CN213357601U - High-efficient enzymolysis tank - Google Patents

Abstract

The utility model relates to a high-efficient enzymolysis tank, the technical field of enzymolysis tank has solved the insufficient technical problem of material mixing in the enzymolysis tank, belongs to it including a jar body, jar body top is equipped with the inlet pipe, jar body below is equipped with the discharging pipe, the internal rabbling mechanism that is equipped with of jar, rabbling mechanism rotates the rolling disc of being connected including the upper end with jar internal portion, the inlet pipe lower extreme passes the centre of a circle of rolling disc and rotates with the rolling disc to be connected, the rolling disc top is equipped with drive rolling disc pivoted runner assembly, the rolling disc below is equipped with along with the stirring subassembly of rolling disc revolution. The utility model discloses have and stir most materials of jar internal for the material mixing is even, improves the stirring quality, from the effect that improves enzymolysis efficiency.

Description

High-efficient enzymolysis tank

Technical Field

The utility model belongs to the technical field of the technique of enzymolysis tank and specifically relates to a high-efficient enzymolysis tank is related to.

Background

The enzymolysis tank is also called an enzymolysis reactor and a biological enzymolysis reactor, and is a stainless steel container which provides the temperature required by the technological enzymolysis, adjusts the pH value, provides stirring and mixing and the like to keep the enzyme activated, play the enzyme action, accelerate the improvement and complete the biological reaction process.

The traditional Chinese patent with publication number CN207002737U authorizes an enzymolysis tank, a stirring device is arranged at the position of a central shaft in a tank body, an air blowing device is arranged, one end of an air blowing pipe is communicated with a discharge hole at the bottom of the tank body, the other end of the air blowing pipe is communicated with an air storage tank, and an air blowing valve is arranged on the air blowing pipe close to the discharge hole; in the auxiliary discharging device, an opening above a discharging pipe is communicated with a discharging port, a discharging port is arranged below the discharging pipe, a discharging shaft is arranged at the position of a central shaft of the discharging pipe, a discharging motor is rotatably connected with the discharging shaft, and spiral discharging blades are fixed on the discharging shaft. The material after being stirred by agitating unit is discharged from the discharge gate, and the gas holder blows material quick travel through the air-blowing pipe, and the material is driven by spiral blade in arranging the material pipe to arrange the material fast.

The above prior art solutions have the following drawbacks: when the material is stirred in the jar body, a slice region at the main agitating unit place of agitating unit, when there is great viscidity in the material, the material of keeping away from agitating unit at jar internal probably can not stirred, and stirring quality is not high to lead to enzymolysis efficiency not high, the effect is not good.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art exists, the utility model provides a high-efficient enzymolysis tank, its purpose stirs most materials to the internal of jar for material mixing is even, improves stirring quality, from improving enzymolysis efficiency and effect.

The above utility model discloses an above-mentioned utility model purpose can realize through following technical scheme:

the utility model provides a high-efficient enzymolysis tank, includes a jar body, jar body top is equipped with the inlet pipe, jar body below is equipped with the discharging pipe, jar internal rabbling mechanism that is equipped with, the rabbling mechanism is including rotating the rolling disc of being connected with jar internal portion upper end rotation, the inlet pipe lower extreme passes the centre of a circle of rolling disc and rotates with the rolling disc to be connected, the rolling disc top is equipped with drive rolling disc pivoted runner assembly, the rolling disc below is equipped with along with the stirring subassembly of rolling disc revolution.

Through adopting above-mentioned technical scheme, the material gets into jar body back from the inlet pipe, and the runner assembly rotates the rolling disc, and the rolling disc drives stirring assembly and does the revolution, and stirring assembly stirs the internal material of whole jar when the rolling disc pivoted, compares in the unchangeable agitating unit in traditional stirring region, and this scheme can stir the material in more region for material stirring's more even quick, improves enzymolysis efficiency and quality.

The present invention may be further configured in a preferred embodiment as: the rotating assembly comprises a first internal gear which is arranged above the rotating disc and is concentric with the rotating disc, a first external gear is meshed in the first internal gear, and a driving motor arranged at the upper end of the tank body is arranged above the first external gear.

Through adopting above-mentioned technical scheme, driving motor rotates for first external gear rotates simultaneously, and first external gear drives first internal gear and rotates, thereby drives the rolling disc and rotates, through this kind of rotation mode, makes the inlet pipe can add the material in jar body, and can not cause the influence to stirring assembly's rotation.

The present invention may be further configured in a preferred embodiment as: the stirring assembly comprises a plurality of vertical rotating shafts, all the rotating shafts are uniformly distributed on the same circumference, far away from the circle center of the rotating disc, below the rotating disc, and the rotating shafts are rotatably connected with the rotating disc.

Through adopting above-mentioned technical scheme, when the rolling disc rotated, the rolling disc drove the axis of rotation and revoluted the centre of a circle rotation of rolling disc, and the axis rotation of axis also round the jar body when the axis was rotatory to consequently stirring the internal material of whole jar, make the axis of rotation can contact more materials.

The present invention may be further configured in a preferred embodiment as: the rotating shaft is provided with a second external gear at the upper end, a second internal gear is arranged in the tank body, and the second internal gear is meshed with all the second external gears.

Through adopting above-mentioned technical scheme, when the axis of rotation revoluted the centre of a circle revolution of rotating disc, the meshing was rotated on the second internal gear simultaneously outside the second, and the axis of rotation is driven to the second external gear from this, and the axis of rotation carries out further stirring to the region at axis of rotation self place, improves the efficiency of stirring.

The present invention may be further configured in a preferred embodiment as: and a plurality of stirring paddles are arranged on the rotating shaft.

Through adopting above-mentioned technical scheme, the area of contact of stirring subassembly and material has been enlarged to the stirring rake, improves the stirring efficiency when the axis of rotation rotates.

The present invention may be further configured in a preferred embodiment as: the stirring paddles are arranged obliquely upwards, and all the stirring paddles are distributed on the rotating shaft along the spiral line direction.

Through adopting above-mentioned technical scheme, in the rotation axis rotation, drive the stirring rake and revolute the rotation axis and rotate, revolute the rotation axis rotation at the stirring rake, the stirring rake upwards to one side and along the helix distribute in the epaxial setting of rotation can with jar material promotion of body bottom come and stir to it for the stirring of material is more even and efficiency is higher.

The present invention may be further configured in a preferred embodiment as: the jar body is including outer jar of body and the inner tank body, be equipped with the cavity before outer jar of body and the inner tank body, outer jar of body one side is equipped with the intake pipe in the outer jar of body outside of intercommunication and cavity, outer jar of body opposite side is equipped with the outlet duct in the outer jar of body outside of intercommunication and cavity.

Through adopting above-mentioned technical scheme, from the gas of intake pipe to the cavity in injection suitable temperature to carry out thermostatic control to the material of the internal enzymolysis reaction of inner tank, avoid the enzymolysis reaction to influence the enzymolysis efficiency because of the temperature is improper.

The present invention may be further configured in a preferred embodiment as: and the outer tank body and one side facing the inner tank body are provided with heat insulation layers.

Through adopting above-mentioned technical scheme, the insulating layer reduces the heat exchange of the inner tank body and external world, and the change of the internal temperature of the inner tank of minimize improves enzymolysis reaction's stability.

To sum up, the utility model discloses a following at least one useful technological effect:

1. the stirring assembly revolves to stir most of the materials in the tank body, so that the materials are uniformly stirred, the stirring quality is improved, and the enzymolysis efficiency and effect are improved;

2. the stirring assembly can further stir materials by autorotation, and meanwhile, the materials at the bottom of the tank body are lifted up for stirring, so that the stirring quality is improved;

3. the heat insulating layer reduces the heat exchange between the inner tank body and the outside, and improves the stability of the enzymolysis reaction.

4. Thereby the gas that lets in the cavity carries out the heat exchange with the inner tank body and controls the invariant of the internal temperature of inner tank for the efficiency of enzymolysis keeps high-efficient.

Drawings

FIG. 1 is a schematic structural view of the outside of the embodiment.

FIG. 2 is a schematic structural view of the inside of the embodiment.

Fig. 3 is a schematic structural view of the stirring mechanism.

In the figure, 1, a tank body; 11. an outer tank body; 111. a feed pipe; 112. a discharge pipe; 113. an air inlet pipe; 114. an air outlet pipe; 12. an inner tank body; 121. a bump; 2. a stirring mechanism; 21. rotating the disc; 211. a groove; 22. a rotating assembly; 221. a first internal gear; 222. a first external gear; 223. a base; 224. a drive motor; 23. a stirring assembly; 231. a rotating shaft; 232. a second external gear; 233. a second internal gear; 234. a stirring paddle; 3. an insulating layer.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1 and 2, for the utility model discloses a high-efficient enzymolysis tank, including jar body 1, jar body 1 includes outer jar of body 11 and inner tank 12, is equipped with the cavity before outer jar of body 11 and the inner tank 12, and outer jar of body 11 and one side towards inner tank 12 are equipped with insulating layer 3. An air inlet pipe 113 which is communicated with the outer side of the outer tank body 11 and the cavity is fixed on one side of the outer tank body 11, and an air outlet pipe 114 which is communicated with the outer side of the outer tank body 11 and the cavity is arranged on the other side of the outer tank body 11.

The heat insulating layer 3 reduces heat exchange between the inner tank 12 and the outside, and reduces temperature change in the inner tank 12 as much as possible. When the temperature in the inner tank body 12 changes, gas with proper temperature is sprayed into the cavity from the gas inlet pipe 113, so that the inner tank body 12 exchanges heat with the gas entering the cavity, the gas which is used for performing overheating exchange on the inner tank body 12 is discharged from the gas outlet pipe 114, the material of the enzymolysis reaction in the inner tank body 12 is subjected to constant temperature control, and the enzymolysis reaction is prevented from influencing the enzymolysis efficiency due to improper temperature.

Referring to fig. 2 and 3, a feeding pipe 111 coaxial with the outer tank 11 is fixed above the outer tank 11, and the lower end of the feeding pipe 111 penetrates into the inner tank 12. A discharge pipe 112 is fixed below the tank body 1, and the discharge pipe 112 penetrates through the inner tank body 12 to the lower part of the outer tank body 11. The tank body 1 is internally provided with a stirring mechanism 2, and the stirring mechanism 2 comprises a rotating disc 21 which is rotatably connected with the upper end inside the inner tank body 12. A circle of convex blocks 121 with the circle center on the axis of the inner tank body 12 are fixed on the inner tank body 12, and a groove 211 for inserting the convex blocks 121 is arranged on the rotating disc 21.

The lower end of the feeding pipe 111 passes through the center of the rotating disc 21 and is rotatably connected with the rotating disc 21, a rotating assembly 22 for driving the rotating disc 21 to rotate is arranged above the rotating disc 21, and a stirring assembly 23 revolving along with the rotating disc 21 is arranged below the rotating disc 21.

After the materials enter the tank body 1 from the feeding pipe 111, the rotating assembly 22 rotates the rotating disc 21, the rotating disc 21 drives the stirring assembly 23 to revolve, and the stirring assembly 23 rotates along with the rotating disc 21 and simultaneously stirs the materials in the whole tank body 1.

The rotating unit 22 includes a first internal gear 221 fixed above the edge of the rotating disk 21 and concentric with the rotating disk 21, a first external gear 222 is internally meshed with the first internal gear 221, and a driving motor 224 is fixed above the first external gear 222. A base 223 is fixed above the outer tank 11, a driving motor 224 which is vertically downward is fixed above the base 223, and an output shaft of the driving motor 224 passes through the tank 1 and is fixed on the center of the first external gear 222.

The driving motor 224 rotates, so that the first external gear 222 rotates simultaneously, the first external gear 222 drives the first internal gear 221 to rotate, so as to drive the rotating disc 21 to rotate, the rotating disc 21 drives the stirring assembly 23 to rotate, and the rotation mode enables the feeding pipe 111 to feed materials into the tank 1 from above the outer tank 11 without affecting the rotation of the rotating disc 21.

The stirring assembly 23 includes a plurality of (two rotating shafts 231 in this embodiment) vertical rotating shafts 231, the two rotating shafts 231 are uniformly distributed on the same circumference below the rotating disc 21 away from the center of the rotating disc 21, and the rotating shafts 231 are rotatably connected with the rotating disc 21. The rotating shaft 231 is provided with a plurality of stirring paddles, the stirring paddles are arranged obliquely upwards, and all the stirring paddles are distributed on the rotating shaft 231 along the spiral line direction. The second external gear 232 is fixed to the upper end of the rotational shaft 231, the second internal gear 233 is fixed to the inside of the can body 1, and the second internal gear 233 is engaged with all the second external gears 232.

When the rotating disc 21 rotates, the rotating disc 21 drives the rotating shaft 231 to rotate around the center of the rotating disc 21, and the rotating shaft 231 rotates around the axis of the can body 1. At this time, the second external gear 232 is engaged with the second internal gear 233 to rotate, so that the second external gear 232 rotates the rotation shaft 231. The paddles 234 enlarge the contact area of the stirring assembly 23 with the material so that the rotating shaft 231 can contact more material.

Therefore, the rotation shaft 231 revolves to stir the material in the entire can body 1, and the rotation shaft 231 rotates to further stir the region where the rotation shaft 231 is located. When axis of rotation 231 rotation, drive stirring rake 234 and revolve axis of rotation 231 and rotate, when stirring rake 234 revolved axis of rotation 231 and rotated, stirring rake 234 slant upwards and along the helix distribute the setting up in axis of rotation 231 can with the material promotion of jar body 1 bottom come and stir it for the stirring of material is more even and efficiency is higher.

The implementation principle of the embodiment is as follows: the material enters the inner tank 12 from the feeding pipe 111, the driving motor 224 rotates the rotating disc 21, the rotating disc 21 makes the rotating shaft 231 revolve, the second external gear 232 on the rotating shaft 231 is meshed with and rotates on the second internal gear 233, so that the rotating shaft 231 rotates, the rotating shaft 231 revolves to stir the material in the whole tank 1, and the rotating shaft 231 rotates to further stir the area where the rotating shaft 231 is located and the bottom of the inner tank 12 through the stirring paddle 234.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (8)

1. The utility model provides a high-efficient enzymolysis tank, includes a jar body (1), jar body (1) top is equipped with inlet pipe (111), jar body (1) below is equipped with discharging pipe (112), its characterized in that: the utility model discloses a stirring device, including jar body (1), be equipped with rabbling mechanism (2) in jar body (1), rabbling mechanism (2) including with jar body (1) inside upper end rotation be connected rolling disc (21), the centre of a circle that inlet pipe (111) lower extreme passed rolling disc (21) and rotate with rolling disc (21) and be connected, rolling disc (21) top is equipped with drive rolling disc (21) pivoted rotating assembly (22), rolling disc (21) below is equipped with stirring subassembly (23) along with rolling disc (21) revolution.

2. The high-efficiency enzymolysis tank of claim 1, which is characterized in that: the rotating assembly (22) comprises a first internal gear (221) which is arranged above the rotating disc (21) and is concentric with the rotating disc (21), a first external gear (222) is meshed inside the first internal gear (221), and a driving motor (224) arranged at the upper end of the tank body (1) is arranged above the first external gear (222).

3. The high-efficiency enzymolysis tank of claim 2 is characterized in that: the stirring assembly (23) comprises a plurality of vertical rotating shafts (231), all the rotating shafts (231) are uniformly distributed on the same circumference, far away from the circle center of the rotating disc (21), below the rotating disc (21), and the rotating shafts (231) are rotatably connected with the rotating disc (21).

4. The high-efficiency enzymolysis tank of claim 3, which is characterized in that: the rotating shaft (231) is provided with a second external gear (232) at the upper end, a second internal gear (233) is arranged in the tank body (1), and the second internal gear (233) is meshed with all the second external gears (232).

5. The high-efficiency enzymolysis tank of claim 4 is characterized in that: a plurality of stirring paddles are arranged on the rotating shaft (231).

6. The high-efficiency enzymolysis tank of claim 5, is characterized in that: the stirring paddles are arranged obliquely upwards, and all the stirring paddles are distributed on the rotating shaft (231) along the spiral line direction.

7. The high-efficiency enzymolysis tank of claim 1, which is characterized in that: the jar body (1) is including outer jar of body (11) and inner tank body (12), be equipped with the cavity before outer jar of body (11) and inner tank body (12), outer jar of body (11) one side is equipped with intake pipe (113) in the outer jar of body (11) outside of intercommunication and cavity, outer jar of body (11) opposite side is equipped with the outlet duct (114) in the outer jar of body (11) outside of intercommunication and cavity.

8. The high-efficiency enzymolysis tank of claim 7, is characterized in that: the outer tank body (11) and one side facing the inner tank body (12) are provided with a heat insulation layer (3).

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