CN114318927B - Shoe press shoe roller device - Google Patents

Abstract

The invention relates to the technical field of shoe press, in particular to a shoe press shoe roll device, which comprises a support frame and a base plate for fixing the support frame, and further comprises: the water collecting box is rotationally connected with the support frame through a rotating shaft; the boot sleeve is connected with the water collecting box; and a conversion assembly located within the boot; the conversion assembly comprises a driving assembly and a telescopic assembly, wherein the driving assembly comprises a rotating plate and a fixed plate, the rotating plate is connected with the telescopic assembly, the fixed plate is fixedly connected with the boot sleeve, the fixed plate is in sliding connection with the telescopic assembly, and the two telescopic assemblies respectively comprise a first boot plate and a second boot plate.

Description

Shoe press shoe roller device

Technical Field

The invention relates to the technical field of shoe press, in particular to a shoe press shoe roller device.

Background

With the high speed development of the paper industry, the high speed rise of the paper machine speed has a higher requirement for the dewatering effect of the press section, wherein shoe presses have emerged from the beginning of the eighties of the twentieth century, which press types are Gao Yazha force presses or so-called extended nip presses, with higher press forces being higher specific pressures than with the platen rolls; the wide press nip also has a longer residence time of the wet sheet in the nip than conventional press rolls, and good dewatering results.

The existing shoe press shoe roll device is inconvenient to use, in the continuous use process, when the shoe plate has poor dehydration effect, the shoe plate is often required to be adjusted or replaced by stopping production, so that not only is labor wasted, but also a large amount of time is occupied, the production efficiency is low, the cost is improved, the practicability and flexibility of equipment are reduced, and the shoe press shoe roll device is very inconvenient to use.

Disclosure of Invention

The present invention aims to provide a shoe press shoe roll device which solves the problems set forth in the background art.

In order to achieve the above purpose, the present invention provides the following technical solutions:

a shoe press shoe roll apparatus comprising a support frame and a base plate for securing the support frame, further comprising:

the water collecting box is rotationally connected with the support frame through a rotating shaft;

the boot sleeve is connected with the water collecting box; and

a conversion assembly located within the boot;

the conversion assembly comprises a driving assembly and a telescopic assembly, the driving assembly is matched with the telescopic assembly for installation, the driving assembly comprises a rotating plate and a fixing plate, the rotating plate is connected with the telescopic assembly, the fixing plate is fixedly connected with the boot sleeve, the fixing plate is connected with the telescopic assembly in a sliding mode, the telescopic assembly comprises a first boot plate and a second boot plate respectively, the driving assembly drives the rotating plate to rotate, and the rotating plate realizes positioning switching between the first boot plate and the second boot plate by driving the telescopic assembly to move on the fixing plate.

Compared with the prior art, the invention has the beneficial effects that:

when the boot roller works, the paper sheet between the boot sleeve and the boot press pair roller can be dehydrated through the boot sleeve and the first boot plate, after a period of work or when the extrusion effect of the first boot plate is reduced, the driving component which is arranged can work to drive the rotating plate to rotate in the boot sleeve, when the rotating plate rotates, the telescopic component can be driven to synchronously rotate, the first boot plate and the second boot plate can be driven to rotate, and the first boot plate and the second boot plate can be rotated by 180 degrees through the guiding function of the fixed plate, and meanwhile, the second boot plate is positioned at the initial working position of the first boot plate, so that the boot plate is replaced.

Drawings

Fig. 1 is a schematic overall structure of an embodiment of the present invention.

Figure 2 is a schematic view in left side cross-sectional configuration of a boot portion in an embodiment of the invention.

Figure 3 is a schematic view in cross-section from the right of the boot portion in an embodiment of the invention.

FIG. 4 is an enlarged schematic sectional view of a movable trough portion in an embodiment of the present invention.

Fig. 5 is a schematic side sectional view of a portion of a cartridge according to an embodiment of the present invention.

Fig. 6 is a schematic cross-sectional view of a control member portion in an embodiment of the present invention.

In the figure: 1-base plate, 2-water baffle, 3-support frame, 4-water collecting box, 5-guide groove, 6-boot sleeve, 7-support base, 8-control piece, 9-water inlet, 10-water delivery plate, 11-first plug, 12-first telescopic piece, 13-water collecting cavity, 14-sleeve, 15-rotation shaft, 16-second telescopic piece, 17-second plug, 18-adsorption plate, 19-water drain, 20-guide block, 21-magnetic attraction piece, 22-through hole, 23-liquid level sensor, 24-first boot plate, 25-pressurizing mechanism, 26-movable groove, 27-rotation plate, 28-sliding head, 29-fixed plate, 30-rotation shaft, 31-sliding groove, 32-first telescopic plate, 33-spring, 34-second telescopic plate, 35-driving piece, 36-cross beam, 37-boot sleeve support frame, 38-positioning groove, 39-second boot plate, 40-driving component, 41-telescopic component, 42-conversion component, 43-first boot plate, 44-interval drainage component, 45-interval control component.

Detailed Description

The following description of the embodiments of the present invention 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 invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Specific implementations of the invention are described in detail below in connection with specific embodiments.

Referring to fig. 1 to 3, a shoe press shoe roll apparatus according to an embodiment of the present invention includes a support frame 3 and a base plate 1 for fixing the support frame 3, and further includes:

the water collecting box 4 is rotatably connected with the support frame 3 through a rotating shaft 15;

a boot 6, wherein the boot 6 is connected with the water collecting box 4; and

a conversion assembly 42, said conversion assembly 42 being located within said boot 6;

the conversion assembly 42 comprises a driving assembly 40 and a telescopic assembly 41, the driving assembly 40 is mounted in cooperation with the telescopic assembly 41, the driving assembly 40 comprises a rotating plate 27 and a fixing plate 29, the rotating plate 27 is connected with the telescopic assembly 41, the fixing plate 29 is fixedly connected with the boot sleeve 6, the fixing plate 29 is slidably connected with the telescopic assembly 41, the two telescopic assemblies 41 respectively comprise a first boot plate 24 and a second boot plate 39, the driving assembly 40 drives the rotating plate 27 to rotate, and the rotating plate 27 realizes positioning switching between the first boot plate 24 and the second boot plate 39 by driving the telescopic assembly 41 to move on the fixing plate 29.

When the shoe roller works, the paper sheets between the shoe sleeve 6 and the shoe press pair roller can be dehydrated through the matching of the shoe sleeve 6 and the first shoe plate 24, after a period of work or when the extrusion effect of the first shoe plate 24 is reduced, the driving component 40 can work to drive the rotating plate 27 to rotate in the shoe sleeve 6, when the rotating plate 27 rotates, the telescopic component 41 can be driven to synchronously rotate and can drive the first shoe plate 24 and the second shoe plate 39 to rotate, and the second shoe plate 39 can be positioned at the initial working position of the first shoe plate 24 while the first shoe plate 24 and the second shoe plate 39 rotate 180 degrees through the guiding action of the fixed plate 29, so that the shoe plate can be replaced.

In one embodiment of the present invention, referring to fig. 1-3, the driving assembly 40 includes:

a driving member 35, the driving member 35 being connected to the boot 6;

a rotation shaft 30, wherein the rotation shaft 30 is connected with the output end of the driving member 35, and the rotation shaft 30 penetrates through the fixing plate 29 to be connected with the rotation plate 27;

the sliding groove 31 is arranged on the fixed plate 29, and the sliding groove 31 is in sliding connection with the telescopic component 41; and

and a positioning groove 38, wherein the positioning groove 38 is connected with the sliding groove 31.

When the shoe plate needs to be replaced, the work is started through the arranged driving piece 35, wherein the driving piece 35 can adopt a low-speed motor mode, when the driving piece 35 rotates, the rotating shaft 30 can be driven to rotate, the rotating plate 27 can be driven to rotate through the fixed connection mode of the rotating shaft 30 and the rotating plate 27, and the telescopic component 41 can be driven to synchronously rotate, meanwhile, the telescopic component 41 can slide in the sliding groove 31 in the rotating state of the rotating plate 27 relative to the fixed plate 29 through the sliding groove 31 arranged in a sliding mode, the sliding groove 31 is of a circular arc structure, two sides are of a concave mode, the concave top end of the sliding groove 31 is provided with a positioning groove 38, the positioning groove 38 is of a structure mode of an arc groove, and the first shoe plate 24 and the second shoe plate 39 can be rotated to adsorb the plate 180 degrees through the positioning action of the positioning groove 38, and the second shoe plate 39 just falls on the initial working position of the first shoe plate 24, so that the switching between the first shoe plate 24 and the second shoe plate 39 is realized.

In one embodiment of the present invention, referring to fig. 2 and 4, the telescopic assembly 41 includes:

a movable groove 26, wherein the movable groove 26 is positioned on the rotating plate 27;

the first expansion plate 32 and the second expansion plate 34, the first expansion plate 32 and the second expansion plate 34 are slidably mounted with the movable groove 26, and the two sets of first expansion plates 32 are respectively connected with the first boot plate 24 and the second boot plate 39;

a spring 33, wherein two ends of the spring 33 are respectively connected with the first expansion plate 32 and the second expansion plate 34, and the spring 33 is positioned in the movable groove 26; and

and a sliding head 28, wherein one end of the sliding head 28 is connected with the second expansion plate 34, and the other end of the sliding head 28 is connected with the sliding groove 31 in a sliding manner.

Through the sliding head 28 that sets up in the sliding tray 31, when the rotor 27 rotates, can drive the second expansion plate 34 and slide in the movable groove 26, wherein, the movable groove 26 can adopt square form, and be equipped with the slip recess in one side, and the both ends of first expansion plate 32 and second expansion plate 34 block respectively and slide in the recess on the movable groove 26, and be connected through spring 33 between first expansion plate 32 and the second expansion plate 34, then when the second expansion plate 34 removes, can drive first expansion plate 32 also in the movable groove 26, when the slider 28 slides to the indent structure of the both sides of sliding tray 31, can make second boot plate 39 and first boot plate 24 all shrink in innermost, in order to avoid when boots cover 6 rotates, spare boot plate striking other parts, simultaneously, because be connected through spring 33 between first expansion plate 32 and the second expansion plate 34, can drive first boot plate 24 to exert pressure to boots 6 through pushing mechanism promotion first expansion plate 32.

In one embodiment of the present invention, referring to fig. 2-4, further comprising: a cross beam 36, wherein the cross beam 36 is respectively connected with the water collecting box 4 and the boot sleeve 6;

a boot support 37, wherein the boot support 37 is respectively connected with the boot 6 and the cross beam 36; and

a pressing mechanism 25, the pressing mechanism 25 is located in the boot 6 and is detachably connected with the first boot plate 24 and the second boot plate 39.

Through crossbeam 36 and the boot support frame 37 that set up to in order to provide the installation basis for other equipment in the boot 6, and can improve the structural strength of whole equipment, and through the pressurization mechanism 25 that sets up, wherein, pressurization mechanism 25 is located the below of first shoe 24, and with the connecting plate of first shoe 24 and first expansion plate 32 contactless, when first shoe 24 is located the operational position, through the pressurization mechanism 25 start-up work that sets up, can produce thrust effect to first shoe 24, thereby can carry out the dehydration work to wet paper.

In one embodiment of the present invention, referring to fig. 1, further includes: a water baffle 2, wherein the water baffle 2 is positioned on the base plate 1;

the guide groove 5 and the water inlet 9 are formed in the water collecting box 4; and

and the water drain assembly 43 is positioned in the water collecting box 4 and is communicated with the water inlet 9.

In the dewatering process, as the blanket continuously absorbs the moisture in the paper, when the moisture is more, a part of water can be dripped onto the shoe plate on the shoe sleeve 6, so that in the rotating process of the shoe sleeve 6, the water can flow to various directions under the action of centrifugal force, even the equipment in the shoe sleeve 6 can be corroded, and the service life of the equipment is reduced, therefore, the water drops on the shoe plate can be gathered and flow into the water collecting box 4 through the water inlet 9 through the arranged hydrophobic component 43, and are discharged into the water baffle 2, so that the cleaning of workers is facilitated.

In one embodiment of the present invention, referring to fig. 1 and 5, the hydrophobic assembly 43 includes:

the water delivery hole 10 and the water collecting cavity 13 are respectively arranged in the water collecting box 4;

the sleeve 14 is connected with the water collecting cavity 13, and a rotating shaft 15 is sleeved in the sleeve 14;

a first telescopic member 12, one end of the first telescopic member 12 being connected to the sleeve 14;

the first plug 11 is connected with the other end of the first telescopic piece 12, and the first plug 11 is slidably installed in the water delivery hole 10; and

and the interval drainage assembly 44 is respectively connected with the base plate 1 and the water collecting cavity 13.

When the boot plate is positioned at the top end, the separated water flows into the water delivery hole 10 through the water inlet 9, the first plug 11 is enabled to be in an opened state under the action of the self weight of the first plug 11, so that the water delivery hole 10 is communicated with the water collection cavity 13, water in the water delivery hole 10 flows into the water collection cavity 13, the first telescopic piece 12 is arranged, the first telescopic piece 12 can take the form of a piston rod, a spring is arranged in a piston sleeve, when the boot plate rotates under the boot plate, the water delivery hole 10 is separated from the water collection cavity 13 under the action of the gravity of the spring and the first plug 11, water in the water collection cavity 13 is prevented from flowing back into the water inlet 9, and the water collected in the water collection cavity 13 can be discharged into the water baffle plate 2 for temporary storage through the arranged interval drainage assembly 44.

In one embodiment of the present invention, referring to fig. 5 and 6, the spacer drain assembly 44 comprises:

the water drain port 19 is arranged in the water collecting box 4 and is communicated with the water collecting cavity 13;

a second telescopic member 16, one end of the second telescopic member 16 being connected to the sleeve 14;

the second plug 17 is connected with the other end of the second telescopic piece 16, and the second plug 17 is slidably connected with the water drain 19;

an adsorption plate 18, wherein the adsorption plate 18 is positioned on the second plug 17; and

a control assembly 45, said control assembly 45 being located on said base plate 1.

Through the cooperation work of the adsorption plate 18 that sets up and the control module 45, wherein, the adsorption plate 18 can adopt the platelike structure of iron, when boots cover 6 drive water catch bowl 4 and rotate, and when adsorption plate 18 rotates to the minimum, through the magnetic attraction effect of control module 45 to adsorption plate 18, can drive second end cap 17 and move downwards through second extensible member 16, wherein the structure of second extensible member 16 is the same with first extensible member 12, when second end cap 17 moves downwards, can make water collection chamber 13 and water drain 19 be linked together, thereby can discharge the water in the water collection chamber 13 to the outside in, and when water catch bowl 4 continues to rotate, control module 45 separates with adsorption plate 18, when losing magnetic attraction, through the pulling force effect of the spring in the second extensible member 16, can make second end cap 17 block up water drain 19, avoid when rotating, water in the water collection chamber 13 flies around under the centrifugal force effect.

In one embodiment of the present invention, referring to fig. 5 and 6, the control unit 45 includes:

a support base 7, the support base 7 being located on the base plate 1;

the control piece 8 is connected with the support base 7, and the control piece 8 is in sliding connection with the guide groove 5 through a guide block 20;

a magnetic attraction member 21, the magnetic attraction member 21 being located within the control member 8;

the through hole 22 is formed in the support base 7, and the through hole 22 is formed in the support base 7; and

a liquid level sensor 23, wherein the liquid level sensor 23 is connected with the through hole 22.

Through the cooperation work of the adsorption plate 18 that sets up and the magnetic attraction piece 21, wherein, the magnetic attraction piece 21 can adopt electro-magnet or this magnet's form, when boots 6 drive water collecting box 4 and rotate, through the guide block 20 that sets up in guide way 5 rotation, can guarantee pivoted stationarity, simultaneously, through the magnetic attraction effect of magnetic attraction piece 21 to adsorption plate 18, can drive second end cap 17 and move downwards through second telescoping piece 16, and can make water collecting cavity 13 and water drain port 19 be linked together, thereby can go outside with water collecting cavity 13 in, conversely, when water collecting box 4 continues to rotate, magnetic attraction piece 21 and adsorption plate 18 separation loss demagnetization suction, in order to realize water collecting cavity 13 in the interval discharge, and through the support base 7 that sets up, and be equipped with through-hole 22 and level sensor 23 in the upper portion of support base 7, after water collecting in the water retaining plate 2 reaches certain height, and when contact with level sensor 23 through-hole 22, can start the alarm, in order to remind the staff in time to carry out drainage work.

In summary, when the shoe roller works, the set shoe sleeve 6 is matched with the first shoe plate 24, the paper sheet between the shoe sleeve 6 and the shoe press pair roller can be dehydrated, after a period of work or when the extrusion effect of the first shoe plate 24 is reduced, the set driving component 40 can work to drive the rotating plate 27 to rotate in the shoe sleeve 6, when the rotating plate 27 rotates, the telescopic component 41 can be driven to synchronously rotate, the first shoe plate 24 and the second shoe plate 39 can be driven to rotate, and the first shoe plate 24 and the second shoe plate 39 can be rotated 180 degrees through the guiding function of the set fixing plate 29, and meanwhile, the second shoe plate 39 is positioned at the initial working position of the first shoe plate 24, so that the shoe plate replacement is realized, the operation is simple, the labor is saved, the replacement time is shortened, the production work efficiency is improved, and the practicability and the flexibility of the equipment are convenient for workers.

It should be noted that, in the present invention, unless explicitly specified and defined otherwise, terms such as "sliding", "rotating", "fixing", "provided" and the like should be interpreted broadly, and may be, for example, welded, bolted, or integrated; can be mechanically or electrically connected; either directly or indirectly, through intermediaries, or both, may be in communication with each other or in interaction with each other, unless expressly defined otherwise. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art according to the specific circumstances.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims (5)

1. A shoe press shoe roll apparatus comprising a support frame and a base plate for fixing the support frame, characterized by further comprising:

the water collecting box is rotationally connected with the support frame through a rotating shaft;

the boot sleeve is connected with the water collecting box;

a conversion assembly located within the boot;

the conversion assembly comprises a driving assembly and a telescopic assembly, the driving assembly is matched with the telescopic assembly, the driving assembly comprises a rotating plate and a fixing plate, the rotating plate is connected with the telescopic assembly, the fixing plate is fixedly connected with the boot sleeve and is in sliding connection with the telescopic assembly, the two sets of telescopic assemblies respectively comprise a first boot plate and a second boot plate, the driving assembly drives the rotating plate to rotate, and the rotating plate realizes the positioning switching between the first boot plate and the second boot plate in a mode of driving the telescopic assembly to move on the fixing plate;

the drive assembly includes: the driving piece is connected with the boot sleeve;

the rotating shaft is connected with the output end of the driving piece, and penetrates through the fixing plate to be connected with the rotating plate;

the sliding groove is arranged on the fixed plate and is in sliding connection with the telescopic component;

the positioning groove is connected with the sliding groove;

the telescoping assembly includes: the movable groove is positioned on the rotating plate;

the first expansion plate and the second expansion plate are both slidably arranged with the movable groove, and the two sets of the first expansion plates are respectively connected with the first boot plate and the second boot plate;

the two ends of the spring are respectively connected with the first expansion plate and the second expansion plate, and the spring is positioned in the movable groove;

the sliding head is connected with the second expansion plate at one end, and the sliding groove is connected with the other end of the sliding head in a sliding way;

further comprises: the cross beam is respectively connected with the water collecting box and the boot sleeve;

the boot sleeve support frame is respectively connected with the boot sleeve and the cross beam; and

the pressurizing mechanism is positioned in the boot sleeve and is detachably connected with the first boot plate and the second boot plate;

when the first shoe plate is positioned at the working position, the pressurizing mechanism is started to generate a thrust action on the first shoe plate, so that the wet paper sheet is dehydrated.

2. The shoe press shoe roll apparatus of claim 1, further comprising: the water baffle is positioned on the base plate;

the guide groove and the water inlet are formed in the water collecting box; and

the water collecting box is provided with a water inlet, and the water collecting box is provided with a water inlet.

3. The shoe press shoe roll apparatus of claim 2, wherein the hydrophobic assembly comprises:

the water delivery hole and the water collecting cavity are both arranged in the water collecting box;

the sleeve is connected with the water collecting cavity, and a rotating shaft is sleeved in the sleeve;

one end of the first telescopic piece is connected with the sleeve;

the first plug is connected with the other end of the first telescopic piece and is slidably arranged in the water delivery hole; and

and the interval drainage assembly is respectively connected with the base plate and the water collecting cavity.

4. A shoe press shoe roll apparatus according to claim 3, wherein the spaced apart drainage assembly comprises:

the water outlet is arranged in the water collecting box and is communicated with the water collecting cavity;

one end of the second telescopic piece is connected with the sleeve;

the second plug is connected with the other end of the second telescopic piece and is in sliding connection with the water drain port;

the adsorption plate is positioned on the second plug; and

and the control assembly is positioned on the base plate.

5. The shoe press shoe roll apparatus of claim 4, wherein the control assembly comprises:

the support base is positioned on the base plate;

the control piece is connected with the supporting base and is in sliding connection with the guide groove through the guide block;

the magnetic attraction piece is positioned in the control piece;

the through hole is formed in the support base; and

the liquid level sensor is connected with the through hole.