CN222305625U - Kneader equipment for preparing polyanionic cellulose PAC - Google Patents

Abstract

The utility model discloses a kneading machine device for preparing polyanionic cellulose PAC, comprising: a kneading machine as a whole for preparing polyanionic cellulose PAC, a water outlet opening is provided on the outer surface of the stirring paddle of the kneading machine as a whole, a water supply component is slidably installed in the stirring paddle, and the drainage mechanism of the water supply component can slide flush with the water outlet opening, and can also slide to seal and block the water outlet opening. The present application uses the design of the water supply component to enable the cleaning liquid to rotate along with the stirring paddle during the spraying process, and the rotating flushing method can make the cleaning liquid cover the surface of the discharge trough more comprehensively, thereby avoiding dead corners during the cleaning process, and the rotating stirring paddle can also scrape off the materials adhering to the inner wall of the discharge trough, thereby making the cleaning process of the discharge trough more complete.

Description

Kneader equipment for preparing polyanionic cellulose PAC

Technical Field

The utility model relates to the technical field of preparation of polyanionic cellulose, in particular to kneader equipment for preparation of polyanionic cellulose PAC.

Background

In the preparation of polyanionic cellulose (PAC), kneader equipment plays a critical role. Such equipment is mainly used for mixing, kneading and reacting various raw materials to obtain a desired PAC product.

The application discloses a feeding device of a kneader, which comprises a support vertically and rotatably arranged on one side of the kneader, wherein the horizontal end of the support, which is far away from the ground, extends to the upper part of the kneader, the end part of the horizontal end of the support is provided with a lifting hanging rod, two ends of the hanging rod are hung with a tray, and the feeding device is arranged in the tray.

However, after the kneader feeding device kneads the raw materials and prepares, do not have the efficiency of carrying out self-cleaning to it, need the manual washing of staff, and put the silo at abluent in-process and still can be sheltered from by the stirring rake, consequently can bring inconvenience at abluent in-process, and because the stirring rake shelters from still can appear wasing the dead angle, cause wasing insufficient condition to appear, and when the raw materials of next time emptys, will cause different materials to mix and cause the impure condition of the material of preparing to appear.

Disclosure of utility model

The utility model aims to provide kneader equipment for preparing polyanionic cellulose PAC, which solves the problems that after the raw materials are kneaded and prepared in the background technology, the raw materials do not have the function of automatically cleaning a discharge groove, and when the raw materials are poured next time, different materials are mixed, so that the prepared materials are impure.

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

A kneader equipment for polyanionic cellulose PAC preparation, includes the kneader whole that is used for preparing polyanionic cellulose PAC, the apopore has been seted up to the holistic stirring rake surface of kneader, slidable mounting has water supply assembly in the stirring rake, water supply assembly's drainage mechanism can slide and apopore parallel and level, also can slide and seal the jam to the apopore.

Preferably, the electric push rod is fixedly arranged on the whole lower surface of the kneader, a sleeve fixing ring is fixedly arranged at one end of a piston rod of the electric push rod, and the sleeve fixing ring is sleeved on the outer surface of the water supply assembly.

Preferably, a discharge groove is formed in the whole kneader, the discharge groove is located between the two groups of stirring paddles, a screw conveying rod is rotatably installed in the discharge groove, the other end of the screw conveying rod is fixedly connected with an output shaft of a motor, and the motor is fixedly installed at one end of the whole kneader.

Preferably, a discharging pipe is fixedly arranged at one end of the whole kneader, and the discharging pipe is communicated with the discharging groove.

Preferably, the water supply assembly comprises a water storage pipe, the water storage pipe is slidably mounted in the stirring paddle, a drain hole is formed in the outer surface of the water storage pipe, the drain hole can be flush with the water outlet, and the water storage pipe can be slidably sealed and blocked to the water outlet.

Preferably, the sealing limiting ring is rotatably arranged in the water storage pipe, a three-way pipe is fixedly arranged at one end of the sealing limiting ring, a sleeve fixing ring is sleeved on the outer surface of the three-way pipe, and the pipe orifice at the lower end of the three-way pipe is connected with an external water pump.

Preferably, the outer surface of the water storage pipe is fixedly provided with a guide rail block, the guide rail block is slidably arranged in a guide rail groove, and the guide rail groove is formed in the stirring paddle.

Compared with the prior art, the utility model has the beneficial effects that:

1. Through the design of the whole kneader, the stirring paddle, the water outlet hole, the water supply assembly and the electric push rod, when the polyanionic cellulose PAC is prepared, a worker can pour the raw materials into a discharge groove of the whole kneader, then the whole kneader can be driven to a driving paddle through a speed reducing motor, a driven paddle is driven by a gear, namely the stirring paddle is driven by a spiral blade of the stirring paddle to drive the materials to be extruded axially and radially; the composite motion ensures that materials are fully kneaded, rubbed, blended and uniformly mixed, accelerates physical and chemical reactions of the materials, further promotes the introduction of anionic groups, thereby obtaining high-quality PAC products, when the manufacturing is finished, a motor can be started to drive a screw conveying rod to push materials in a discharge groove from the discharge groove into a discharge pipe, the materials can be discharged from the discharge pipe to the outside, and simultaneously, the materials can be pushed into the discharge groove along with the rotation of a stirring paddle, when the discharge groove of the whole kneader is required to be cleaned after the discharge, a worker needs to cover the discharge groove under a cover plate, then can start an electric push rod to pull a water supply assembly to slide in the stirring paddle for a certain distance, so that a water discharging hole of the water supply assembly is communicated with a water discharging hole of the stirring paddle, the water pump can be connected with an external water pump, the water supply assembly can be pushed into the water supply assembly, the water supply assembly can be sprayed from the outer surface of the discharge groove to the discharge groove through the water discharging hole and the water discharging hole to operate, and the water supply assembly can be rotated together in the stirring paddle to drive the water discharging hole to rotate together when the stirring paddle rotates, so that the water discharging assembly can be rotated together with the water discharging hole is rotated together, the cleaning liquid can be sprayed to each part of the material, dead angles in the cleaning process can be avoided, the rotating stirring paddles can also scrape off the adhered materials on the inner wall of the material placing groove, and the water outlet holes formed in the surfaces of the stirring paddles are opposite to the spiral blades, so that the scraped and adhered materials on the spiral blades can be simultaneously washed down and discharged, and the material placing groove cleaning process is more complete.

2. Through the design of the three-way pipe, the water storage pipe, the sealing limiting ring, the drain hole and the guide rail block, when the inner wall of the material discharge groove is washed, the guide rail block on the surface of the water storage pipe is driven to slide in the guide rail groove in the stirring paddle by starting the electric push rod, the drain hole formed on the surface of the water storage pipe is simultaneously driven to be flush with the water outlet formed on the surface of the stirring paddle, then the three-way pipe can be connected with an external water pump, the water pump can supply prepared cleaning liquid into the other two groups of pipelines of the three-way pipe, the two groups of pipelines are rotationally connected with the water storage pipe in the stirring paddle through the sealing limiting ring, so that the cleaning liquid can be supplied into the two groups of water storage pipes, and the water storage pipe can be discharged into the material discharge groove from the water outlet of the stirring paddle through the drain hole, and the cleaning liquid can be washed by the inner wall of the material discharge groove and the screw of the stirring paddle with larger impact force along with the increase of the pressure of the water pump;

And can start the stirring rake and rotate at the in-process that washes the blowing groove, and the interior aqua storage tube of stirring rake can be through surface fixed mounting's guide rail piece slidable mounting in the guide rail inslot of stirring rake, reach and exert the restriction efficiency of rotation to the aqua storage tube, just can make the aqua storage tube be driven together rotatory, and the other end of aqua storage tube can be at the sealed spacing ring surface rotation of three-way pipe, thereby just can make wash port and apopore together rotatory, just can make the washing liquid spray to each position of putting the material, can avoid appearing in the circumstances at the dead angle of cleaning process.

Drawings

FIG. 1 is a schematic diagram of the overall overhead view of a kneader device for the production of polyanionic cellulose PAC according to the present utility model;

FIG. 2 is a schematic diagram showing the overall side view of a kneader device for the production of polyanionic cellulose PAC according to the present utility model;

FIG. 3 is a schematic view of the structure of the stirring paddle and water outlet hole of the utility model;

FIG. 4 is a schematic view of a water storage tube and drain hole structure according to the present utility model;

Fig. 5 is a schematic view of the structure of the electric push rod and the sleeve fastening ring of the present utility model.

The device comprises a kneader body, a stirring paddle, a water outlet, a screw conveying rod, a discharge groove, a discharge pipe, a guide rail groove, a water supply assembly, a three-way pipe, a sealing limiting ring, a water storage pipe, a water discharging hole, a guide rail block, a motor, an electric push rod, a guide rail block, a sleeve fixing ring and a sealing limiting ring.

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.

Referring to fig. 1-5, the present embodiment provides a kneader device for preparing polyanionic cellulose PAC, as shown in fig. 1-3, including a kneader body 1 for preparing polyanionic cellulose PAC, an outlet hole 102 is provided on an outer surface of a stirring paddle 101 of the kneader body 1, a water supply assembly 2 is slidably mounted in the stirring paddle 101, and a drainage mechanism of the water supply assembly 2 can slide flush with the outlet hole 102 and also can slide to seal and block the outlet hole 102.

The electric push rod 4 is fixedly arranged on the lower surface of the kneader body 1, a sleeve fixing ring 401 is fixedly arranged at one end of a piston rod of the electric push rod 4, and the sleeve fixing ring 401 is sleeved on the outer surface of the water supply assembly 2.

A discharge groove 104 is formed in the kneader body 1, the discharge groove 104 is positioned between the two groups of stirring paddles 101, a screw conveying rod 103 is rotatably installed in the discharge groove 104, the other end of the screw conveying rod 103 is fixedly connected with an output shaft of a motor 3, and the motor 3 is fixedly installed at one end of the kneader body 1.

One end of the kneader body 1 is fixedly provided with a discharge pipe 105, and the discharge pipe 105 is communicated with a discharge groove 104.

Through the design of the kneader body 1, the stirring paddle 101, the water outlet hole 102, the water supply assembly 2 and the electric push rod 4, when polyanionic cellulose PAC is prepared, a worker can pour raw materials into a discharge groove of the kneader body 1, then the kneader body 1 can be driven to a driving paddle through a reducing motor, a driven paddle is driven by a gear, namely the stirring paddle 101, and a screw blade of the stirring paddle 101 drives materials to be extruded axially and radially; the composite motion ensures that materials are fully kneaded, rubbed, blended and uniformly mixed, accelerates physical and chemical reactions of the materials, further promotes the introduction of anionic groups, and further obtains high-quality PAC products, when the manufacturing is finished, the motor 3 can be started to drive the screw conveying rod 103 to push materials in the discharge groove from the discharge groove 104 to the discharge pipe 105, the materials can be discharged from the discharge pipe 105 to the outside, and simultaneously, the materials can be pushed into the discharge groove 104 along with the rotation of the stirring paddle 101, when the discharge groove of the kneader whole 1 is required to be cleaned after the discharge, a worker needs to cover the discharge groove under a cover plate, then the electric push rod 4 can be started to pull the water supply assembly 2 to slide in the stirring paddle 101 for a certain distance, namely, the water discharge hole 204 of the water supply assembly 2 is communicated with the water outlet hole 102 of the stirring paddle 101, the water pump is connected with an external water pump, the water pump can push cleaning liquid into the water supply assembly 2, the water supply assembly 2 can be rotated from the discharge hole 102 to the outer surface of the stirring paddle 101 through the stirring paddle 101, the water supply assembly 2 can be flushed out of the discharge groove through the stirring paddle 101, and simultaneously drive inside water supply subassembly 2 together rotatory to just can make wash port 204 and apopore 102 together rotatory, just can make the washing liquid spray to each position of putting the material, can avoid appearing in the circumstances at the dead angle in the cleaning process, and rotatory stirring rake 101 also can together strike off the material that adheres on the blowing groove inner wall, and part apopore 102 that stirring rake 101 surface set up is relative with the screw blade again, makes it can simultaneously strike off down and discharge together to the material that adheres on the screw blade, thereby makes the process of wasing the blowing groove more abundant.

As shown in fig. 4 to 5, the water supply assembly 2 comprises a water storage pipe 203, the water storage pipe 203 is slidably mounted in the stirring paddle 101, a drain hole 204 is formed in the outer surface of the water storage pipe 203, the drain hole 204 can be flush with the water outlet hole 102, and the water storage pipe 203 can be slidably sealed and blocked to the water outlet hole 102.

The sealing limiting ring 202 is rotatably installed in the water storage pipe 203, the three-way pipe 201 is fixedly installed at one end of the sealing limiting ring 202, the sleeve fixing ring 401 is sleeved on the outer surface of the three-way pipe 201, and the pipe orifice at the lower end of the three-way pipe 201 is connected with an external water pump.

The outer surface of the water storage pipe 203 is fixedly provided with a guide rail block 205, the guide rail block 205 is slidably arranged in a guide rail groove 106, and the guide rail groove 106 is arranged in the stirring paddle 101.

Through the design of the three-way pipe 201, the water storage pipe 203, the sealing limiting ring 202, the drain hole 204 and the guide rail block 205, when the inner wall of the material discharge groove is flushed, the guide rail block 205 on the surface of the water storage pipe 203 can be driven to slide in the guide rail groove 106 in the stirring paddle 101 by starting the electric push rod 4 to pull the three-way pipe 201, and simultaneously, the drain hole 204 formed on the surface of the water storage pipe 203 is driven to be flush with the water outlet hole 102 formed on the surface of the stirring paddle 101, then the three-way pipe 201 can be connected with an external water pump, the water pump can supply the prepared cleaning liquid into the other two groups of pipelines of the three-way pipe 201, the two groups of pipelines are rotationally connected with the water storage pipe 203 in the stirring paddle 101 through the sealing limiting ring 202, so that the cleaning liquid can be supplied into the two water storage pipes 203, and the water storage pipe 203 can discharge the cleaning liquid from the water outlet hole 102 of the stirring paddle 101 into the material discharge groove through the drain hole 204, and the inner wall of the cleaning liquid with larger impact force and the screw of the stirring paddle 101 can be flushed with the increase of the water pump pressure;

And can start stirring rake 101 and rotate at the in-process that washes the blowing groove, and the interior aqua storage tube 203 of stirring rake 101 can be through surface fixed mounting's guide rail piece 205 slidable mounting in the guide rail groove 106 of stirring rake 101, reach and exert the restriction efficiency of rotation to aqua storage tube 203, just can make aqua storage tube 203 be driven together rotatory, and the other end of aqua storage tube 203 can be at the sealed spacing ring 202 surface rotation of three-way pipe 201, thereby just can make wash port 204 and apopore 102 together rotatory, just can make the washing liquid spray to each position of putting the material, can avoid appearing in the condition at the cleaning process dead angle.

When polyanionic cellulose PAC is prepared, workers can pour raw materials into a discharge groove of the kneader body 1, then the kneader body 1 can be driven to a driving paddle through a reducing motor, a driven paddle is driven by a gear, namely a stirring paddle 101, and a spiral blade of the stirring paddle 101 drives materials to be extruded axially and radially; the composite motion ensures that materials are fully kneaded, rubbed, blended and uniformly mixed, accelerates physical and chemical reactions of the materials, further promotes the introduction of anionic groups, and further obtains high-quality PAC products, when the manufacturing is finished, the motor 3 can be started to drive the screw conveying rod 103 to push materials in the discharge groove from the discharge groove 104 to the discharge pipe 105, the materials can be discharged from the discharge pipe 105 to the outside, and simultaneously, the materials can be pushed into the discharge groove 104 along with the rotation of the stirring paddle 101, when the discharge groove of the kneader whole 1 is required to be cleaned after the discharge, a worker needs to cover the discharge groove under the cover plate, then the electric push rod 4 can be started to drive the water discharging hole 204 formed on the surface of the water storage pipe 203 to be flush with the water discharging hole 102 formed on the surface of the stirring paddle 101, then the three-way pipe 201 can be connected with an external water pump, the water pump can supply prepared cleaning liquid into two groups of pipelines of the three-way pipe 201, the two groups of pipelines can be connected with the water storage pipe 203 through the screw rings 203 through the sealing paddles 203, the two groups of pipelines can be rotated into the water storage pipe 203, the water storage tube 203 can discharge the cleaning liquid from the water outlet hole 102 of the stirring paddle 101 into the discharge groove through the water outlet hole 204, and the cleaning liquid can be enabled to have larger impact force to flush the inner wall of the discharge groove and the screw of the stirring paddle 101 along with the increase of the pressure of the water pump, the stirring paddle 101 can be started to rotate in the process of flushing the discharge groove, the water storage tube 203 in the stirring paddle 101 can be slidably arranged in the guide rail groove 106 of the stirring paddle 101 through the guide rail block 205 fixedly arranged on the outer surface, the effect of applying rotation limitation to the water storage tube 203 is achieved, the water storage tube 203 can be driven to rotate together, the other end of the water storage tube 203 can rotate on the outer surface of the sealing limiting ring 202 of the three-way pipe 201, so that the water outlet hole 204 and the water outlet hole 102 can rotate together, the cleaning liquid can be sprayed to each position of the discharge groove, and the cleaning liquid flushed in the discharge groove can be discharged through the discharge tube 105.

In summary, the cleaning liquid can rotate along with the stirring paddle 101 in the process of spraying the cleaning liquid, the rotating flushing mode can enable the cleaning liquid to cover the surface of the discharge chute more comprehensively, so that dead angles in the cleaning process can be avoided, materials adhered to the inner wall of the discharge chute can be scraped together by the rotating stirring paddle 101, and part of water outlet holes 102 formed in the surface of the stirring paddle 101 are opposite to the spiral blades, so that the materials scraped off and adhered on the spiral blades can be flushed down and discharged together at the same time, the process of cleaning the discharge chute is more sufficient, and the situation that the prepared materials are impure due to the fact that different materials are mixed when the next raw materials are poured can be avoided.

None of the utility models are related to the same or are capable of being practiced in the prior art. Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. The kneader equipment for preparing the poly-anionic cellulose PAC is characterized by comprising a kneader whole (1) for preparing the poly-anionic cellulose PAC, wherein water outlets (102) are formed in the outer surface of a stirring paddle (101) of the kneader whole (1), a water supply assembly (2) is slidably arranged in the stirring paddle (101), and a water draining mechanism of the water supply assembly (2) can slide to be flush with the water outlets (102) and also can slide to seal and block the water outlets (102).

2. The kneader device for the preparation of polyanionic cellulose PAC according to claim 1, wherein an electric push rod (4) is fixedly arranged on the lower surface of the kneader body (1), a sleeve fixing ring (401) is fixedly arranged at one end of a piston rod of the electric push rod (4), and the sleeve fixing ring (401) is sleeved on the outer surface of the water supply assembly (2).

3. The kneader device for the preparation of polyanionic cellulose PAC according to claim 1 is characterized in that a discharge groove (104) is formed in the kneader body (1), the discharge groove (104) is positioned between two groups of stirring paddles (101), a spiral conveying rod (103) is rotatably arranged in the discharge groove (104), the other end of the spiral conveying rod (103) is fixedly connected with an output shaft of a motor (3), and the motor (3) is fixedly arranged at one end of the kneader body (1).

4. A kneader device for the preparation of polyanionic cellulose PAC according to claim 3, characterized in that a discharge pipe (105) is fixedly arranged at one end of the kneader body (1), and the discharge pipe (105) is communicated with a discharge groove (104).

5. The kneader device for preparation of polyanionic cellulose PAC according to claim 1, characterized in that the water supply assembly (2) comprises a water storage pipe (203), the water storage pipe (203) is slidably arranged in the stirring paddle (101), a drain hole (204) is formed in the outer surface of the water storage pipe (203), the drain hole (204) can be flush with the water outlet hole (102), and the water storage pipe (203) can be slidably sealed and blocked to the water outlet hole (102).

6. The kneader device for the preparation of polyanionic cellulose PAC according to claim 5, characterized in that a sealing limiting ring (202) is rotatably arranged in the water storage pipe (203), a three-way pipe (201) is fixedly arranged at one end of the sealing limiting ring (202), a sleeve fixing ring (401) is sleeved on the outer surface of the three-way pipe (201), and the lower pipe orifice of the three-way pipe (201) is connected with an external water pump.

7. The kneader device for the preparation of polyanionic cellulose PAC according to claim 5, characterized in that the outer surface of the water storage pipe (203) is fixedly provided with a guide rail block (205), the guide rail block (205) is slidably arranged in a guide rail groove (106), and the guide rail groove (106) is arranged in the stirring paddle (101).