roller end shaft 19, an inclined bottom plate 20, a water leakage hole 21, an inner vertical plate 22, a short water squeezing roller 23 and a middle empty groove 24.

Detailed Description

First, and particularly with respect to the fore-aft orientation of a collodion or flat mop wringer (hereinafter sometimes simply a wringer), the following discussion will be made primarily with reference to a collodion mop, since it is similar to a flat mop, depending on the orientation of the collodion head as it enters the device. For example, as shown in fig. 2, the collodion mop 15 at the upper left has the collodion head facing to the right, so that for the corresponding wringing device which the collodion mop is about to enter, the front is at the right in fig. 2, the roller at the right is the front wringing roller 7, and the roller at the left is the rear wringing roller 9; whereas for the lower right collodion mop 15, the collodion head is oriented to the left, so that for the corresponding wringing device, the front is to the left in fig. 2, the right roller is the rear wringing roller 9, and the left roller is the front wringing roller 7.

Example I

As shown in fig. 1 and 2, the barrel 1 of the present embodiment has a partition 17 for partitioning the lower portion of the barrel 1, so that the lower portion of the barrel 1 forms a wringing area 10 and a cleaning area 12, and collodion or flat mop wringing devices are disposed in the sidewall of the barrel 1 above the wringing area 10 and the cleaning area 12. The collodion or flat mop wringer comprises a front wringer and a rear wringer, both of which comprise a structure A (the preferred embodiment of this embodiment is that of both of which, although one can be used, the other can be a structure comprising a structure A and the other a fixed object such as a flat plate).

The structure A comprises two vertical plates which are fixedly connected, at least one water squeezing roller is arranged between the two vertical plates, the water squeezing roller is in rolling connection with the two vertical plates through guide grooves formed in the vertical plates, and the trend path of the guide grooves is gradually folded from the outer side to the inner side of the collodion or flat mop water squeezing device in the entering direction of the collodion mop. The specific structure of structure a takes the collodion or flat mop wringing device on the left side of fig. 3 as an example: the two outer vertical plates 2 are fixedly connected through the barrel body 1, the front wringing roller 7 is arranged between the two outer vertical plates 2, the two outer vertical plates 2 are respectively provided with a front guide groove 18 which corresponds to each other, and the front wringing roller 7 can roll in the two front guide grooves 18; in fig. 3, the front guide groove 18 on the left side gradually converges from the upper right to the lower left, and since the mop vertically enters the collodion or flat mop wringing device, the front guide groove 18 on the left side of fig. 3 gradually converges from the outer side (right side) to the inner side (left side) of the wringing device in the entering direction of the collodion mop. The collodion or flat mop wringing device arranged in this way can gradually fold the wringing roller towards the mop in the wringing process, so that the wringing narrow gap is reduced, the squeezing amount of the collodion is increased, the wringing effect is enhanced, when the mop is pulled out, the wringing roller can move outwards, the wringing narrow gap is enlarged, the squeezing amount of the collodion is reduced, the pulling force is reduced, the physical strength of a user is saved, and the efficacy ratio of the user is improved.

In order to ensure that the wringing roller can keep the required position before the mop enters, the length of the wringing roller can be made to be slightly larger than the distance between the two vertical plates, so that the wringing roller is clamped at any position between the vertical plates; the rubber ring 11 with the diameter slightly wider than that of the guide groove can be arranged outside the water squeezing roller end shaft 19 at the two ends of the water squeezing roller, so that the water squeezing roller can be clamped at any position in the guide groove.

In addition, because preceding wringer and the back wringer of this embodiment all have structure A, the beneficial effect who sets up like this lies in: because the guide groove of the structure a has an inclination, the collodion can generate an expanded counterforce after being extruded by the wringing roller, taking the front wringing roller 7 on the right side of fig. 3 as an example, after the front wringing roller 7 is subjected to the counterforce, an upward component force can be generated along the front guide groove 18, if the opening degree of the front guide groove 18 is larger, namely the overall vertical trend of the front guide groove 18 is smaller but appears to be relatively more horizontal, the front wringing roller 7 can be propped open by a collodion head to slip under the counterforce, so that the wringing narrow gap can not be continuously reduced to cause the condition that the whole wringing mechanism fails. Because the compression amount of the collodion (namely the transverse movement amount of the water squeezing roller) is a fixed design value for the collodion mop, the length of the guide groove can be increased (namely the longitudinal movement amount of the water squeezing roller) in order to reduce the opening degree of the guide groove, but the water squeezing narrow gap can be completely narrowed after the mop is subjected to long displacement, and the water outlet effect of the collodion head passing before the water squeezing narrow gap is not strong. And if all be provided with structure A around the mop, then the guide slot of two structure A shares the compression volume of glued membrane (the lateral shifting volume of wringing roller promptly) jointly for the lateral shifting size of single guide slot reduces (reduces to half of total lateral shifting volume at minimum), thereby makes to reduce the aperture of guide slot under the condition of not increasing guide slot length, has reduced the mechanism size under the prerequisite that prevents the mechanism inefficacy, and can make the mop receive the wringing slot to minimum fast in moving down, has guaranteed the wringing effect. The front guide groove 18 and the rear guide groove 16 of the present embodiment may be symmetrically or asymmetrically arranged, but to ensure the above-mentioned effects to be optimal, the guide groove running paths of the front wringer and the rear wringer should be mirror-symmetric, that is, the opening degrees of the front and rear guide grooves are the same, and the head and the tail of the guide grooves are on the same horizontal line. The channels may also be staggered in that the ends of the channels may be at different heights, for example, for easier mop access, the front channel 18 may be positioned relatively upper and the rear channel 16 may be positioned relatively lower.

In order to make the water squeezing roller of the rear water squeezing device work stably and reliably and adapt to the shape of a common collodion mop, the rear water squeezing roller 9 of the embodiment is in a dumbbell shape with two thick heads 14 and a connecting rod 13 as shown in figure 1, and the radius difference between the thick heads 14 and the connecting rod 13 is not less than the height difference from the mop rod to the mounting plate after the collodion mop is folded. This arrangement allows the thick head 14 of the rear wringing roller 9 to engage the mounting plate of the mop to squeeze the mop swab head reliably and efficiently in conjunction with the front wringing roller 7. However, since the mounting plate of the general mop is made of plastic and is smooth, the outer layer of the water squeezing roller of the rear water squeezing device is a rubber layer to increase friction force so that the roller rolls normally in order to ensure that the rear water squeezing roller 9 works more stably and reliably.

This embodiment still is provided with guiding gutter 3, guiding gutter 3 and staving 1 fixed connection, guiding gutter 3 is up U type groove, and collodion or dull and stereotyped mop wringing device are located guiding gutter 3 oblique top, structure A still includes water deflector 5, one side of water deflector 5 is provided with two limit rings 6, the both ends of wringing roller are established to limit ring 6 clearance fit ground cover, and the other side overlap joint of water deflector 5 is on the U type standing edge of guiding gutter 3. Therefore, when the wringing roller moves up and down, the water guide plate 5 always rotates relative to the wringing roller and keeps one side of the water guide plate lapped on the vertical side of the water guide groove 3, so that water extruded by the wringing device mainly flows into the water guide groove 3, in order to ensure that the water guide effect is better, the gap between the water guide plate 5 and the wringing roller is made to be smaller as much as possible, and the gap is set to be 0.5mm in the embodiment. Since the water squeezed by the squeezing device is basically sewage, the sewage can be guided to other places to be separated from the purified water after the water chute 3 is provided.

In addition, the bottom surface of the water chute 3 of the present embodiment is an inclined bottom plate 20 inclined toward the cleaning area 12, and the bottom of the water chute 3 near the lower end of the inclined bottom plate 20 is provided with a water leakage hole 21. The arrangement is mainly that the sewage accumulated by the water chute 3 or guided to other places can reduce the water storage amount of the cleaning area, a user can add water again in the using process to cause inconvenience in use, a household user generally does not worry about that the sewage flows back to the cleaning area 12 when cleaning the mop, but the user can judge whether water exists in the squeezing area 10, on one hand, the cleaned mop is afraid of being dirtied again by the sewage, on the other hand, the squeezed mop is afraid of being wetted again, and therefore the requirements of the customer are met after the arrangement. The squeezing area 10 is inevitably accumulated with water in the using process, so a limit block 8 can be arranged in the squeezing area to prevent the collodion mop 15 from being wetted when touching the bottom.

In order to purify the sewage flowing back to the cleaning area 12 to a certain extent and enhance the cleaning effect, a filtering sponge 4 can be laid on the inner bottom surface of the water chute 3. The sewage that extrudes like this wraps up and to be carried the filth and can be filtered by filtering sponge 4 earlier, and the filth that extrudes and aquatic impurity will be blocked and absorbed and stay in guiding gutter 3, and clear water after the filtration flows back washing district 12 again, makes the quality of water in washing district 12 keep clean. In addition, the filtering sponge 4 laid on the water chute 3 is easy to take out and clean, and the maintenance work of a user is facilitated.

Example II

As shown in fig. 4 and 5, the present embodiment is substantially the same as the previous embodiment except that the rear wringer is different. The number of the rear wringers of the embodiment is 2, the wringing rollers and the guide grooves of the 2 rear wringers have the same external dimension, the running paths of the guide grooves are the same, namely, one wringing roller is cut into two parts, and the specific structure of the embodiment is as follows: as shown in fig. 4, 2 inner vertical plates 22 are arranged between two outer vertical plates 2, a short wringing roller 23 is arranged between one outer vertical plate 2 and one inner vertical plate 22, the short wringing roller 23 is connected with one outer vertical plate 2 and one inner vertical plate 22 through the rear guide groove 16 in a rolling manner, the two short wringing rollers 23 and the corresponding rear guide grooves 16 have the same external dimension, and the moving paths of the rear guide grooves 16 are the same. In addition, the 2 rear water squeezing devices are axially arranged along the water squeezing rollers, and a middle hollow groove 24 which is not less than the section width of the mop rod of the collodion mop is formed between the two rear water squeezing devices (namely, the middle hollow groove 24 is formed between the two inner vertical plates 22), so that the mop rod can pass through. The rear wringer of the previous embodiment has a dumbbell-shaped appearance, the height difference between the thick head part 14 of the dumbbell and the connecting rod 13 is higher than the height difference between the mop rod and the mounting plate, so the volume is larger, the diameter of the short wringing roller 23 is smaller after the short wringing roller 23 of the embodiment can be attached to the mounting plate of the mop, the problem is overcome, and the whole structure is compact.

Claims (10)

1. A collodion or flat mop wringing device is characterized in that: the mop comprises a front water squeezer and a rear water squeezer, wherein at least one of the front water squeezer and the rear water squeezer comprises a structure A, the structure A comprises two vertical plates which are fixedly connected, at least one water squeezing roller is arranged between the two vertical plates, the water squeezing roller is in rolling connection with the two vertical plates through guide grooves arranged on the vertical plates, and the trend path of the guide grooves is gradually drawn from the outer side to the inner side of a collodion or flat mop water squeezing device in the entering direction of the collodion mop.

2. A collodion or flat mop wringing device of claim 1, wherein: the front water squeezing device and the rear water squeezing device both comprise structures A.

3. A collodion or flat mop wringing device according to claim 2, wherein: the water squeezing roller of the rear water squeezing device is in a dumbbell shape with two thick heads (14) and a connecting rod (13), and the radius difference between the thick heads (14) and the connecting rod (13) is not less than the height difference from the mop rod to the mounting plate after the collodion mop is folded.

4. A collodion or flat mop wringing device according to claim 2, wherein: the number of the rear wringers is 2, the wringing rollers and the guide grooves of the 2 rear wringers have the same overall dimension, the moving paths of the guide grooves are the same, the 2 rear wringers are axially arranged along the wringing rollers, and a middle empty groove (24) which is not smaller than the width of the cross section of the mop rod of the collodion mop is formed between the two rear wringers.

5. A collodion or flat mop wringing device of any one of claims 2 to 4, wherein: the guide groove trend paths of the front water squeezing device and the rear water squeezing device are in mirror symmetry.

6. A collodion or flat mop wringing device of any one of claims 2 to 4, wherein: the outer layer of the water squeezing roller of the rear water squeezing device is a rubber layer.

7. The utility model provides a filter clean cask, includes staving (1), its characterized in that: the mop bucket further comprises a collodion or flat mop water squeezing device arranged in the bucket body (1), wherein the collodion or flat mop water squeezing device is as claimed in any one of claims 1 to 6.

8. The filtering cleaning water tub as set forth in claim 7, wherein: the structure A further comprises a water guide plate (5), two side rings (6) are arranged on one side of the water guide plate (5), the side rings (6) are sleeved at two ends of the water squeezing roller in a clearance fit mode, and the other side of the water guide plate (5) is lapped on a U-shaped vertical edge of the water guide groove (3).

9. The filtering cleaning water tub as set forth in claim 8, wherein: the inner part of the barrel body (1) is provided with a partition plate (17) for partitioning the lower part of the barrel body (1) to form a squeezing area (10) and a cleaning area (12), a collodion or flat mop squeezing device is arranged in the barrel body (1) above at least one of the squeezing area (10) and the cleaning area (12), the bottom surface of the water guide groove (3) is an inclined bottom plate (20) inclined to the cleaning area (12), and the bottom of the water guide groove (3) close to the lower end of the inclined bottom plate (20) is provided with a water leakage hole (21).

10. The filtering cleaning water tub as set forth in claim 9, wherein: a filtering sponge (4) is laid on the inner bottom surface of the water chute (3).

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