CN211368210U - Inclined net vacuum concentration equipment for paper pulp production line - Google Patents

Abstract

The inclined wire vacuum concentration equipment for the paper pulp production line comprises an inclined wire pulp flowing box and a sieve plate, wherein a liquid inlet pipe for feeding is arranged on one side of the inclined wire pulp flowing box, a liquid inlet groove is formed in the inner side of the liquid inlet pipe, a weir nozzle positioned on one side of the liquid inlet groove is arranged on the upper edge of the sieve plate, and at least two negative pressure cavities are formed in the inclined wire pulp flowing box and positioned on the inner side of the sieve plate; the low-pressure axial flow fan is adopted for air draft by changing the traditional pure gravity dehydration mode, so that the throughput of the slurry is greatly increased on the premise of ensuring the stability of the slurry process, and the production efficiency is remarkably improved; through the arc surface design that inclined mesh sieve plate structure and wedge rod formed, not only improve the concentration of thick liquids, effectively reduce the power consumption cost in addition, reached energy saving and consumption reduction, green production's effect.

Description

Inclined net vacuum concentration equipment for paper pulp production line

Technical Field

The invention belongs to the technical field of papermaking equipment, and particularly relates to inclined wire vacuum concentration equipment for a paper pulp production line.

Background

In the pulping and papermaking production, a large amount of water is used as a medium, the water used in the pulping and papermaking production contains a large amount of substances such as fibers and the like, most of the substances can be collected and recycled for production, important process equipment is a wire paper machine, a wire is a simple and efficient device, the fibers and other particles with the length as short as 350 microns can be recovered from a water suspension, and a wire screen has a compact structure, does not have movable parts and needs little maintenance.

In order to meet the market demand of the current special paper which is continuously developed, the inclined wire paper machine becomes indispensable equipment for domestic and foreign paper making manufacturers, and has the outstanding characteristics of low net-feeding concentration, good dewatering performance, long fiber length capable of being made, good uniformity of produced paper, high air permeability and the like, however, the purchase and maintenance of imported equipment add huge burden to the majority of paper making enterprises.

Therefore, there is a need for an inclined wire vacuum concentration apparatus for a pulp production line, which ensures a high pulp yield and reduces resource waste.

Disclosure of Invention

The present invention provides a wire vacuum concentration apparatus for a pulp production line to solve the problems set forth in the background art described above.

In order to achieve the purpose, the invention provides the following technical scheme: a oblique net vacuum concentration equipment for paper pulp production line, including oblique net head box and sieve, one side of oblique net head box is equipped with the feed liquor pipe that is used for the feeding, the inboard of feed liquor pipe is equipped with the feed liquor groove, going up along being equipped with of sieve is located the weir mouth of feed liquor groove one side, oblique net head box is inside to be located the inboard of sieve is equipped with two at least negative pressure chambeies, and is adjacent separate through the baffle between the negative pressure chamber, the bottom in negative pressure chamber is equipped with the guide plate and is used for the fluid-discharge tube of row material, the outer wall of oblique net head box still is connected with the exhaust tube, the exhaust tube is connected with the air exhauster, air exhauster and external power source electric connection, through the air exhauster makes be in negative pressure state in the negative pressure chamber.

Preferably, the liquid inlet pipe is connected with the raw material pool through a pipeline,

preferably, the exhaust fan is a low-pressure axial flow fan.

Preferably, the exhaust pipe is provided with a pressure valve for detecting the internal pressure of the negative pressure cavity, and the pressure valve is in closed-loop signal connection with the exhaust fan.

Preferably, the drain pipe is connected to the liquid collecting pool through a hose, and the tail end of the drain pipe sinks at least 0.5m below the liquid level in the liquid collecting pool.

Preferably, the number of the liquid discharge pipe and the number of the air exhaust pipes correspond to the number of the negative pressure cavities, and the air exhaust pipes are located above the liquid discharge pipe.

Preferably, the sieve plate is formed by an arc surface formed by a plurality of wedge-shaped rod strips, and horizontal 350-micron gaps are formed among the rod strips.

Preferably, the guide plate is provided with an inclined plane extending to the liquid discharge pipe.

Preferably, the weir mouth is horizontal state, the position of sieve both sides is seal structure.

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

1. the dehydration process of the low-pressure axial flow fan is adopted, the traditional pure gravity dehydration mode is changed, the low-pressure axial flow fan is arranged for exhausting air, the throughput of the slurry is greatly increased on the premise that the stability of the slurry process is guaranteed, and the production efficiency is remarkably improved.

2. Through the arc surface design that inclined mesh sieve plate structure and wedge rod formed, not only improve the concentration of thick liquids, effectively reduce the power consumption cost in addition, reached energy saving and consumption reduction, green production's effect.

3. The method realizes high pulp yield, reduces environmental pollution caused by resource waste, and has profound significance to the paper making industry and the paper making machinery industry in China.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic diagram of the structure of the present invention;

fig. 2 is a schematic distribution diagram of the negative pressure chamber in the present invention.

In the figure: 1. a slant-wire headbox; 11. a liquid inlet pipe; 2. a sieve plate; 201. a negative pressure chamber; 202. a liquid inlet tank; 21. a weir nozzle; 22. a baffle; 23. a partition plate; 3. an air exhaust pipe; 31. a pressure valve; 4. a liquid discharge pipe; 5. an exhaust fan; 6. a liquid collecting tank; 7. a raw material pool.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-2, the present invention provides the following technical solutions: an inclined wire vacuum concentration equipment for paper pulp production line, including inclined wire head box 1 and sieve 2, one side of inclined wire head box 1 is equipped with the feed liquor pipe 11 that is used for the feeding, feed liquor pipe 11 passes through the pipeline and is connected with raw materials pond 7, the inboard of feed liquor pipe 11 is equipped with feed liquor groove 202, the last edge of sieve 2 is equipped with the weir mouth 21 that is located feed liquor groove 202 one side, the inside inboard that is located sieve 2 of inclined wire head box 1 is equipped with two at least negative pressure chambeies 201, separate through baffle 23 between the adjacent negative pressure chamber 201, the bottom of negative pressure chamber 201 is equipped with guide plate 22 and is used for the fluid-discharge tube 4 of row material, the outer wall of inclined wire head box 1 still is connected with exhaust tube 3, exhaust tube 3 is connected with air exhauster 5, air exhauster 5 and external power source electric connection, be in negative pressure state in the.

In this embodiment, the inclined wire pulp flowing box 1 mainly includes a vacuum moisture absorption part (negative pressure chamber 201, an exhaust pipe 3 and an exhaust fan 5), and an inclined wire pulp flowing part (liquid inlet tank 202, a weir nozzle 21 and a sieve plate 2), wherein the vacuum moisture absorption part is a key component, because the water content of the pulp flowing through the inclined wire pulp flowing box 1 is very large, the next step can be performed only by fully dehydrating, therefore, in order to improve the dehydration amount, the method of enlarging the effective dehydration area (area of the sieve plate 2) is more effective than increasing the vacuum degree of the negative pressure chamber 201, and the increase of the vacuum degree of the negative pressure chamber 201 can obviously increase the dragging force of the sieve plate 2, accelerate the abrasion of the sieve plate 2 on the net, but the increase of the number of the sieve plate 2 for increasing the dehydration area can not be excessive, because if the sieve plate 2 is additionally added, the increase of the dehydration ability in the later stage is not obvious, the abrasion of the net can, therefore, two negative pressure cavities 201 are arranged below the sieve plate 2, the vacuum degree is reasonably controlled by arranging the pressure valve 31 on the exhaust pipe 3, the dehydration efficiency is improved, and the abrasion to the net is reduced, the unique sieve plate 2 is formed by arc-shaped surfaces formed by wedge-shaped rod strips, horizontal gaps are formed among the rod strips, the gap width is 350 micrometers, liquid to be screened flows through the liquid inlet groove 202 from the raw material pool 7 through the liquid inlet pipe 11, then the liquid level rises, the liquid flows to the sieve plate 2 through the weir nozzle 21 by means of gravity, when suspension flows along the sieve plate 2, thin water is cut off by the rod strips of the sieve plate 2 and passes through the sieve gaps along with fine particles, the exhaust fan 5 (low-pressure axial flow fan) is arranged for exhausting, so that the air pressure in the negative pressure cavities 201 is enabled to be compared with the original gravity dehydration, and the throughput of the slurry is greatly increased on the premise of ensuring the.

Specifically, the exhaust fan 5 adopts a low-pressure axial flow fan, when the impeller rotates, gas enters the impeller from the air inlet in the axial direction, is pushed by blades on the impeller to increase the energy of the gas, then flows into the guide vane, the guide vane changes the deflection airflow into axial flow, and simultaneously guides the gas into the diffuser pipe, so that the kinetic energy of the gas is further converted into pressure energy, and finally the pressure energy is introduced into the working pipeline to form negative pressure in the negative pressure cavity 201.

Specifically, be equipped with the pressure valve 31 that is used for detecting negative pressure chamber 201 internal pressure on exhaust tube 3, pressure valve 31 and 5 closed loop signal connection of air exhauster, pressure valve 31 installs and can detect the atmospheric pressure in exhaust tube 3 on exhaust tube 3, also is the pressure in negative pressure chamber 201 simultaneously, through the area ratio of suitable negative pressure and sieve 2, just can realize high dehydration efficiency, and can not wear and tear sieve 2.

Specifically, the drain pipe 4 is connected to the liquid collecting tank 6 through a hose, and the end of the drain pipe 4 sinks at least 0.5m below the liquid level in the liquid collecting tank 6, so that a sealing structure can be formed at one end of the drain pipe 4, and stable negative pressure can be generated in the negative pressure cavity 201.

Specifically, the quantity of fluid-discharge tube 4 and exhaust tube 3 corresponds with the quantity of negative pressure chamber 201, and exhaust tube 3 is located the top of fluid-discharge tube 4, for guaranteeing to form stable controllable negative pressure in negative pressure chamber 201, on every negative pressure chamber 201 solitary set up exhaust tube 3 and fluid-discharge tube 4, prevent that one exhaust tube 3 and a plurality of negative pressure chamber 201 are connected and lead to negative pressure to hang down excessively, can't form good dehydration effect.

Specifically, the sieve plate 2 is formed by an arc surface formed by a plurality of wedge-shaped rod strips, horizontal 350-micron gaps are formed among the rod strips, and thin-layer water is cut off by the rod strips of the sieve plate 2 and passes through the sieve gaps along with fine particles.

Specifically, the guide plate 22 is provided with an inclined surface extending to the drain pipe 4, and the slurry filtered from the sieve plate 2 flows onto the guide plate 22 and then flows into the drain pipe 4 along the inclined surface of the guide plate 22.

Specifically, in order to prevent the situation that the slurry left from the weir nozzle 21 cannot be fully paved on the sieve plate 2, the weir nozzle 21 is in a horizontal state, and the positions on two sides of the sieve plate 2 are sealing structures, so that the slurry left from the weir nozzle 21 is horizontally paved, the situation that the slurry cannot be covered locally does not occur, and a water layer can be formed on the outer layer of the negative pressure cavity 201 for sealing.

The working principle and the using process of the invention are as follows: the inclined wire pulp flowing box 1 mainly comprises a vacuum wet absorption part (a negative pressure cavity 201, an exhaust pipe 3 and an exhaust fan 5) and an inclined wire pulp flowing part (a liquid inlet groove 202, a weir nozzle 21 and a sieve plate 2), wherein the vacuum wet absorption part is a key component, because the water content of the paper pulp flowing through the inclined wire pulp flowing box 1 is very large, the next process can be carried out only by fully dehydrating, therefore, in order to improve the dehydration quantity, the method of enlarging the effective dehydration area (the area of the sieve plate 2) is more effective than increasing the vacuum degree of the negative pressure cavity 201, and the increase of the vacuum degree of the negative pressure cavity 201 can obviously increase the dragging force of the sieve plate 2, accelerate the abrasion of the sieve plate 2 on the net, but the increase of the number of the sieve plate 2 can not be too much for increasing the dehydration area, because the later dehydration capacity is not obviously increased if the sieve plate 2 is additionally increased, the abrasion of the net can be, therefore, two negative pressure cavities 201 are arranged below the sieve plate 2, the vacuum degree is reasonably controlled by arranging the pressure valve 31 on the exhaust pipe 3, the dehydration efficiency is improved, and the abrasion to the net is reduced, the unique sieve plate 2 is formed by arc-shaped surfaces formed by wedge-shaped rod strips, horizontal gaps are formed among the rod strips, the gap width is 350 micrometers, liquid to be screened flows through the liquid inlet groove 202 from the raw material pool 7 through the liquid inlet pipe 11, then the liquid level rises, the liquid flows to the sieve plate 2 through the weir nozzle 21 by means of gravity, when suspension flows along the sieve plate 2, thin water is cut off by the rod strips of the sieve plate 2 and passes through the sieve gaps along with fine particles, the exhaust fan 5 (low-pressure axial flow fan) is arranged for exhausting, so that the air pressure in the negative pressure cavities 201 is enabled to be compared with the original gravity dehydration, and the throughput of the slurry is greatly increased on the premise of ensuring the.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (9)

1. Inclined wire vacuum concentration equipment for a pulp production line comprises an inclined wire pulp flowing box (1) and a sieve plate (2), and is characterized in that: one side of the inclined net head box (1) is provided with a liquid inlet pipe (11) for feeding, a liquid inlet groove (202) is arranged on the inner side of the liquid inlet pipe (11), a weir nozzle (21) positioned on one side of the liquid inlet groove (202) is arranged on the upper edge of the sieve plate (2), at least two negative pressure cavities (201) are arranged inside the inclined net head box (1) and positioned at the inner side of the sieve plate (2), the adjacent negative pressure cavities (201) are separated by a clapboard (23), a guide plate (22) and a liquid discharge pipe (4) for discharging are arranged at the bottom of the negative pressure cavity (201), the outer wall of the inclined net head box (1) is also connected with an exhaust pipe (3), the exhaust pipe (3) is connected with an exhaust fan (5), the exhaust fan (5) is electrically connected with an external power supply, the negative pressure cavity (201) is in a negative pressure state through the exhaust fan (5).

2. Inclined wire vacuum concentration apparatus for a pulp production line according to claim 1, wherein the liquid inlet pipe (11) is connected with the stock chest (7) by a pipe.

3. Inclined wire vacuum concentration apparatus for a pulp production line according to claim 1, characterized in that: the exhaust fan (5) adopts a low-pressure axial flow fan.

4. Inclined wire vacuum concentration apparatus for a pulp production line according to claim 1, characterized in that: be equipped with on aspiration tube (3) and be used for detecting pressure valve (31) of negative pressure chamber (201) internal pressure, pressure valve (31) with air exhauster (5) closed loop signal connection.

5. Inclined wire vacuum concentration apparatus for a pulp production line according to claim 1, characterized in that: the liquid discharge pipe (4) is connected in the liquid collecting pool (6) through a hose, and the tail end of the liquid discharge pipe (4) is sunk at least 0.5m below the liquid level in the liquid collecting pool (6).

6. Inclined wire vacuum concentration apparatus for a pulp production line according to claim 1, characterized in that: the number of the liquid discharge pipes (4) and the number of the air exhaust pipes (3) correspond to the number of the negative pressure cavities (201), and the air exhaust pipes (3) are located above the liquid discharge pipes (4).

7. Inclined wire vacuum concentration apparatus for a pulp production line according to any of claims 1-6, characterized in that: the sieve plate (2) is composed of an arc surface formed by a plurality of wedge-shaped rod strips, and horizontal 350-micron gaps are formed among the rod strips.

8. Inclined wire vacuum concentration apparatus for a pulp production line according to claim 1, characterized in that: the guide plate (22) is provided with an inclined plane extending to the liquid discharge pipe (4).

9. Inclined wire vacuum concentration apparatus for a pulp production line according to claim 1, characterized in that: the weir mouth (21) is in a horizontal state, and the parts on two sides of the sieve plate (2) are sealing structures.

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