CN215278399U - Extrusion filtering stirrer for micro-jet equipment feeding end - Google Patents

Abstract

The utility model relates to an extrude and filter stirring and cleaning device technical field, be an extrude and filter agitator for microjet equipment feed end particularly, be equipped with in the filter vat and extrude and filter the agitator, it includes the rotation center pin of being connected with the motor to extrude to filter the agitator, the transmission center pin passes through the shaft joint and is connected with sliding connection pole, be equipped with first scissors face scraper blade and second scissors face scraper blade on the sliding connection pole, distance accessible sliding connection pole between first scissors face scraper blade and the second scissors face scraper blade is adjusted. The utility model discloses a rotation center pin drives and cuts the knife face scraper blade rotatory, solves the stickness material and the problem that the material that the granule is not of uniform size adheres and the gathering in lasting production, saves a large amount of manpower and materials, extrude and filter the agitator to and the scraper blade of cutting the knife face can not influence the particle diameter after handling, can satisfy the requirement of aseptic production.

Description

Extrusion filtering stirrer for micro-jet equipment feeding end

Technical Field

The utility model relates to an extrude and filter stirring and cleaning device technical field, be an extrude and filter agitator for microjet equipment feed end particularly.

Background

The effect of material stickness has mostly all been neglected to the glassware in the existing market, does not have too many utility model's device to solve and handle this problem. The materials with large viscosity and large particles are stacked and adhered in the feeder, so that the materials cannot collide effectively, the feeder is blocked, and the effective capacity of the feeder is reduced. In the large-scale production process, the efficiency is reduced to a great extent, and if a fault occurs, only the disassembly is carried out for manual cleaning, which is time-consuming and labor-consuming.

The feeder applied to the micro-jet equipment in China industry does not have a design device of the type at present.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to solve prior art not enough, provide an extrude and filter agitator for microjet equipment's feed end, it not only can solve the phenomenon that the material in the feeder adheres, gathers, guarantees not dismantling equipment in the production process, satisfies aseptic production's requirement, can guarantee again to improve the treatment effect of material under the same processing parameter, and the bulk drug crystal type also does not have obvious change.

In order to achieve the purpose, the extruding and filtering stirrer for the feed end of the micro-jet flow device is designed, the feed end of the micro-jet flow device comprises a charging barrel, a filtering barrel is arranged in the charging barrel, the extruding and filtering stirrer is arranged in the filtering barrel, the extruding and filtering stirrer comprises a rotating central shaft connected with a motor, the rotating central shaft is connected with a sliding connecting rod through a coupling, a first scissor face scraping plate and a second scissor face scraping plate are arranged on the sliding connecting rod, and the distance between the first scissor face scraping plate and the second scissor face scraping plate can be adjusted through the sliding connecting rod.

Further, first scissors face scraper blade and second scissors face scraper blade with sliding connection pole passes through bolted connection, works as first scissors face scraper blade and second scissors face scraper blade are located when sliding connection pole both ends, scissors face scraper blade laminate in the filter vat inner wall, sliding connection pole is located the filter vat bottom.

Further, the scissor face scraper comprises a scraper blade and a rotating disk at the bottom of the scraper blade, and the rotating disk can drive the scraper blade to rotate so as to adjust the angle of the scraper blade.

Furthermore, the movement directions of the first scissor face scraper, the second scissor face scraper and the sliding connecting rod are opposite to the thread direction of the coupler.

Furthermore, the shaft coupling includes transmission shaft, first bearing and second bearing, the transmission shaft pass through first bearing connect in the rotation center axle, first bearing is located in the second bearing.

Furthermore, a third bearing is arranged in the charging barrel and connected with the top end of the coupler.

Further, it is equipped with first sealing washer to rotate center pin top cover, be equipped with a support backing ring and a guide ring on the first sealing washer, first sealing washer is located sliding connection rod's below, just the below of first sealing washer is equipped with one set and locates rotate the second sealing washer of center pin.

Furthermore, a feed inlet is formed in the top of the charging barrel, and an air inlet used for pressurizing materials in the filter barrel is formed beside the feed inlet.

Furthermore, a water outlet connected with a cleaning device is formed in the side face of the upper portion of the charging barrel, a water inlet connected with the cleaning device is formed in the bottom of the charging barrel, and a discharge hole is formed in the side face of the charging barrel.

Compared with the prior art, the utility model, novel structure drives through rotating the center pin and cuts the knife face scraper blade rotatory, solves the problem that the adhesion and the gathering of stickness material and the material that the granule is not of uniform size in continuous production, saves a large amount of manpower and materials, extrude and filter the agitator to and the scraper blade of cutting the knife face can not influence the particle diameter after handling, can satisfy aseptic production's requirement.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

FIG. 2 is a schematic view of the fluid flow direction of the present invention;

FIG. 3 is a schematic structural view of the shear blade face scraper of the present invention;

in the figure: 1. the motor 2 rotates the central shaft 3, the water inlet 4, the coupler 5, the sliding connecting rod 6, the first shear face scraper fixing nut 7, the first shear face scraper 8, the filter cylinder 9, the charging barrel 10, the water outlet 11, the second shear face scraper 12, the second shear face scraper fixing nut 13, the discharge hole 14 and the feed inlet.

Detailed Description

The structure and principle of such a device will be apparent to those skilled in the art from the following further description of the invention with reference to the accompanying drawings. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1, generally speaking, at the feed end of microjet equipment, generally be equipped with charging bucket and filter vat, the inside of charging bucket is located to the filter vat, the utility model discloses an extrude and filter agitator for microjet equipment feed end locates the inside of filter vat mainly includes first scissors face scraper blade, second scissors face scraper blade, sliding connection pole, the combination drive disk assembly who rotates the center pin and constitute.

As shown in the figure, a motor is connected below the extruding and filtering stirrer and connected with the rotating central shaft, a switch button is arranged on the motor, and the motor is connected with a power supply.

The rotating central shaft and the sliding connecting rod are connected with the motor through a coupler, and the moving directions of the first scissor face scraping plate, the second scissor face scraping plate and the sliding connecting rod are opposite to the direction of the coupler thread.

The top of shaft coupling is connected through the sub-assembly that two fixed screws and first scissors face scraper blade, second scissors face scraper blade and sliding connection pole constitute, and the shaft coupling bottom is connected in the center pin that rotates through two fixed screw connections. The shaft coupling includes, first bearing and second bearing, and the shaft coupling passes through first bearing to be connected in the rotation center axle, and first bearing is located in the second bearing, and the second bearing installation is fixed in on the charging bucket. The motor drives the rotating central shaft to rotate, and the rotation of the rotating central shaft drives the transmission shaft of the coupling to rotate, so that an assembly consisting of the first scissor face scraping plate, the second scissor face scraping plate and the sliding connecting rod moves. The top of the rotating central shaft is sleeved with a first sealing ring, the first sealing ring is provided with a supporting backing ring and a guide ring, the first sealing ring is positioned below the sliding connecting rod, and a second sealing ring sleeved on the rotating central shaft is arranged below the first sealing ring. The sealing ring is used for ensuring the sealing between the rotating central shaft and the sliding connecting rod

The charging barrel of the extrusion filtering stirring feeder is provided with a feeding hole, a water inlet, a water outlet and a discharging hole, the water inlet and the water outlet are connected with a water purification pipe and used for cleaning equipment, the cleaning equipment is shown in figure 2, in the process of cleaning the equipment, a reverse flow water inlet mode is adopted for cleaning, water is fed from the bottom, water is discharged from the upper part, and therefore the stickness particles adhered to the side wall and the bottom of the filter cylinder are cleaned. The feed inlet is provided with a pressurizing port for pressurizing the materials in the filter barrel.

The side wall of the lower part of the charging barrel of the extrusion, filtration, stirring and feeder is provided with a discharge port, the material is rotated by using the internal stirring work, has centrifugal force, can keep a homogeneous state and flow out from the side wall, and enters the next process flow.

For the utility model discloses a first scissors face scraper blade and second scissors face scraper blade, its concrete structure refers to fig. 3, first scissors face scraper blade and second scissors face scraper blade pass through the nut to be fixed on the sliding connection pole, are equipped with the spout on the sliding connection pole, scissors face scraper blade can slide on the spout, scissors face scraper blade includes the rotary disk of scraper blade and scraper blade bottom, the rotary disk can drive the rotatory angle with the adjustment scraper blade of scraper blade.

The extrusion filtering stirrer can be used for cleaning materials adhered and gathered at the feed end of the micro-jet equipment, and the cleaning method comprises the following steps:

a. in the process of material treatment, a combined piece formed by the first scissor-face type scraping plate, the second scissor-face type scraping plate and the sliding connecting rod rotates clockwise, and the rotating speed of the combined piece is 1-30 rpm;

b. materials are easy to adhere in the feeder in the moving process, an assembly composed of the first scissor-face type scraper blade, the second scissor-face type scraper blade and the sliding connecting rod rotates under the driving of the motor shaft, and meanwhile, the first scissor-face type scraper blade and the second scissor-face type scraper blade are respectively tightly attached to the inner wall of the filter barrel, so that the materials adhered to the inner wall of the filter barrel can be cleaned in time;

c. the materials adhered to the filter barrel are also separated along with the rotation of the materials, so that the aggregation of the materials is avoided;

d. the materials after being extruded, filtered and stirred keep a homogeneous motion state, enter a discharge hole on the side wall of the charging barrel and then enter the next process flow.

e. The bottom of the charging barrel is provided with a water inlet, the upper part of the charging barrel is provided with a water outlet, and materials adhered to the filter cartridge are cleaned by reverse water flow.

Install the utility model discloses an extrude feeder of filtration agitator and feeder of conventional microjet equipment and produce the experiment contrast. The result shows, does not increase relatively the utility model discloses a feeder has increased the utility model discloses cleaning device's feeder has obtained very big improvement to the condition of gathering of stickness material.

At the same operating time, do not increase relatively the utility model discloses cleaning device's feeder has increased the utility model discloses a feeder has improved 50% to the treatment effeciency of stickness material.

Above-mentioned contrast can be seen the utility model discloses to the stickness material in the feeder cohesion and adhere the condition and obviously improve, do not influence crushing effect, be applicable to extensive industrial aseptic production.

Claims (9)

1. The utility model provides an extrude and filter agitator for microfluidics equipment feed end, microfluidics equipment feed end is equipped with the filter vat including the charging bucket in, the charging bucket, its characterized in that, be equipped with in the filter vat and extrude and filter the agitator, extrude and filter the agitator and include the rotation center pin of being connected with the motor, the rotation center pin passes through the shaft joint and is connected with sliding connection pole, be equipped with first scissors face scraper blade and second scissors face scraper blade on the sliding connection pole, the distance accessible sliding connection pole between first scissors face scraper blade and the second scissors face scraper blade is adjusted.

2. The extrusion filter blender for a feed end of a microfluidics device of claim 1, wherein the first and second scissor-face scrapers are bolted to the sliding linkage, and when the first and second scissor-face scrapers are at both ends of the sliding linkage, the scissor-face scrapers are attached to the inner wall of the filter vat and the sliding linkage is at the bottom of the filter vat.

3. The extrusion filter mixer for a feed end of a microfluidics device of claim 2, wherein the shear face blade comprises a blade and a rotating disk at the bottom of the blade, the rotating disk rotating the blade to adjust the angle of the blade.

4. The extrusion filter blender for a feed end of a microfluidics device of claim 3, wherein the first scissor flighting, the second scissor flighting, and the sliding linkage move in a direction opposite to the threading direction of the coupling.

5. The extrusion filter blender for a feed end of a microfluidics device of claim 1, wherein the coupling comprises a drive shaft, a first bearing, and a second bearing, the drive shaft being connected to the central axis of rotation by the first bearing, the first bearing being disposed within the second bearing.

6. The extrusion filtration blender for a feed end of a microfluidics device of claim 5, wherein a third bearing is disposed within the barrel, the third bearing being coupled to a top end of the adapter.

7. The extrusion filtration blender for a feed end of a microfluidics device of claim 1, wherein a first seal ring is sleeved on a top portion of the rotation center shaft, a support backing ring and a guide ring are arranged on the first seal ring, the first seal ring is located below the sliding connection rod, and a second seal ring sleeved on the rotation center shaft is arranged below the first seal ring.

8. The extrusion filtration mixer for a feed end of a microfluidics device of claim 1, wherein the top of the charging basket is provided with a feed inlet, and an air inlet for pressurizing the material in the filter basket is provided beside the feed inlet.

9. The extrusion filtration mixer for a feed end of a microfluidics device of claim 8, wherein the upper side of the barrel is provided with a water outlet for connection to a cleaning device, the bottom of the barrel is provided with a water inlet for connection to a cleaning device, and the side of the barrel is further provided with a discharge port.

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