CN220472036U - Mop dewatering device to iron and steel workshop - Google Patents

Abstract

The utility model relates to a mop dewatering device for a steel production workshop, which comprises a dewatering box body, wherein the top of the dewatering box body is provided with an opening; defining the long side direction of an opening of the dewatering box body as the X-axis direction, the short side direction of the opening as the Y-axis and the direction vertical to the ground as the Z-axis, and establishing a three-dimensional coordinate system; a first dewatering structure is arranged at the opening position in the dewatering box body, and a second dewatering structure is also arranged below the first dewatering structure on the Z axis; the utility model has simple operation, is convenient and quick, and can achieve the purposes of saving and protecting environment.

Description

Mop dewatering device to iron and steel workshop

Technical Field

The utility model relates to a mop dewatering device for a steel production workshop, belongs to the technical field of cleaning equipment, and particularly relates to cleaning equipment for the steel production workshop.

Background

In steel production workshops, mops are the most common cleaning equipment and the most practical cleaning device, and cleaning the mops is a routine operation because a large amount of stains are generated in the steel production process. Because more people use the mop, the mop is troublesome to drain after being cleaned, and the efficiency is low; after a person cleans the mop, more accumulated water remains in the mop, and when the mop is moved, accumulated water drops on the ground, so that pollution is caused. If water is accumulated on the ground, personnel can easily slip, and hidden danger exists; after cleaning the mop, personnel pass through the station and water is dropped into the station, so that electric shock injury is easily generated.

Many drips device to mop that appear on the market at present, like the practicality of application number 202022065731.8 discloses a sexual paper machine is mop dolly for water tank, including the sewage case, the sewage case bottom is equipped with the drain valve, is equipped with the waterlogging caused by excessive rainfall subassembly on the sewage case, and the sewage case bottom is equipped with the removal subassembly. The mop trolley for the water absorption box of the sexual paper machine is convenient to move in a workshop through the moving assembly, and labor force of workers is saved. The mop head can be extruded through the draining component and is used for draining the mop, so that the mop is prevented from being excessively wet, and time and labor are saved. The design of the water suction box device improves the operation efficiency, but if the mop is aimed at a steel workshop, the radiation area is large, the dirt is more after the workshop is cleaned, and the purpose of rapidness and high efficiency cannot be achieved by the common water draining device.

Therefore, aiming at the steel production workshop, it is necessary to design a dewatering device for the mop, and the draining efficiency is improved on the premise of ensuring the cleanliness.

Disclosure of Invention

The utility model provides a mop dewatering device for a steel production workshop, which is simple to operate, convenient and quick, and can achieve the purposes of saving and protecting the environment.

The technical scheme adopted for solving the technical problems is as follows:

a mop dewatering device for a steel production workshop comprises a dewatering box body, wherein the top of the dewatering box body is provided with an opening; defining the long side direction of an opening of the dewatering box body as the X-axis direction, the short side direction of the opening as the Y-axis and the direction vertical to the ground as the Z-axis, and establishing a three-dimensional coordinate system;

a first dewatering structure is arranged at the opening position in the dewatering box body, and a second dewatering structure is also arranged below the first dewatering structure on the Z axis;

the first dewatering structure comprises a first main rolling roller and two first side rolling rollers, wherein the length of the first main rolling roller is larger than the sum of the lengths of the two first side rolling rollers; the central axes of the first main rolling rollers are parallel to the X axis, the central axes of the two first side rolling rollers are positioned on the same axis and parallel to the X axis, and a distance is reserved between the adjacent ends of the two first side rolling rollers;

a dehydration space for squeezing the mop is formed between the first main rolling rollers and the two first side rolling rollers which are oppositely positioned on the same central axis;

the second dewatering structure comprises a second main rolling roller and a second side rolling roller, and the second main rolling roller and the second side rolling roller have the same length; in the Z-axis direction, a second main rolling roller is arranged below the first main rolling roller, a second side rolling roller is arranged below the two first side rolling rollers, and a dewatering space for squeezing the mop is also formed between the second main rolling roller and the second side rolling rollers;

as a further preferred aspect of the present utility model, first through holes are formed in both side walls of the dewatering box body provided with the first main rolling roller, the first main rolling shaft is simultaneously provided with two first through holes in a penetrating manner, the first main rolling roller is sleeved on the first main rolling shaft, and a gap exists between the first main rolling roller and the first main rolling shaft;

the two side walls of the dewatering box body provided with the second main rolling roller are provided with second through holes, the second main rolling shaft is simultaneously penetrated with two second through holes, the second main rolling roller is sleeved on the second main rolling shaft, and a gap exists between the second main rolling roller and the second main rolling shaft;

as a further preferred aspect of the present utility model, a first side rolling shaft is vertically fixed to a side wall of the dewatering box body provided with the first side rolling roller, the first side rolling roller is sleeved on the first side rolling shaft, and an inner diameter of the first side rolling roller is matched with an outer diameter of the first side rolling shaft;

a second side rolling shaft is vertically fixed on the side wall of the dewatering box body provided with the second side rolling roller, the second side rolling roller is sleeved on the second side rolling shaft, and the inner diameter of the second side rolling roller is matched with the outer diameter of the second side rolling shaft;

as a further preferred aspect of the present utility model, a spring is connected between the first main roller and the end portion of the first side roller adjacent to the first main roller;

a spring is connected between the adjacent ends of the second main rolling roller and the second side rolling roller;

as a further preferred aspect of the present utility model, the dewatering box body is extended outward simultaneously in parallel to both sides of the X-axis to form an inclined portion, and the extending direction of the inclined portion is in a space formed by the positive direction of the X-axis and the positive direction of the Z-axis;

as a further preferred aspect of the present utility model, the inclined portion adjacent to the first side driving roller is provided with a semicircular empty groove at a central position thereof, the diameter of the semicircular empty groove being equal to the distance between the adjacent ends of the two first side rolling rollers;

as a further preferable aspect of the present utility model, a through hole is formed in the bottom of the dewatering box body, and a sewer pipe is connected to the through hole.

Through the technical scheme, compared with the prior art, the utility model has the following beneficial effects:

1. according to the mop dewatering device for the steel production workshop, the first dewatering structure and the second dewatering structure are arranged in the dewatering box body, and the setting of the double dewatering structures ensures that the mop is drained completely;

2. according to the mop dehydration device for the steel production workshop, one side of each dehydration structure is fixed, and the other side of each dehydration structure is sliding, so that the mop can be bidirectionally extruded, and a dehydration effect is achieved;

3. according to the mop dewatering device for the steel production workshop, the springs are connected between the fixed type mop dewatering device and the sliding type mop dewatering device, the dewatering space is adjusted in real time, and the dewatering efficiency is further improved.

Drawings

The utility model will be further described with reference to the drawings and examples.

FIG. 1 is a schematic view of the overall structure of a preferred embodiment provided by the present utility model;

fig. 2 is a top view of a preferred embodiment provided by the present utility model.

In the figure: 1 is a dehydration box body, 2 is a first dehydration structure, 3 is a first main roller, 4 is a first side roller, 5 is a second main roller, 6 is a second side roller, 7 is an inclined part, and 8 is a sewer pipe.

Description of the embodiments

The utility model will now be described in further detail with reference to the accompanying drawings. In the description of the present application, it should be understood that the terms "left," "right," "upper," "lower," and the like indicate orientations or positional relationships based on the orientation or positional relationships shown in the drawings, and are merely for convenience in describing the present utility model and simplifying the description, rather than indicating or implying that the apparatus or element being referred to must have a specific orientation, be configured and operated in a specific orientation, and that "first," "second," etc. do not represent the importance of the components and therefore should not be construed as limiting the present utility model. The specific dimensions adopted in the present embodiment are only for illustrating the technical solution, and do not limit the protection scope of the present utility model.

As described in the background art, in order to drain a mop used in a steel production plant, it is first necessary to consider that the area of a cleaning surface of the mop used in the steel production plant is large, the hand-held portion thereof is also long, and when the floor of the plant is cleaned, there is a large amount of dirt, resulting in a large amount of water adhering to the floor after cleaning, so that it is not easy to drain the mop.

The application aims at providing a mop dewatering device to iron and steel workshop, and the device is placed next to the pond, and it includes dewatering box 1, and personnel insert the dewatering box with mop after cleaning, and the dehydration can be accomplished to the reciprocating. Specifically, for convenience of description, defining the long side direction of the opening of the dewatering box body as the X-axis direction, the short side direction of the opening as the Y-axis, and the direction vertical to the ground as the Z-axis, and establishing a three-dimensional coordinate system; a first dewatering structure 2 is arranged at the opening position in the dewatering box body, and a second dewatering structure is also arranged below the first dewatering structure on the Z axis; the two dewatering structures are arranged up and down, so that when the mop is inserted into the dewatering box body, the cleaning surface to be dewatered can be comprehensively covered.

The first dewatering structure comprises a first main rolling roller 3 and two first side rolling rollers 4, wherein the length of the first main rolling roller is larger than the sum of the lengths of the two first side rolling rollers; the central axes of the first main rolling rollers are parallel to the X axis, the central axes of the two first side rolling rollers are positioned on the same axis and parallel to the X axis, and a distance is reserved between the adjacent ends of the two first side rolling rollers, wherein the distance is used for facilitating the holding part of the mop, and when the mop is inserted into the dewatering box body, the part is just used as a moving space of the holding part;

secondly, arranging first through holes on two side walls of a dewatering box body provided with a first main rolling roller, wherein the first main rolling shaft is penetrated by the two first through holes at the same time, the first main rolling roller is sleeved on the first main rolling shaft, and a gap exists between the first main rolling roller and the first main rolling shaft; the first side rolling shaft is vertically fixed on the side wall of the dewatering box body provided with the first side rolling roller, the first side rolling roller is sleeved on the first side rolling shaft, and the inner diameter of the first side rolling roller is matched with the outer diameter of the first side rolling shaft. The first main rolling roller can automatically rotate on the first main rolling shaft and slide in a coordinate system, namely, the side part is of a sliding structure, the inner diameter of the first side rolling roller is matched with the outer diameter of the first side rolling shaft, and then the first side rolling roller can only automatically rotate on the first side rolling shaft, namely, the fixed type roller is formed.

A dehydration space for squeezing the mop is formed between the first main rolling rollers and the two first side rolling rollers which are oppositely positioned on the same central axis; when the mop is inserted into the mop cleaning surface, the direction of the first main rolling roller can be changed at will to the direction of the first side rolling roller according to the shape of the cleaning surface of the mop.

The second dewatering structure comprises a second main roll 5 and a second side roll 6, and the second main roll and the second side roll have the same length; in the Z-axis direction, a second main rolling roller is arranged below the first main rolling roller, and a second side rolling roller is arranged below the two first side rolling rollers; here, the two side walls of the dewatering box body provided with the second main rolling roller are provided with second through holes, the second main rolling shaft is simultaneously penetrated with two second through holes, the second main rolling roller is sleeved on the second main rolling shaft, and a gap exists between the second main rolling roller and the second main rolling shaft. And a second side rolling shaft is vertically fixed on the side wall of the dewatering box body provided with the second side rolling roller, the second side rolling roller is sleeved on the second side rolling shaft, and the inner diameter of the second side rolling roller is matched with the outer diameter of the second side rolling shaft. And a gap exists between the second main rolling roller and the second main rolling shaft, the second main rolling roller can automatically rotate on the second main rolling shaft and slide in a coordinate system, namely the sliding structure of the side part is meant, the inner diameter of the second side rolling roller is matched with the outer diameter of the second side rolling shaft, and then the second side rolling roller can only automatically rotate on the second side rolling shaft, namely the fixed type roller is used.

A dewatering space for squeezing the mop is also formed between the second main rolling roller and the second side rolling roller; when the mop is inserted into the mop cleaning surface, the direction of the second main rolling roller can be changed to the second side rolling roller at will according to the shape of the cleaning surface of the mop.

Because the two dewatering spaces are all required to be adjusted in real time for the cleaning surface of the mop, a spring is connected between the end parts of the first main rolling roller and the end parts of the first side rolling roller, which are adjacent to each other; and a spring is connected between the adjacent ends of the second main rolling roller and the second side rolling roller.

Because the cleaning surface of the mop moves up and down in the dewatering box body during draining, water splashes in the extrusion process, the dewatering box body simultaneously and outwards extends to form inclined parts 7 parallel to the two sides of the X axis, and the extending direction of the inclined parts is in a space formed by the positive direction of the X axis and the positive direction of the Z axis. The design of the inclined part not only serves as a support for the mop during draining, but also can block splashed water.

And the inclined part adjacent to the first side driving roller is provided with a semicircular empty groove at the middle position, and the diameter of the semicircular empty groove is equal to the distance between the adjacent ends of the two first side rolling rollers.

The bottom of the dewatering box body is provided with a through hole, the through hole is internally connected with a sewer pipe 8, water separated from the mop is collected to the bottom of the dewatering box body and is discharged through the sewer pipe, the sewer pipe is connected with a sewer, and the separated water can flow into the sewer through the sewer pipe, so that the mop is economical, environment-friendly, simple to operate and convenient and fast.

It will be understood by those skilled in the art that, unless otherwise defined, all terms (including technical and scientific terms) used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs. It will be further understood that terms, such as those defined in commonly used dictionaries, should be interpreted as having a meaning that is consistent with their meaning in the context of the prior art and will not be interpreted in an idealized or overly formal sense unless expressly so defined herein.

The meaning of "and/or" as referred to in this application means that each exists alone or both.

As used herein, "connected" means either a direct connection between elements or an indirect connection between elements via other elements.

With the above-described preferred embodiments according to the present utility model as an illustration, the above-described descriptions can be used by persons skilled in the relevant art to make various changes and modifications without departing from the scope of the technical idea of the present utility model. The technical scope of the present utility model is not limited to the description, but must be determined according to the scope of claims.

Claims (7)

1. A mop dewatering device to iron and steel workshop, its characterized in that: comprises a dewatering box body (1), wherein the top of the dewatering box body (1) is provided with an opening; defining the long side direction of the opening of the dewatering box body (1) as the X-axis direction, the short side direction of the opening as the Y-axis and the direction vertical to the ground as the Z-axis, and establishing a three-dimensional coordinate system;

a first dewatering structure (2) is arranged at the opening position in the dewatering box body (1), and a second dewatering structure is also arranged below the first dewatering structure (2) on the Z axis;

the first dewatering structure (2) comprises a first main rolling roller (3) and two first side rolling rollers (4), wherein the length of the first main rolling roller (3) is larger than the sum of the lengths of the two first side rolling rollers (4); the central axes of the first main rolling rollers (3) are parallel to the X axis, the central axes of the two first side rolling rollers (4) are positioned on the same axis and parallel to the X axis, and a distance is reserved between the adjacent ends of the two first side rolling rollers (4);

a dehydration space for squeezing the mop is formed between the two first side rolling rollers (4) which are oppositely positioned on the same central axis of the first main rolling roller (3);

the second dewatering structure comprises a second main rolling roller (5) and a second side rolling roller (6), and the second main rolling roller (5) and the second side rolling roller (6) have the same length; in the Z-axis direction, a second main roller (5) is arranged below the first main roller (3), a second side roller (6) is arranged below the two first side rollers (4), and a dewatering space for squeezing the mop is also formed between the second main roller (5) and the second side roller (6).

2. The mop dewatering device for steel production plants according to claim 1, characterized in that: the dewatering box comprises a dewatering box body (1) provided with a first main rolling roller (3), wherein two side walls of the dewatering box body are provided with first through holes, the first main rolling shaft is penetrated by the two first through holes at the same time, the first main rolling roller (3) is sleeved on the first main rolling shaft, and a gap exists between the first main rolling roller (3) and the first main rolling shaft;

second through holes are formed in two side walls of a dewatering box body (1) provided with a second main rolling roller (5), the second main rolling shaft is simultaneously penetrated by the two second through holes, the second main rolling roller (5) is sleeved on the second main rolling shaft, and a gap exists between the second main rolling roller (5) and the second main rolling shaft.

3. The mop dewatering device for steel production plants according to claim 2, characterized in that: a first side rolling shaft is vertically fixed on the side wall of a dewatering box body (1) provided with a first side rolling roller (4), the first side rolling roller (4) is sleeved on the first side rolling shaft, and the inner diameter of the first side rolling roller (4) is matched with the outer diameter of the first side rolling shaft;

and a second side rolling shaft is vertically fixed on the side wall of the dewatering box body (1) provided with the second side rolling roller (6), the second side rolling roller (6) is sleeved on the second side rolling shaft, and the inner diameter of the second side rolling roller (6) is matched with the outer diameter of the second side rolling shaft.

4. The mop dewatering device for steel production plants according to claim 3, characterized in that: a spring is connected between the adjacent ends of the first main rolling roller (3) and the first side rolling roller (4);

a spring is connected between the adjacent ends of the second main roller (5) and the second side roller (6).

5. The mop dewatering device for steel production plants according to claim 4, characterized in that: the dewatering box body (1) is parallel to two sides of the X axis and simultaneously extends outwards to form an inclined part (7), and the extending direction of the inclined part (7) is in a space formed by the positive direction of the X axis and the positive direction of the Z axis.

6. The mop dewatering device for steel production plants according to claim 5, characterized in that: and the inclined part (7) is adjacent to the first side rolling rollers, a semicircular empty groove is formed in the middle of the inclined part, and the diameter of the semicircular empty groove is equal to the distance between the adjacent ends of the two first side rolling rollers (4).

7. The mop dewatering device for steel production plants according to claim 6, characterized in that: the bottom of the dewatering box body (1) is provided with a through hole, and the through hole is internally connected with a sewer pipe (8).