CN210754050U - Automatically cleaning rotary mechanism that biological component extraction equipment was used - Google Patents

Abstract

The utility model discloses a automatically cleaning rotary mechanism that biological component extraction equipment was used, it includes: the rotary water sprayer comprises a rotary shaft, a rotary joint, a gearbox and a nozzle, wherein the rotary shaft is vertically arranged on the rotary joint, a core hole communicated with the rotary joint is concentrically arranged in the rotary shaft, one side of the rotary joint is connected with a water inlet pipe, the nozzle comprises a pipe body, a screw, a spring and a core column respectively, a first round hole communicated with the core hole is formed in the inner end of the pipe body, a second round hole concentrically connected with the first round hole is formed in the outer end of the pipe body, the core column, the spring and the screw are sequentially and axially arranged in the second round hole in an outward direction, and a water spraying hole pointing to the core column is formed in the. Biological component extraction equipment used automatically cleaning rotary mechanism, rotary joint and nozzle have been designed very much, utilize the elasticity of water pressure drive stem opposition spring, open the hole for water spraying, realize the inside cleanness of extraction equipment, easy and simple to handle, clear efficient.

Description

Automatically cleaning rotary mechanism that biological component extraction equipment was used

Technical Field

The utility model relates to a biological health products production technical field especially relates to a automatically cleaning rotary mechanism that biological component extraction equipment used.

Background

During the production process of the biological health care product, part of the biological health care product needs to be treated by liquid extractant to obtain two-component or multi-component solution which is not mutually soluble with the liquid extractant, so that most of beneficial biological components are extracted.

In the extraction equipment, the extraction of biological components can not be separated from the rotation of the rotary drum and the dispersion disc, so that the liquid is gradually separated from the lower part to the upper part in the rotary drum in the flowing process, and the extraction process is finished. After extraction, solids are deposited on the inner wall of the rotary drum, and the surface of the rotary mechanism is also deposited with solids and needs to be cleaned. The existing extraction equipment usually does not realize automatic cleaning, and the maintenance time is long, so that the improvement is needed.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a automatically cleaning rotary mechanism that biological component extraction equipment used.

To achieve the purpose, the utility model adopts the following technical proposal:

a self-cleaning rotary mechanism for a biological component extraction apparatus, comprising: the rotary joint is arranged at the top output end of the gearbox, the rotary shaft is vertically arranged on the rotary joint, a core hole communicated with the rotary joint is concentrically arranged in the rotary shaft, a water inlet pipe is connected to one side of the rotary joint, the nozzles are respectively arranged on the rotary shaft, the nozzles respectively comprise a pipe body, a screw, a spring and a core column, the pipe body is radially arranged on the rotary shaft, a first round hole communicated with the core hole is formed in the inner end of the pipe body, a second round hole concentrically connected with the first round hole is formed in the outer end of the pipe body, the core column, the spring and the screw are sequentially axially arranged in the second round hole outwards, a section of first external thread corresponding to the screw is arranged at the front end of the second round hole, and a water spray hole pointing to the core column is formed in the outer circle of the pipe body.

Wherein, the input of gearbox is provided with the motor and drives.

Wherein, be provided with the valve on the inlet tube.

Wherein, the rotating shaft is a hollow steel pipe.

Wherein, be provided with the dispersion impeller that is located the nozzle below in the pivot.

Wherein, the nozzle fractional row is distributed on the rotating shaft at intervals in the axial direction.

Wherein, the diameter of the first round hole is smaller than that of the second round hole to form a stepped hole.

Wherein, the water spray hole is communicated with the second round hole and forms a certain included angle.

The inner end of the outer circle of the tube body is provided with a second external thread, and the rotating shaft is provided with a threaded hole corresponding to the second external thread.

The utility model has the advantages that: the utility model provides a self-cleaning rotary mechanism that biological component extraction equipment was used, rotary joint and nozzle have been designed very much, the external running water of inlet tube or cleaning solution pump, after extraction work was accomplished, open the valve, make running water or cleaning solution get into the core hole, utilize the elasticity of water pressure drive stem opposition spring, make the spring compressed and adapt to moving outward of stem, thereby open the hole for water spraying, realize the inside cleanness of extraction equipment, and the rotation of pivot can be carried out to the clean in-process, promote clear efficiency.

Drawings

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

fig. 2 is a partially enlarged view of a portion a in fig. 1.

Detailed Description

The technical solution of the present invention is further explained by the specific embodiment with reference to fig. 1 to fig. 2.

A self-cleaning rotary mechanism for a biological component extraction apparatus as shown in figure 1, comprising: pivot 8, rotary joint 2, gearbox 1 and nozzle 7, rotary joint 2 sets up the top output at gearbox 1, the vertical setting of pivot 8 is on rotary joint 2, the input of gearbox 1 is provided with motor 3 and drives to realize the rotary drive of pivot 8 through rotary joint 2, motor 3 adopts the PLC controller to control, and is easy and simple to handle.

The rotary shaft 8 is concentrically provided with a core hole communicated with the rotary joint 2, the rotary shaft 8 is a hollow steel pipe and is firm in structure, the top of the rotary shaft is provided with a cover plate 9 for plugging the core hole, and the cover plate 9 is welded or bolted with the rotary shaft 8 and cannot fall off. And one side of the rotary joint 2 is connected with a water inlet pipe 4, and a valve 5 is arranged on the water inlet pipe 4, so that the control is flexible. The water inlet pipe 4 is externally connected with a tap water or cleaning solution pump, and after extraction is completed, the valve 5 is opened to enable the tap water or the cleaning solution to enter the core hole.

As shown in fig. 1, the nozzles 7 are respectively arranged on the rotating shaft 8, and the nozzles 7 are axially distributed on the rotating shaft 8 in 2 rows at intervals, so that the nozzles are relatively uniform. The rotating shaft 8 is provided with a dispersion disc 6 positioned below the nozzle 7, and the rotating drum and the dispersion disc 6 on the extraction equipment rotate, so that the liquid is gradually separated in the flowing process from bottom to top in the rotating drum.

As shown in fig. 2, the nozzle 7 includes a pipe body 18, a screw 16, a spring 15 and a stem 13, the pipe body 18 is radially disposed on the rotating shaft 8, a second external thread is disposed at an inner end of an outer circle of the pipe body 18, a threaded hole 10 corresponding to the second external thread is disposed on the rotating shaft 8, so that the pipe body 18 can be conveniently mounted, and the sealing ring 12 is used for sealing a connection position of the second external thread.

The inner end of the tube body 18 is provided with a first round hole 11 communicated with the core hole, the outer end of the tube body 18 is provided with a second round hole concentrically connected with the first round hole 11, and the diameter of the first round hole 11 is smaller than that of the second round hole 14 to form a stepped hole so as to limit the core column 13. Stem 13, spring 15 and screw 16 outwards set up in proper order in the axial in second round hole 14, second round hole front end is provided with one section and the first external screw thread that screw 16 corresponds, conveniently carries out the installation and the regulation of screw 16, carries out the precompression to spring 15, avoids stem 13 to slide outwards under the centrifugal force effect.

The outer circle of the pipe body 18 is provided with a water spraying hole 17 pointing to the core column 13, the outer diameter of the core column 13 corresponds to the second round hole 14, and the core column 13 is used for closing the water spraying hole 17 at ordinary times. After extraction work is accomplished, open valve 5, with the elasticity of hydraulic drive stem 13 opposition spring 15 for spring 15 is compressed and adapts to moving outward of stem 13, thereby opens hole for water spraying 17, realizes the inside cleanness of extraction equipment, can carry out the rotation of pivot 8 in addition clean process, promotes clear efficiency.

The water spraying holes 17 are communicated with the second round holes 14 and form a certain included angle, and the two adjacent water spraying holes 17 are distributed in a mirror image mode, so that the water spraying holes 17 point to two sides obliquely, more surfaces to be cleaned are taken care of in the water spraying process, and the cleaning efficiency is improved.

The above description is only for the preferred embodiment of the present invention, and for those skilled in the art, there are variations on the detailed description and the application scope according to the idea of the present invention, and the content of the description should not be construed as a limitation to the present invention.

Claims (9)

1. A self-cleaning rotary mechanism for a biological component extraction apparatus, comprising: the rotary joint is arranged at the top output end of the gearbox, the rotary shaft is vertically arranged on the rotary joint, a core hole communicated with the rotary joint is concentrically arranged in the rotary shaft, a water inlet pipe is connected to one side of the rotary joint, the nozzles are respectively arranged on the rotary shaft, the nozzles respectively comprise a pipe body, a screw, a spring and a core column, the pipe body is radially arranged on the rotary shaft, a first round hole communicated with the core hole is formed in the inner end of the pipe body, a second round hole concentrically connected with the first round hole is formed in the outer end of the pipe body, the core column, the spring and the screw are sequentially axially arranged in the second round hole outwards, a section of first external thread corresponding to the screw is arranged at the front end of the second round hole, and a water spray hole pointing to the core column is formed in the outer circle of the pipe body.

2. A self-cleaning rotary mechanism for a biological component extraction apparatus according to claim 1 wherein the input to the gearbox is provided with a motor for driving.

3. A self-cleaning rotary mechanism for a biological component extraction apparatus according to claim 1 wherein the inlet conduit is provided with a valve.

4. A self-cleaning rotary mechanism for a biological component extraction apparatus as claimed in claim 1 wherein the shaft is a hollow steel tube.

5. A self-cleaning rotary mechanism for a biological component extraction apparatus according to claim 1 wherein the shaft is provided with a dispersion disc located below the nozzles.

6. A self-cleaning rotary mechanism for a biological component extraction apparatus as claimed in claim 1 wherein the fractional rows of nozzles are axially spaced on the shaft.

7. A self-cleaning rotary mechanism for a biological component extraction apparatus according to claim 1 wherein the first circular aperture is smaller in diameter than the second circular aperture to form a stepped aperture.

8. A self-cleaning rotary mechanism for a biological component extraction apparatus as claimed in claim 1 wherein the water spray holes are in communication with the second circular hole at an angle.

9. A self-cleaning rotary mechanism for a biological component extraction apparatus as claimed in claim 1, wherein the outer circumference of the tube body is provided with a second external thread, and the shaft is provided with a threaded hole corresponding to the second external thread.

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