CN217248611U - Agitating unit based on different vermiculite, compost material - Google Patents

Abstract

The utility model discloses an agitating unit based on different vermiculite, compost material, including the container that is equipped with the tube-shape inner chamber, through set up (mixing) shaft and single helical blade in the tube-shape inner chamber, the (mixing) shaft passes through driving motor drive rotation, drives vermiculite, compost in the rotatory stirred vessel of single helical blade, and the lid can be used to seal the container, cuts off external and container. The utility model discloses single helical blade sets up to 200-240 along axial projection angle from the place of inception to the department that ends, can effectively avoid stirring in-process material wall built-up on the container inner wall. The utility model realizes the uniform and sufficient stirring of vermiculite and compost in the closed cavity, and avoids the phenomena of wall hanging and accumulation. And the structure is simple, the installation is convenient, and the vermiculite and the compost are convenient to replace. Realize automatic operation, improve equipment's intellectuality, reduce the hand labor volume.

Description

Agitating unit based on different vermiculite, compost material

Technical Field

The utility model relates to a agitating unit based on different vermiculite, compost material.

Background

Due to high viscosity, vermiculite and compost can not be broken into blocks in the stirring process, and are easy to hang and pile in the container. In order to stir the vermiculite and the compost, a plurality of stirring devices on the market are manually stirred, so that the stacked vermiculite and the compost can be manually interfered at any time in the stirring process. However, the manual stirring has the problems of high working strength, low efficiency and uneven and sufficient stirring.

In the prior art, no effective method or equipment is available for realizing the functions of uniformly and automatically stirring vermiculite and compost.

Disclosure of Invention

The utility model provides a container automatic stirring device which has simple structure, can realize automation and evenly and effectively stir vermiculite and compost, and solves the problems existing in the stirring process of the existing vermiculite and compost.

The utility model provides a technical scheme who has the problem is: a stirring device based on different vermiculite and compost materials comprises a container with a cylindrical inner cavity, and is characterized in that as an improvement, a stirring shaft and a single helical blade arranged on the stirring shaft are arranged in the container, the axial projection angle of the single helical blade from a starting position to an ending position is 200-240 degrees, a connecting rib is arranged between the single helical blade and the stirring shaft, a cover body is arranged on the container, a base body for mounting the stirring shaft is arranged on the cover body, and the stirring shaft is matched with the base body and penetrates through the base body; a gap is arranged between the single helical blade and the stirring shaft, and at least one stirring rod is arranged above the single helical blade on the stirring shaft.

As a further improvement, the seat body is hermetically arranged on the cover body; the base body is hermetically connected with the stirring shaft; the outer side of the stirring shaft is provided with a coupler, and the container is hermetically connected with the cover body.

As a further improvement, a fixed rod for connecting the cover body to the container is arranged between the cover body and the container, and a locking structure for locking the cover body to the container is arranged on the fixed rod; a sealing gasket is arranged between the cover body and the container.

As a further improvement, one end of the fixing rod is connected with the bottom of the container, the other end of the fixing rod protrudes out of the cover body, and the locking structure is a butterfly nut in threaded fit with the fixing rod.

As a further improvement, an upper bearing and a lower bearing are arranged between the base body and the stirring shaft, and a spacing piece for separating the upper bearing and the lower bearing is arranged between the upper bearing and the lower bearing.

As a further improvement, the axial projection of the single helical blade from the starting position to the ending position is 210-230 degrees from the starting position to the ending position; the connecting rib between the lower end of the connecting single helical blade and the stirring shaft is provided with a convex block which is convex upwards.

As a further improvement, the single helical blade is axially projected from the starting position to the ending position, and the angle from the starting position to the ending position is 220 degrees; the lug is arranged close to the single helical blade.

As a further improvement, the inner side of the bottom of the single helical blade is provided with a flange which is upwards protruded out of the upper surface of the blade; the projection width of the single helical blade along the axial direction is smaller than the projection width of a gap between the single helical blade and the stirring shaft.

As a further improvement, two stirring rods are arranged; the two stirring rods are positioned at different heights on the stirring shaft, the axial projection of the two stirring rods along the stirring shaft is arranged in the opposite direction of the axial projection of the single helical blade along the stirring shaft, 90-degree included angles are formed between the axial projection of the two stirring rods along the stirring shaft, and 50-degree included angles are formed between the stirring rods positioned at the low positions and the axial projection of the stirring shaft at the upper end termination position of the single helical blade.

As a further improvement, cutting edges are arranged on two sides or one side facing to the rotating direction of the connecting ribs or/and the stirring rod.

Compared with the prior art, the utility model, its beneficial effect is that, through set up (mixing) shaft and single helical blade in the tube-shape inner chamber, the external power drive of (mixing) shaft accessible is rotatory, drives vermiculite, compost in the rotatory stirred vessel of single helical blade, and the lid can be used to the closed vessel, cuts off external and container. The utility model discloses single helical blade sets up to 200-240 along axial projection angle from the place of origin to the department of ending, only occupies one side of (mixing) shaft, makes one side vacant in addition to can realize that the material falls fast, and can not appear piling up at the top, avoid appearing the dead phenomenon of motor card. The vermiculite with high viscosity is stirred, and the bearing is better adapted and the proper thrust is generated when the vermiculite is composted; a gap for returning materials is formed between the single helical blade and the stirring shaft, connecting ribs for smashing the materials are arranged between the starting position and the ending position of the single helical blade and the stirring shaft, at least one stirring rod for smashing and pressure feeding the materials is arranged above the single helical blade on the stirring shaft, the top of the single helical blade and the uppermost layer of the stirred materials are only stirred by the stirring rod, the gap between the single helical blade and the inner wall of the container is larger than 0mm and smaller than 3mm, and the materials can be effectively prevented from being hung on the inner wall of the container in the stirring process after the vermiculite with higher stirring viscosity and the compost materials rise through the single helical blade and then are smashed and pressure fed through the stirring rod.

The utility model realizes the uniform and sufficient stirring of vermiculite and compost in the closed cavity, and avoids the phenomena of wall hanging and accumulation. And the structure is simple, the installation is convenient, and the vermiculite and the compost are convenient to replace. Realize automatic operation, improve equipment's intellectuality, reduce the hand labor volume.

The utility model can simultaneously realize stirring of vermiculite and compost which have high humidity and viscosity and contain two different materials; it is also possible to stir mixtures of vermiculite with plastics, compost and mixtures of plastics. The stirring is uniformly turned from bottom to top in the sealed environment of the container, and the rapid falling of the materials is realized. Especially, the flaky plastic material with light weight and large volume can effectively break the caking phenomenon of the material through the stirring rod.

Drawings

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

Fig. 2 is an enlarged schematic view of fig. 1 at a.

Fig. 3 is a top view of the helical blade and the stirring shaft of the present invention.

Fig. 4 is a schematic view of the three-dimensional structure of the helical blade and the stirring shaft of the present invention.

Detailed Description

Referring to fig. 1-4, the embodiment includes a stirring device based on different vermiculite and compost materials, which includes a container 1 provided with a cylindrical inner cavity, a stirring shaft 2 and a single helical blade 3 arranged on the stirring shaft 2 are arranged in the container 1, and the axial projection angle of the single helical blade 3 from the starting position to the ending position is 200-240 °, that is ═ a in fig. 3 is 200-240 °. The container is characterized in that a connecting rib 21 is arranged between the single helical blade 3 and the stirring shaft 2, preferably, the connecting rib 21 is respectively arranged between the single helical blade 3 close to the starting position and the end position and the stirring shaft, a cover body 4 is arranged on the container 1, and the cover body 4 can be connected with the container in a sealing manner. The cover body 4 is provided with a base body 5 for installing the stirring shaft 2, a bearing for connection is also arranged between the base body 5 and the stirring shaft 2, and the stirring shaft 2 is matched with the base body 5 and penetrates through the base body 5 and can be connected with a driving motor 6 arranged on the outer side of the cover body 4 or other power input shafts; a gap is arranged between the single helical blade 3 and the stirring shaft 2, and the gap between the single helical blade 3 and the inner wall of the container 1 is larger than 0mm and smaller than 3 mm. The stirring shaft is provided with at least one stirring rod 22 above the single helical blade, and if a plurality of stirring rods 22 are arranged, the plurality of stirring rods 22 are positioned at different heights on the stirring shaft 2. The connecting ribs 21 can effectively break vermiculite and compost materials when rotating along with the stirring shaft 2, and the stirring rod 22 can effectively break and press and convey the vermiculite and compost materials to return downwards from a gap between the single helical blade 3 and the stirring shaft 2 when rotating along with the stirring shaft 2.

When the stirring device of the utility model is used, the driving motor 6 drives the stirring shaft 2 to rotate, the stirring shaft 2 rotates to drive the single helical blade 3 to rotate the vermiculite and the compost in the stirring container 1, the vermiculite and the compost are upwards pushed through the single helical blade 3 in the rotating process, because the axial projection angle of the single helical blade 3 from the starting position to the ending position is only 200-240 degrees, the stirring belt just adapts to the single helical blade 3 to remove the corresponding vermiculite and compost materials, the load of the single helical blade 3 is reduced, the materials taken along with the single helical blade 3 can better adapt to the back-and-forth circulation, the accumulation at the top of the container is effectively avoided, the materials taken up are broken by the stirring rod 22 from the gap between the single helical blade 3 and the stirring shaft 2, the materials are pressed and fed back to the lower part of the container 1 and are continuously stirred by the single helical blade 3 on the stirring shaft 2, the stirring is carried out in a reciprocating circulation manner, the vermiculite and the compost materials can be uniformly and fully stirred. Because the clearance between the single helical blade 3 and the inner wall of the container 1 is only larger than 0mm and smaller than 3mm, the wall hanging is avoided in the stirring process, the stirring is carried out in the container 1 provided with the cover body 4, and the cover body 4 isolates the container from the outside, so that the air leakage can be prevented.

The seat body 5 is hermetically arranged on the cover body 4; the base body 5 is hermetically connected with the stirring shaft 2; driving motor 6 and (mixing) shaft 2 between be equipped with shaft coupling 7, driving motor 6 accessible shaft coupling 7 drive (mixing) shaft 2 and drive single helical blade 3 rotatory.

A fixing rod 41 for connecting the cover 4 to the container 1 is arranged between the cover 4 and the container 1, and a locking structure for locking the cover 4 to the container 1 is arranged on the fixing rod 41; a sealing gasket 42 is arranged between the cover body 4 and the container 1, and the sealing gasket 42 is used for sealing the cover body 4 and the container 1.

One end of the fixed rod 41 is connected with the bottom of the container 1. The fixing rod 41 can be fixedly connected to the base 11 at the bottom of the container 1, the other end of the fixing rod protrudes out of the cover body 4, the locking structure is a butterfly nut 43 in threaded fit with the fixing rod 41, the cover body 4 can be fixedly locked on the container 1 through the butterfly nut 43, and air leakage in the stirring process is avoided.

The inner side of the bottom of the single helical blade 3 is provided with a flange 31 which protrudes upwards from the upper surface of the blade, and a connecting rib 21 which is connected between the lower end of the single helical blade 3 and the stirring shaft 2 is provided with a convex block 23 which protrudes upwards. The lug 23 and the flange 31 are beneficial to turning over the materials at the bottom of the container, so that the materials can rise smoothly; the lug 23 is arranged close to the single helical blade 3. The single helical blade 3 along axial projection width be less than the projection width in space between single helical blade 3 and the (mixing) shaft 2, single helical blade 3 rotates the in-process like this, set up great space between single helical blade 3 and the (mixing) shaft 2 and can all return from the space fast in order to satisfy the ascending material of helical drive, avoid the material to pile up at the container top.

An upper bearing and a lower bearing are arranged between the base body 5 and the stirring shaft 2, a spacer 51 for separating the upper bearing and the lower bearing is arranged between the upper bearing and the lower bearing, and the spacer 51 can effectively separate the outer side and the inner side of the closed cover body 4.

The single helical blade is axially projected from the starting position to the ending position, and the angle from the starting position to the ending position is 210-230 degrees;

the single helical blade is axially projected from the starting position to the ending position, and the angle from the starting position to the ending position is 220 degrees;

the clearance between the single helical blade 3 and the inner wall of the container 1 is more than 0mm and less than 2.5 mm.

The number of the stirring rods 22 is two, and the height of the material can be controlled between the two stirring rods 22 during stirring, so that a better stirring effect is achieved; the two stirring rods 22 are arranged opposite to the single helical blade 3 along the axial projection of the stirring shaft in the axial projection of the stirring shaft, a 90-degree included angle is formed between the two stirring rods 22 along the axial projection of the stirring shaft, namely, the angle b is 90 degrees, and a 50-degree included angle is formed between the stirring rods 22 at the lower position and the upper end termination position of the single helical blade 3 in the axial projection of the stirring shaft, namely, the angle c is 50 degrees.

And cutting edges are arranged on two sides of the connecting ribs 21 or/and the stirring rod 22 or one side facing the rotating direction, so that the stirring rod has a certain shearing effect on the stirred materials. The cutting edge can be used for cutting and breaking vermiculite and compost when rotating along with the stirring shaft 2. The connecting ribs 21 and the stirring rods 22 arranged above can downwards press and convey the ascending materials in the rotating process of the stirring shaft 2, so that the materials which ascend with the stirring of the helical blades are partially or completely and quickly returned to the lower part from the gap between the single helical blade 3 and the stirring shaft 2, and a stirring cycle is formed.

The utility model discloses its viscosity of vermiculite, compost material that the device can stir and humidity can reach more than 50%, can also stir the mixture of vermiculite and plastics, compost and plastics, can stir fluffy even, the material of the light material of weight, if the volume ratio control of plastic sheet and vermiculite is 6: 1, 10 x 10mm plastic flake and vermiculite mixture, viscosity and humidity can also reach more than 50%.

Claims (10)

1. The utility model provides a agitating unit based on different vermiculite, compost material, is including the container that is equipped with the tube-shape inner chamber, its characterized in that: the container is internally provided with a stirring shaft and a single helical blade arranged on the stirring shaft, the axial projection angle of the single helical blade from the starting position to the ending position is 200-240 degrees, a connecting rib is arranged between the single helical blade and the stirring shaft, the container is provided with a cover body, the cover body is provided with a base body for mounting the stirring shaft, and the stirring shaft is matched with the base body and penetrates through the base body; a gap is arranged between the single helical blade and the stirring shaft, and at least one stirring rod is arranged above the single helical blade on the stirring shaft.

2. A stirring device based on different vermiculite, compost materials as claimed in claim 1 wherein: the base body is hermetically arranged on the cover body, and the container is hermetically connected with the cover body.

3. A mixing apparatus based on different vermiculite, compost materials as claimed in claim 1, characterised in that: a fixed rod for connecting the cover body on the container is arranged between the cover body and the container, and a locking structure for locking the cover body on the container is arranged on the fixed rod; a sealing gasket is arranged between the cover body and the container.

4. A mixing apparatus based on different vermiculite, compost materials as claimed in claim 3, characterised in that: one end of the fixing rod is connected with the bottom of the container, and the other end of the fixing rod protrudes out of the cover body.

5. A mixing apparatus based on different vermiculite, compost materials as claimed in claim 1 or 2, characterised in that: the projection width of the single helical blade along the axial direction is smaller than the projection width of a gap between the single helical blade and the stirring shaft; the clearance between the single helical blade and the inner wall of the container is more than 0mm and less than 2.5 mm.

6. A mixing apparatus based on different vermiculite, compost materials as claimed in claim 1, characterised in that: the single helical blade is axially projected from the starting position to the ending position, and the angle from the starting position to the ending position is 210-230 degrees; a convex block which is convex upwards is arranged on a connecting rib which is used for connecting the lower end of the single helical blade and the stirring shaft.

7. A mixing apparatus based on different vermiculite, compost materials as claimed in claim 6, characterised in that: the angle of the single helical blade from the starting position to the ending position is 220 degrees; the lug is arranged close to the single helical blade.

8. A stirring device based on different vermiculite, compost materials as claimed in claim 1 wherein: the inner side of the bottom of the single helical blade is provided with a flange which protrudes upwards from the upper surface of the blade.

9. A mixing apparatus based on different vermiculite, compost materials as claimed in claim 1, characterised in that: two stirring rods are arranged; the two stirring rods are positioned at different heights on the stirring shaft, and the axial projections of the two stirring rods along the stirring shaft are arranged opposite to the axial projections of the single helical blade along the stirring shaft.

10. A mixing apparatus based on different vermiculite, compost materials as claimed in claim 1 or 9, characterised in that: and cutting edges are arranged on two sides of the connecting ribs or/and the stirring rod or one side facing to the rotating direction.

Images