CN117160591A - Probiotics powder and apparatus for producing thereof - Google Patents

Abstract

The utility model discloses probiotic powder and a production device thereof, which belong to the technical field of probiotic production equipment, and comprise an outer storage barrel body and an inner processing barrel body arranged in the outer storage barrel body, wherein an annular gap between the outer storage barrel body and the inner processing barrel body is a storage interlayer; the utility model utilizes the vibration force of hammering and the wind power generated by air extrusion to efficiently separate and collect the powdery probiotics, so that the rest blocky probiotics and granular probiotics can be efficiently impacted into powder, and the production efficiency is further improved; according to the utility model, the sedimentation assembly is utilized to quickly sediment the powdery finished probiotics, so that the floating time of the powdery probiotics is effectively shortened, the finished products can be discharged in time after the device is produced for one round, and the waiting time is shortened.

Description

Probiotics powder and apparatus for producing thereof

Technical Field

The utility model relates to the technical field of probiotics production equipment, in particular to probiotics powder and a production device thereof.

Background

The probiotic production steps comprise: collecting culture, preparing inoculum, fermenting, concentrating by centrifugation, freeze drying, and pulverizing; mixing the probiotic powder and auxiliary materials into a required product according to production requirements after grinding; in the process of grinding the freeze-dried massive probiotics, the grinding mode is adopted in the prior art;

patent publication number CN 114289098A: the utility model provides a probiotic powder grinds sieving mechanism, discloses to adopt the mode of multistage grinding to grind out the probiotic powder, but this scheme structure, process are complicated, and equipment occupation space is big, and production efficiency is low; patent publication number CN 217093762U: the utility model provides a probiotic reducing mechanism, discloses the collection is smashed and is sieved the function, if smash the effect not good, conveniently pour the probiotic that fails on the screen cloth back into the feeder hopper and smash many times technical scheme, this scheme structure is complicated, and the probiotic that fails returns the feeder hopper again and smashes the technology complicacy, leads to smash inefficiency; in the process of grinding the freeze-dried blocky probiotics, the prior art adopts a grinding mode to carry out powder production, and the production efficiency is low.

Disclosure of Invention

The utility model aims to provide probiotic powder and a production device thereof, which are used for solving the problem of low production efficiency of the probiotic powder in the prior art.

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

the production device comprises an outer storage barrel body and an inner processing barrel body arranged in the outer storage barrel body, an annular gap between the outer storage barrel body and the inner processing barrel body is a storage interlayer, a communicating groove is formed in the side wall of the inner processing barrel body, openings at two ends of the communicating groove are respectively communicated with the inner space of the inner processing barrel body and the storage interlayer, a sealing cover plate is fixedly arranged at the top end of the outer storage barrel body, a material pipe is fixedly arranged at the bottom end of the side wall of the outer storage barrel body, openings at two ends of the material pipe are respectively communicated with the storage interlayer and the outside, and a valve is arranged in the middle of the material pipe;

the height of the opening of the communication groove, which is close to one end of the inner processing barrel body, is lower than the bottom surface height of the hammering block when the hammering block is lifted to the top end;

the center of the upper surface of the bottom plate of the inner processing barrel body is fixedly provided with a guide column, hammering blocks are vertically and slidably arranged in a circumferential array in a gap between the guide column and the inner side wall of the inner processing barrel body, the upper surface of each hammering block is in transmission connection with a transmission assembly, and the transmission assembly drives the hammering blocks to slide up and down, so that probiotics in the inner processing barrel body can be hammered into pieces, and the probiotics can be repeatedly hammered into powder products;

the upper wall of the communication groove is fixedly provided with a one-way plugging piece capable of plugging the communication groove, the one-way plugging piece is an arc-shaped one-way plugging piece, and the one-way plugging piece is bent towards the direction of the interlayer of the reservoir; when the communication groove receives airflow from the direction inside the inner processing barrel body, the bottom end of the unidirectional plugging sheet is upwards purged and bent, and probiotics inside the inner processing barrel body can enter the storage interlayer; when the communication groove receives airflow from the direction of the reservoir interlayer, the bottom end of the unidirectional blocking piece cannot be blown and bent, and probiotics from the reservoir interlayer cannot flow back into the processing barrel body;

an air inlet pipe is arranged on the side wall of the inner processing barrel body, two ends of the air inlet pipe are respectively communicated with the inner space of the inner processing barrel body and the interlayer of the storage tank, and the installation height of the air inlet pipe, which is close to one end of the inner processing barrel body, is lower than the bottom surface height of the hammering block when the hammering block is lifted to the top end;

the one-way valve is arranged in the middle of the air inlet pipe, so that air in the air inlet pipe can only flow in the direction of the inner part of the inner processing barrel body.

The height of the opening of the communicating groove close to one end of the interlayer of the storage tank is higher than that of the communicating groove close to one end of the opening of the inner processing barrel body, so that probiotics accumulated on the sedimentation assembly are not easy to be blown away by gas sprayed out of the communicating groove, and the sedimentation efficiency of the probiotics is improved.

The high-strength spring is fixedly mounted on the bottom plate of the outer storage barrel body, the top end of the high-strength spring is fixedly connected with the bottom plate of the inner processing barrel body, the impact force of the guide block can be buffered through the arrangement of the high-strength spring, the running noise of the device can be reduced, the acting force of the device to an external installation frame can be reduced, and the device is stable to run.

The transmission assembly comprises a motor arranged at the top end of the inner side wall of the outer storage barrel body, a crank connecting rod mechanism is connected to the transmission of a motor transmission shaft, a driving column is connected to the power output end of the crank connecting rod mechanism in a rotating mode, one end of the driving column, far away from the crank connecting rod mechanism, is fixedly connected with the upper surface of the hammering block, a guide block is fixedly arranged on the inner side wall of the outer storage barrel body, a guide groove is vertically formed in the guide block in a penetrating mode, the driving column penetrates through the guide groove, the guide groove limits the movement direction of the driving column, the driving column can only do vertical reciprocating movement, and the driving column can drive the hammering block to continuously hammer probiotics below the hammering block under the driving of the motor and the crank connecting rod mechanism.

The air inlet pipe is located at one end of the inner portion of the storage interlayer and is higher than the top end of the inner processing barrel body, so that the inner processing barrel body can suck air without probiotics, the probiotics are prevented from flowing back into the inner processing barrel body, and the efficiency of smashing the probiotics by the device is improved.

Still include sedimentation assembly, sedimentation assembly includes the mounting panel, holds back the close otter board, reservoir intermediate layer internally mounted has the mounting panel, mounting panel both sides fixed mounting has a plurality of to hold back close otter board, install vibrating motor on the mounting panel.

The lateral fixed mounting of outer reservoir staving lateral wall has the mount, the mounting panel bottom is kept away from outer reservoir staving one end with the mount and is connected fixedly, avoids subsideing subassembly and interior processing staving contact, and then is influenced the settlement efficiency of probiotics by the vibration of interior processing staving.

The entrapping net plate is obliquely installed, and the height of one side of the entrapping net plate close to the mounting plate is higher than that of one side of the entrapping net plate far away from the mounting plate, so that accumulated probiotics can be efficiently shaken off when being vibrated.

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

the utility model adopts a large-area hammering mode, so that probiotics are efficiently pulverized, and the production efficiency is higher compared with the production mode of grinding into powder in the prior art;

the utility model utilizes the vibration force of hammering and the wind power generated by air extrusion to efficiently separate and collect the powdery probiotics, so that the rest blocky probiotics and granular probiotics can be efficiently impacted into powder, and the production efficiency is further improved;

according to the utility model, the sedimentation assembly is utilized to quickly sediment the powdery finished probiotics, so that the floating time of the powdery probiotics is effectively shortened, the finished products can be discharged in time after the device is produced for one round, and the waiting time is shortened;

the device has compact structure, small occupied area and wide environment application range.

Drawings

FIG. 1 is a schematic diagram of the whole structure of a probiotic powder production device of the utility model;

FIG. 2 is a schematic view of the structure of the probiotic powder production device in the state that the sealing cover plate is opened;

FIG. 3 is a schematic sectional view of a probiotic powder production device according to the present utility model;

FIG. 4 is a schematic diagram showing the detailed sectional structure of the probiotic powder production device of the present utility model;

FIG. 5 is a left side view of the probiotic powder production device of the present utility model;

FIG. 6 is a schematic view of the cross-sectional structure of the probiotic powder production device of FIG. 5 at the area A;

FIG. 7 is a schematic diagram of an exploded construction of the probiotic powder production device of the present utility model;

fig. 8 is an enlarged schematic view of the structure of the probiotic powder production device in the area B in fig. 6.

Reference numerals in the drawings: probiotics (100), probiotics; 101. an outer reservoir tub; 102. processing a barrel body internally; 103. a reservoir interlayer; 104. a communication groove; 105. sealing the cover plate; 106. a material pipe; 201. a high strength spring; 301. a guide post; 302. hammering the block; 303. a motor; 304. a crank-link mechanism; 305. a guide block; 306. a guide groove; 307. a drive column; 401. a unidirectional plugging sheet; 402. an air inlet pipe; 501. a mounting plate; 502. a dense mesh plate is trapped; 503. and a fixing frame.

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.

Examples: as shown in fig. 1-8, the probiotic powder and a production device thereof comprise the probiotic powder capable of improving the immunity of a human body and the production device for producing the probiotic powder, wherein the production device comprises an outer reservoir barrel body and an inner processing barrel body 102 arranged in the outer reservoir barrel body, an annular gap between the outer reservoir barrel body and the inner processing barrel body 102 is a reservoir interlayer 103, a communication groove 104 is formed in the side wall of the inner processing barrel body 102, openings at two ends of the communication groove 104 are respectively communicated with the inner space of the inner processing barrel body 102 and the reservoir interlayer 103, a sealing cover plate 105 is fixedly arranged at the top end of the outer reservoir barrel body, a material pipe 106 is fixedly arranged at the bottom end of the side wall of the outer reservoir barrel body, openings at two ends of the material pipe 106 are respectively communicated with the reservoir interlayer 103 and the outside, and a valve is arranged in the middle of the material pipe 106;

the height of the opening of the communication groove 104, which is close to one end of the inner part of the inner processing barrel 102, is lower than the height of the bottom surface of the hammering block 302 when the hammering block 302 is lifted to the top end;

a guide column 301 is fixedly arranged in the center of the upper surface of the bottom plate of the inner processing barrel 102, hammering blocks 302 are vertically and slidably arranged in a circumferential array in a gap between the guide column 301 and the inner side wall of the inner processing barrel 102, a transmission assembly is connected to the upper surface of the hammering blocks 302 in a transmission manner, the driving assembly drives the hammering blocks 302 to slide up and down, and probiotics 100 in the inner processing barrel 102 can be hammered into pieces and repeatedly hammered to enable the probiotics 100 to become powdery finished products;

the upper wall of the communication groove 104 is fixedly provided with a one-way blocking piece 401 capable of blocking the communication groove 104, the one-way blocking piece 401 is an arc-shaped one-way blocking piece 401, and the one-way blocking piece 401 is bent towards the direction of the reservoir interlayer 103; when the communication groove 104 receives airflow from the direction inside the inner processing barrel 102, the bottom end of the unidirectional plugging piece 401 is upwards purged and bent, and probiotics 100 inside the inner processing barrel 102 can enter the reservoir interlayer 103; when the communication groove 104 receives airflow from the direction of the reservoir interlayer 103, the bottom end of the unidirectional blocking piece 401 cannot be blown and bent, and the probiotics 100 from the reservoir interlayer 103 cannot flow back into the processing barrel 102;

an air inlet pipe 402 is arranged on the side wall of the inner processing barrel body 102, two ends of the air inlet pipe 402 are respectively communicated with the inner space of the inner processing barrel body 102 and the reservoir interlayer 103, and the installation height of the air inlet pipe 402 close to one end of the inner processing barrel body 102 is lower than the bottom surface height of the hammering block 302 when the hammering block 302 is lifted to the top end;

the middle part of the air inlet pipe 402 is provided with a one-way valve, so that the air in the air inlet pipe 402 can only flow in the inner direction of the inner processing barrel 102.

The height of the opening of the communicating groove 104 near the end of the reservoir interlayer 103 is higher than that of the communicating groove 104 near the end of the inner processing barrel 102, so that the probiotics 100 accumulated on the sedimentation assembly are not easy to be blown away by the gas sprayed out of the communicating groove 104, and the sedimentation efficiency of the probiotics 100 is improved.

The high-strength spring 201 is fixedly installed on the bottom plate of the outer storage barrel body, the top end of the high-strength spring 201 is fixedly connected with the bottom plate of the inner processing barrel body 102, the impact force of the guide block 305 can be buffered through the arrangement of the high-strength spring 201, the running noise of the device can be reduced, the acting force of the device to an external installation frame can be reduced, and the device is enabled to run stably.

The transmission assembly comprises a motor 303 arranged at the top end of the inner side wall of the outer reservoir barrel body, a crank link mechanism 304 is connected to the transmission shaft of the motor 303, a driving column 307 is connected to the power output end of the crank link mechanism 304 in a rotating mode, one end, away from the crank link mechanism 304, of the driving column 307 is fixedly connected with the upper surface of the hammering block 302, a guide block 305 is fixedly arranged on the inner side wall of the outer reservoir barrel body, a guide groove 306 is vertically arranged on the guide block 305 in a penetrating mode, the driving column 307 penetrates the guide groove 306, the guide groove 306 limits the movement direction of the driving column 307, the driving column 307 can only vertically reciprocate, and the driving column 307 can drive the hammering block 302 to continuously hammer the probiotics 100 below the hammering block 302 under the driving of the motor 303 and the crank link mechanism 304.

The air inlet pipe 402 is located inside the reservoir interlayer 103 and has a height higher than the top of the inner processing barrel 102, so that the inner processing barrel 102 can suck air without the probiotics 100, the probiotics 100 are prevented from flowing back into the inner processing barrel 102, and the efficiency of crushing the probiotics 100 by the device is improved.

Still include subside the subassembly, subside the subassembly and include mounting panel 501, entrap close otter board 502, reservoir intermediate layer 103 internally mounted has mounting panel 501, and mounting panel 501 both sides fixed mounting have a plurality of entrap close otter board 502, installs vibrating motor on the mounting panel 501.

The lateral fixed mounting of outer reservoir staving inner wall has mount 503, and mounting panel 501 bottom and mount 503 keep away from outer reservoir staving one end and connect fixedly, avoid subside subassembly and interior processing staving 102 contact, and then by the vibration of interior processing staving 102 influence the sedimentation efficiency of probiotics 100.

The entrapping net plate 502 is a entrapping net plate 502 which is obliquely arranged, and the height of one side of the entrapping net plate 502 close to the mounting plate 501 is higher than the height of one side of the entrapping net plate 502 far away from the mounting plate 501, so that the accumulated probiotics 100 can be efficiently shaken off when being vibrated.

The gauze is fixed on the surface of the entrapping dense net plate 502, so that the entrapping efficiency of the probiotics powder can be improved.

Working principle:

the freeze-dried blocky probiotics 100 are filled into the inner processing barrel 102 through the material pipe 106, the valve is closed, the inner processing barrel 102 is isolated from the outside, the motor 303 is externally connected with a controller, and a program is written in the controller: all motors 303 sequentially run, the last motor 303 drives the hammering block 302 to descend and then lift, after one hammering movement is completed, the next motor 303 starts to run to hammer the probiotics 100, and all the hammering blocks 302 sequentially hammer the underlying blocky probiotics 100; along with hammering, blocky probiotics 100, granular probiotics 100 and powdery probiotics 100 exist in the inner processing barrel 102 at the same time, the previous hammering block 302 hammers the blocky probiotics 100 into powdery probiotics, when the next hammering block 302 hammers downwards, vibration force and wind force of the hammering block 302 hammering downwards can lift the powdery probiotics 100, in each hammering process of the device, the single hammering block 302 moves independently, so that space air pressure above the hammering block 302 is reduced, space air pressure below the hammering block 302 is increased, air pressure of a reservoir interlayer 103 communicated with the space above the hammering block 302 is reduced, pressure difference at two ends of a communicating groove 104 is increased, air flow flowing from the inner processing barrel 102 to the reservoir interlayer 103 is generated, and the powdery probiotics 100 enter the reservoir interlayer 103 along with the air flow; the surface of the storage interlayer 103 is trapped and piled up to the surface of the trapping dense net plate 502, a vibrating motor is started every 3 minutes to shake off the piled probiotics 100 downwards, and the sedimentation component traps and piles up the powdery probiotics 100, so that the powdery probiotics 100 in the storage interlayer 103 are difficult to continuously float, the quick collection and piling of the powdery probiotics 100 are realized, the sedimentation time of the finished probiotics 100 is reduced, and the production efficiency is improved; the sedimentation assembly can also prevent a large amount of powdery probiotics 100 from floating upwards, so that the powdery probiotics 100 are prevented from flowing back into the inner processing barrel 102 through the air inlet pipe 402, and the production efficiency can be improved; the device continues to operate until all probiotics 100 in the inner processing barrel 102 are hammered into powder, then enter the reservoir interlayer 103 to be collected, the device is shut down, a valve is opened, the powdery probiotics 100 are discharged, and the blocky probiotics 100 are added for the next round of production.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present utility model may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (8)

1. The utility model provides a probiotic powder and apparatus for producing thereof, includes the probiotic powder that can improve human immunity to and the apparatus for producing of production probiotic powder, its characterized in that: the production device comprises an outer reservoir barrel body and an inner processing barrel body (102) arranged in the outer reservoir barrel body, an annular gap between the outer reservoir barrel body and the inner processing barrel body (102) is a reservoir interlayer (103), a communication groove (104) is formed in the side wall of the inner processing barrel body (102), openings at two ends of the communication groove (104) are respectively communicated with the inner space of the inner processing barrel body (102) and the reservoir interlayer (103), a sealing cover plate (105) is fixedly arranged at the top end of the outer reservoir barrel body, a material pipe (106) is fixedly arranged at the bottom end of the side wall of the outer reservoir barrel body, openings at two ends of the material pipe (106) are respectively communicated with the reservoir interlayer (103) and the outside, and a valve is arranged in the middle of the material pipe (106);

the height of the opening of the communication groove (104) close to one end of the inner processing barrel body (102) is lower than the height of the bottom surface of the hammering block (302) when the hammering block (302) is lifted to the top end;

a guide column (301) is fixedly arranged in the center of the upper surface of the bottom plate of the inner processing barrel body (102), hammering blocks (302) are vertically and slidably arranged in gaps between the guide column (301) and the inner side wall of the inner processing barrel body (102) in a circumferential array, and a transmission assembly is connected to the upper surface of the hammering blocks (302) in a transmission manner and drives the hammering blocks (302) to slide up and down;

the upper wall of the communication groove (104) is fixedly provided with a one-way blocking piece (401) capable of blocking the communication groove (104), the one-way blocking piece (401) is an arc-shaped one-way blocking piece (401), and the one-way blocking piece (401) is bent towards the direction of the reservoir interlayer (103);

an air inlet pipe (402) is arranged on the side wall of the inner processing barrel body (102), two ends of the air inlet pipe (402) are respectively communicated with the inner space of the inner processing barrel body (102) and the reservoir interlayer (103), and the installation height of the air inlet pipe (402) close to one end of the inner processing barrel body (102) is lower than the bottom surface height of the hammering block (302) when the hammering block (302) is lifted to the top end;

the one-way valve is arranged in the middle of the air inlet pipe (402), so that air in the air inlet pipe (402) can only flow in the inner direction of the inner processing barrel body (102).

2. The probiotic powder and the production device thereof according to claim 1, wherein: the height of an opening of the communicating groove (104) close to the reservoir interlayer (103) is higher than that of an opening of the communicating groove (104) close to the inner part of the inner processing barrel body (102).

3. The probiotic powder and the production device thereof according to claim 1, wherein: the high-strength spring (201) is fixedly mounted on the bottom plate of the outer storage barrel body, and the top end of the high-strength spring (201) is fixedly connected with the bottom plate of the inner processing barrel body (102).

4. The probiotic powder and the production device thereof according to claim 1, wherein: the transmission assembly comprises a motor (303) arranged at the top end of the inner side wall of the outer storage barrel body, a crank connecting rod mechanism (304) is connected with a transmission shaft of the motor (303), a power output end of the crank connecting rod mechanism (304) is rotationally connected with a driving column (307), one end of the driving column (307) away from the crank connecting rod mechanism (304) is fixedly connected with the upper surface of the hammering block (302), a guide block (305) is fixedly arranged on the inner side wall of the outer storage barrel body, a guide groove (306) is vertically formed in the guide block (305) in a penetrating mode, and the driving column (307) penetrates through the guide groove (306).

5. The probiotic powder and the production device thereof according to claim 1, wherein: the air inlet pipe (402) is positioned at one end of the inner part of the reservoir interlayer (103) and is higher than the top end of the inner processing barrel body (102).

6. The probiotic powder and the production device thereof according to claim 1, wherein: still including subside the subassembly, subside the subassembly and include mounting panel (501), entrap close otter board (502), reservoir intermediate layer (103) internally mounted has mounting panel (501), mounting panel (501) both sides fixed mounting have a plurality of entrap close otter board (502), install vibrating motor on mounting panel (501).

7. The probiotic powder and the production device thereof according to claim 6, wherein: the inner side wall of the outer reservoir barrel body is transversely and fixedly provided with a fixing frame (503), and the bottom end of the mounting plate (501) is fixedly connected with one end, far away from the outer reservoir barrel body, of the fixing frame (503).

8. The probiotic powder and the production device thereof according to claim 6, wherein: the entrapping net plate (502) is an entrapping net plate (502) which is obliquely arranged, and the height of one side of the entrapping net plate (502) close to the mounting plate (501) is higher than the height of one side of the entrapping net plate (502) far away from the mounting plate (501).