CN220927210U - Cleaning mechanism of horizontal padder - Google Patents

Abstract

The utility model relates to the technical field of padders, in particular to a cleaning mechanism of a horizontal padder, which consists of a liquid spraying component and a liquid storage tank, wherein the liquid spraying component is arranged between driving rollers of the padder, and the liquid storage tank drives the liquid spraying component to move up and down.

Description

Cleaning mechanism of horizontal padder

Technical Field

The utility model relates to the technical field of padders, in particular to a cleaning mechanism of a horizontal padder.

Background

The padder is a machine for guiding cloth to be conveyed, at present, the structure of the padder mainly comprises a frame and a driving roller, the cloth is conveyed by the guiding of the driving roller, at present, the purpose of the padder mainly comprises the conveying of the cloth and the squeezing of the cloth to dry moisture, however, the conventional padder can remain cloth impurities (such as cloth scraps) on the driving roller in the process of conveying the cloth or being used for squeezing the moisture, and at present, a cleaning structure is not arranged on the padder, so that the cleaning efficiency is not high.

Meanwhile, when the water is squeezed or cleaned, the generated waste liquid cannot be specially collected, so that the internal environment of a workshop is greatly influenced.

In summary, improvements are needed.

Disclosure of utility model

Aiming at the defects existing in the prior art, the utility model aims to provide a cleaning mechanism of a horizontal padder, which aims to solve the problems in the prior art.

The technical scheme of the utility model is realized as follows: the utility model provides a wiper mechanism of horizontal padder which characterized in that: comprising the following steps:

the liquid storage tank is arranged on the padder through the mounting frame;

The cleaning assembly is provided with at least a driving end and a cleaning end;

A cleaning source;

The waste liquid recovery structure is arranged below the cleaning assembly and is used for receiving waste liquid;

The driving end of the cleaning assembly is arranged in the liquid storage tank and divides the liquid storage tank into a first liquid inlet cavity and a second liquid inlet cavity;

The cleaning source can supply liquid to the first liquid inlet cavity or the second liquid inlet cavity, and the cleaning assembly is driven to lift in the liquid storage tank through the lifting of the driving end.

Preferably, it is: the liquid storage tank comprises:

the box body is arranged on the padder through the mounting frame;

The liquid inlet valve consists of a first liquid inlet valve and a second liquid inlet valve which are arranged on the box body and are respectively communicated with the first liquid inlet cavity or the second liquid inlet cavity;

the liquid discharge valve consists of a first liquid discharge valve and a second liquid discharge valve which are arranged on the box body and are respectively communicated with the first liquid inlet cavity or the second liquid inlet cavity.

Preferably, it is: the cleaning assembly includes:

The lifting plate is arranged in the box body;

the liquid spraying plate is provided with a liquid spraying cavity and is connected with the lifting plate through a connecting shaft;

The liquid spraying hole is arranged on the liquid spraying plate and is communicated with the liquid spraying cavity;

Wherein, the hydrojet chamber can communicate with first flowing back valve and second flowing back valve respectively through the hydrojet pipe.

By adopting the technical scheme:

The utility model sets a cleaning mechanism on the frame of the padder to improve the cleaning efficiency of the driving roller, when cleaning, the cleaning source (pump body for conveying cleaning liquid) is used to feed liquid into the first liquid inlet cavity and the second liquid inlet cavity alternately, and the cleaning liquid in the first liquid inlet cavity and the second liquid inlet cavity is discharged by controlling the liquid inlet valve and the liquid outlet valve, in the process of liquid discharge, the liquid spraying plate moves up and down to adjust the spraying position of the liquid spraying hole and spray liquid, thereby cleaning the driving roller, and the cleaning efficiency of the utility model can be improved by adopting movable liquid spraying.

Preferably, it is: the waste liquid recovery structure includes:

The waste liquid recovery box is arranged below the cleaning assembly and is provided with a waste liquid recovery cavity with an open top;

the waste liquid overflows and is formed in the waste liquid recovery cavity and a liquid discharge cavity is formed;

The drain valve is arranged on the waste liquid recovery box and is communicated with the liquid discharge cavity;

Wherein, the waste liquid enters from the cavity mouth of the waste liquid recovery cavity, is precipitated in the waste liquid recovery box, and is discharged from the liquid discharge cavity of the waste liquid overflow fluid when the liquid level in the waste liquid recovery cavity rises.

Preferably, it is: the waste liquid overflow body comprises:

the overflow body is arranged in the waste liquid recovery cavity and is provided with the liquid discharge cavity;

The sewage outlet consists of a first sewage outlet formed at the top of the overflow body and a second sewage outlet formed on the side wall of the overflow body and close to the bottom of the waste liquid recovery cavity;

the sealing part is formed at the second sewage outlet and can move in a moving cavity recessed from the inner wall of the second sewage outlet;

the driving rod is formed in a driving cavity recessed from the inner wall of the other side of the second sewage outlet;

the driving air bag is arranged in the driving cavity and is connected with the driving rod;

The overflow body is internally provided with an inflation cavity for inflating the driving air bag, and an inflation valve communicated with the inflation cavity is arranged on the overflow body.

Preferably, it is: the outer wall of overflow body is equipped with a plurality of unidirectional nozzle structures that can the cleaning source intercommunication.

Preferably, it is: the top of overflow body still is equipped with the structure of capping, the structure of capping is connected with the top of overflow body through the back shaft, and adjacent back shaft interval sets up and forms the overflow mouth.

Preferably, it is: the capping structure comprises:

The split body is connected with the top of the overflow body through a supporting shaft;

the split surface is formed at the top of the split body;

wherein, be equipped with a plurality of go-between adjacent back shaft.

By adopting the technical scheme:

The waste liquid recovery box is arranged below the driving roller (also below the cleaning component) of the padder, and waste water generated during cleaning or cloth extrusion can be collected by using the waste liquid recovery box;

In addition, the waste liquid recovery box has the advantages of precipitation, namely: after waste water gets into the waste liquid recovery case, solid impurities such as cloth bits can precipitate in waste liquid recovery chamber bottom, and along with the waste liquid in the waste liquid recovery chamber increases, the water level of waste liquid rises, and the waste liquid on the uppermost layer can be discharged through the overflow mouth to reach preliminary filtration's purpose, so that follow-up waste water treatment of carrying out.

In addition, other advantages of the present utility model will be presented in the examples section of the present utility model, thereby making the advantageous effects of the present utility model more remarkable.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions of the prior art, the drawings which are used in the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the description below are only some embodiments of the utility model, and that other drawings can be obtained according to these drawings without inventive faculty for a person skilled in the art.

FIG. 1 is a schematic structural diagram of an embodiment 1 of the present utility model;

FIG. 2 is a schematic diagram showing the internal structure of a liquid storage tank according to embodiment 1 of the present utility model;

FIG. 3 is a schematic structural view of embodiment 2 of the present utility model;

FIG. 4 is a schematic diagram of the structure of a waste overflow stream according to embodiment 2 of the present utility model;

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

fig. 6 is a B-B cross-sectional view of fig. 4.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Example 1

As shown in fig. 1-2, the utility model discloses a cleaning mechanism of a horizontal rolling mill, wherein the rolling mill of the embodiment is composed of a frame 10 and driving rollers 11, the driving rollers are rotatably arranged on the frame 10, the driving rollers 11 of the embodiment have two groups, and a cleaning assembly of the embodiment is arranged between the two groups of driving rollers 11 and is used for cleaning liquid spraying on each driving roller 10.

In this embodiment, it includes:

The liquid storage tank 20 is arranged on the stand 10 of the padder through the mounting frame 21;

The cleaning assembly is provided with at least a driving end and a cleaning end;

A cleaning source;

A waste liquid recovery structure 22, which is arranged below the cleaning assembly and is used for receiving waste liquid, and is a box structure in the embodiment;

Wherein, the driving end of the cleaning assembly is arranged in the liquid storage tank 20 and divides the liquid storage tank 20 into a first liquid inlet cavity 201 and a second liquid inlet cavity 202;

The cleaning source can supply liquid to the first liquid inlet cavity 201 or the second liquid inlet cavity 202, and the cleaning assembly is driven to lift in the liquid storage tank 20 through the lifting of the driving end.

In this embodiment: the liquid storage tank comprises:

the box body 200 is arranged on the bracket 10 of the padder through a mounting frame;

The liquid inlet valve consists of a first liquid inlet valve 31 and a second liquid inlet valve 32 which are arranged on the box body 200 and are respectively communicated with the first liquid inlet cavity 201 or the second liquid inlet cavity 202;

the liquid discharge valve consists of a first liquid discharge valve 41 and a second liquid discharge valve 42 which are arranged on the box body 200 and respectively communicated with the first liquid inlet cavity 201 or the second liquid inlet cavity 202.

In this embodiment, the cleaning source is a pump body that is capable of communicating with the inlet valve through the inlet tube.

In this embodiment, the cleaning assembly includes:

the lifting plate 50 is arranged in the box body 200;

A liquid spraying plate 51 having a liquid spraying chamber and connected to the lifting plate 50 through a connecting shaft 52;

A liquid spraying hole 53 which is provided on the liquid spraying plate 51 and communicates with the liquid spraying cavity;

wherein the liquid spray chamber can communicate with the first liquid discharge valve 41 and the second liquid discharge valve 42 through liquid spray pipes 54, respectively.

In the present embodiment, the liquid ejecting holes 53 are provided on both sides of the liquid ejecting plate 51, that is: the liquid spraying holes 53 are provided on a side of the liquid spraying plate 51 away from the liquid storage tank 20 and a side close to the liquid storage tank, respectively.

Referring to fig. 1-2, the principle of this embodiment is:

When the conveying roller is required to be cleaned, the first liquid inlet valve and the second liquid outlet valve are firstly opened, the second liquid inlet valve and the first liquid outlet valve are closed, cleaning liquid is added into the first liquid inlet cavity through the pump body, the lifting plate is enabled to ascend, the liquid spraying plate is driven to ascend, then the first liquid inlet valve and the second liquid outlet valve are closed, the second liquid inlet valve and the first liquid outlet valve are opened, the pump body sends cleaning liquid into the second liquid inlet cavity, the lifting plate is driven to descend, liquid spraying plate liquid descends along with the lifting plate, cleaning liquid in the first liquid inlet cavity is extruded, the cleaning liquid is sent into the liquid spraying cavity through the first liquid outlet valve, the cleaning liquid is sprayed onto the driving rollers on two sides through the liquid spraying holes, after the cleaning liquid in the first liquid inlet cavity is exhausted, the first liquid inlet valve and the second liquid outlet valve are opened again, the second liquid inlet valve and the first liquid outlet valve are closed, and the cleaning liquid in the second liquid inlet cavity is sent out.

According to the embodiment, the liquid inlet valve and the liquid outlet valve are controlled to drive the liquid spraying plate to lift and spray liquid, so that the driving roller is cleaned, and the liquid spraying position of the liquid spraying plate is changed in the lifting process, so that the cleaning range can be enlarged, and the cleaning efficiency is improved.

Example 2 is different from example 1 in that

As shown in fig. 3 to 6, in this embodiment, the waste liquid recovery structure includes:

a waste liquid recovery tank 60 provided below the washing unit and formed with a waste liquid recovery chamber 61 having an open top;

A waste overflow 62 formed in the waste recovery chamber 61 and having a drain chamber 620 formed therein;

A drain valve 63 provided on the waste liquid recovery tank 60 and communicating with the drain chamber 620, the drain valve 63 being connected to a drain pipe 631, the drain pipe 631 having two outlets, and a control valve 632 being provided on the drain pipe 631;

Wherein the waste liquid enters from the cavity mouth of the waste liquid recovery cavity 61, precipitates in the waste liquid recovery tank 60, and is discharged from the liquid discharge cavity 620 of the waste liquid overflow 62 when the liquid level in the waste liquid recovery cavity 61 rises.

In this embodiment, the waste overflow 62 comprises:

an overflow body 70 provided in the waste liquid recovery chamber 61 and formed with the liquid discharge chamber 620;

the sewage outlet consists of a first sewage outlet 71 formed at the top of the overflow body 70 and a second sewage outlet 72 formed on the side wall of the overflow body 70 and close to the bottom of the waste liquid recovery cavity 61;

A closing portion 73 formed at the second drain port 72 and movable in a movable chamber 74 formed recessed from an inner wall of the second drain port 72;

A driving rod 75 formed in a driving chamber 76 recessed from the inner wall of the other side of the second drain port 72;

A driving airbag 77 disposed in the driving chamber 76 and connected to the driving rod 75;

Wherein, an inflation cavity (not shown) for inflating the driving airbag 77 is formed in the overflow body 70, and an inflation valve (not shown) which is communicated with the inflation cavity is installed on the overflow body 70 (the valve is of a conventional valve structure and is arranged on the overflow body 70 and is communicated with the inflation cavity).

In this embodiment, the outer wall of the overflow body 70 is provided with a plurality of unidirectional nozzle structures 70a (unidirectional valves) capable of communicating (passing through water pipes) with the cleaning source.

In this embodiment, a capping structure is further disposed on the top of the overflow body 70, and the capping structure is connected to the top of the overflow body 70 through a supporting shaft 80, and adjacent supporting shafts 80 are disposed at intervals to form overflow ports.

In this embodiment, the capping structure includes:

A split body 90 connected to the top of the overflow body through a support shaft 80;

A split surface 91 formed on top of the split body 90;

wherein a plurality of connection rings 92 are provided between adjacent support shafts 80 (connection rings may be used to improve the stability of the support shaft structure).

Referring to fig. 3-6, the principle of this embodiment is:

In this embodiment, waste liquid gets into the waste liquid recovery chamber from the waste liquid recovery case, and carry out precipitation work in the waste liquid recovery intracavity, and when waste liquid in the waste liquid recovery intracavity increases and the liquid level rises, overflow to the flowing back chamber through the overflow mouth at waste liquid overflow body top, and discharge from the blowoff valve, thereby carry out preliminary solid-liquid separation work to the waste liquid, and this embodiment compares the mode through the filter screen like this, it does not need to worry the problem that the overflow mouth blockked up, can long-term use, avoid frequent management, the detail is as follows:

When the waste liquid is discharged from the liquid discharging cavity, the control valve is switched to one outlet of the drain pipe to perform liquid discharging operation, after the waste liquid collecting operation is completed, when the waste liquid recovery cavity needs to be cleaned, the waste liquid recovery cavity is restarted to the inflating cavity, the driving air bag is inflated, the driving rod pushes the sealing part to open the second drain port (the sealing part can fully enter the movable cavity), at the moment, the rest waste liquid and impurities in the waste liquid recovery cavity can be discharged from the second drain port, and at the moment, the control valve can be switched and discharged from the other outlet of the drain pipe, so that the solid-liquid separation operation is completed.

In this embodiment, when the second sewage outlet needs to be closed, the air in the driving air bag is pumped away by the air pump through the air charging valve and the air charging cavity, and after the air in the driving air bag is pumped away, the driving rod moves towards the driving cavity and drives the sealing part to seal the second sewage outlet, so that the sealing work of the second sewage outlet is completed.

Mention may be made of:

In this embodiment, when the waste liquid recovery chamber needs to be cleaned, the cleaning source (pump body for supplying cleaning liquid) is used to supply liquid to the one-way valve, clean the waste liquid recovery chamber, and discharge the liquid through the second drain outlet, so as to complete cleaning work;

The liquid separation body at the top of the liquid waste overflow body can separate the liquid waste entering the liquid waste overflow cavity into the liquid waste recovery cavity, and meanwhile, the liquid waste entering the liquid waste recovery cavity is prevented from directly entering the liquid discharge cavity.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the utility model.

Claims (8)

1. The utility model provides a wiper mechanism of horizontal padder which characterized in that: comprising the following steps:

The liquid storage tank (20) is arranged on the padder through the mounting frame (21);

The cleaning assembly is provided with at least a driving end and a cleaning end;

A cleaning source;

A waste liquid recovery structure (22) arranged below the cleaning assembly and used for receiving waste liquid;

The driving end of the cleaning assembly is arranged in the liquid storage tank (20) and divides the liquid storage tank (20) into a first liquid inlet cavity (201) and a second liquid inlet cavity (202);

The cleaning source can supply liquid to the first liquid inlet cavity (201) or the second liquid inlet cavity (202), and the cleaning assembly is driven to lift in the liquid storage tank (20) through the lifting of the driving end.

2. The cleaning mechanism of a horizontal padder of claim 1, wherein: the liquid storage tank (20) comprises:

the box body (200) is arranged on the padder through the mounting frame (21);

The liquid inlet valve consists of a first liquid inlet valve (31) and a second liquid inlet valve (32) which are arranged on the box body (200) and are respectively communicated with the first liquid inlet cavity (201) or the second liquid inlet cavity (202);

The liquid discharge valve consists of a first liquid discharge valve (41) and a second liquid discharge valve (42) which are arranged on the box body (200) and are respectively communicated with the first liquid inlet cavity (201) or the second liquid inlet cavity (202).

3. The cleaning mechanism of a horizontal padder of claim 2, wherein: the cleaning assembly includes:

The lifting plate (50) is arranged in the box body (200);

The liquid spraying plate (51) is provided with a liquid spraying cavity and is connected with the lifting plate (50) through a connecting shaft (52);

A liquid spraying hole (53) which is arranged on the liquid spraying plate (51) and is communicated with the liquid spraying cavity;

Wherein the liquid spraying cavity can be respectively communicated with the first liquid discharging valve (41) and the second liquid discharging valve (42) through liquid spraying pipes (54).

4. A cleaning mechanism for a horizontal rolling mill according to any one of claims 1-3, characterized in that: the waste liquid recovery structure includes:

A waste liquid recovery tank (60) which is arranged below the cleaning assembly and is provided with a waste liquid recovery cavity (61) with an open top;

a waste liquid overflow (62) formed in the waste liquid recovery chamber (61) and having a liquid discharge chamber (620);

a drain valve (63) which is arranged on the waste liquid recovery box (60) and is communicated with the drain cavity (620);

Wherein, the waste liquid enters from the cavity mouth of the waste liquid recovery cavity (61), is precipitated in the waste liquid recovery box (60), and is discharged from the liquid discharge cavity (620) of the waste liquid overflow fluid (62) when the liquid level in the waste liquid recovery cavity (61) rises.

5. The cleaning mechanism of a horizontal padder of claim 4, wherein: the waste overflow stream (62) comprises:

An overflow body (70) which is arranged in the waste liquid recovery cavity (61) and is provided with the liquid discharge cavity (620);

The sewage outlet consists of a first sewage outlet (71) formed at the top of the overflow body (70) and a second sewage outlet (72) formed on the side wall of the overflow body (70) and close to the bottom of the waste liquid recovery cavity (61);

A closing part (73) which is formed at the second sewage outlet (72) and can move in a moving cavity (74) which is formed in a way of sinking from the inner wall of the second sewage outlet (72);

A driving rod (75) formed in a driving cavity (76) recessed from the inner wall of the other side of the second sewage outlet (72);

a driving air bag (77) which is arranged in the driving cavity (76) and is connected with the driving rod (75);

Wherein, the overflow body (70) is internally provided with an air charging cavity for charging the driving air bag (77), and an air charging valve communicated with the air charging cavity is arranged on the overflow body (70).

6. The cleaning mechanism of a horizontal padder of claim 5, wherein: the outer wall of the overflow body (70) is provided with a plurality of unidirectional nozzles (70 a) which can be communicated with a cleaning source.

7. A cleaning mechanism for a horizontal padder as claimed in claim 5 or claim 6, wherein: the top of overflow body (70) still is equipped with the structure of capping, the structure of capping is connected with the top of overflow body (70) through back shaft (80), and adjacent back shaft (80) interval sets up and forms the overflow mouth.

8. The cleaning mechanism of a horizontal padder of claim 7, wherein: the capping structure comprises:

the split body (90) is connected with the top of the overflow body (70) through a supporting shaft (80);

a split surface (91) formed on the top of the split body (90);

Wherein, a plurality of connecting rings (92) are arranged between the adjacent supporting shafts (80).