CN215560289U

CN215560289U - New material fermenting installation based on vacuum technique

Info

Publication number: CN215560289U
Application number: CN202120161044.8U
Authority: CN
Inventors: 杨金金
Original assignee: Shenzhen Shineng New Environmental Protection Material Co ltd
Current assignee: Shenzhen Shineng New Environmental Protection Material Co ltd
Priority date: 2021-01-20
Filing date: 2021-01-20
Publication date: 2022-01-18
Anticipated expiration: 2031-01-20

Abstract

The utility model provides a new material fermentation device based on vacuum technology, which comprises a fermentation cabin, a feed hopper, a discharge port and a main shaft, wherein the left side of the top end of the fermentation cabin can discharge materials into the fermentation cabin through the feed hopper which is fixedly connected, the bottom of the fermentation cabin can discharge the materials through the discharge port which is fixedly connected, the materials can be stirred by the main shaft which is rotatably arranged in the fermentation cabin, a fermentation part is arranged in the fermentation cabin, the inner wall of the fermentation cabin is embedded and provided with an inner cavity, a temperature control part is arranged in the inner cavity, water mist generated by heating is mixed, water mist with certain temperature is sprayed into the fermentation cabin after being pressurized by the water mist fan, the ventilation groove is utilized to lead the water mist into the left side of the fermentation cabin from the upper side, the water mist is uniformly dispersed in the fermentation cabin, when the water mist with a certain temperature flows, the materials are kept in a certain temperature and humidity environment for fermentation, so that the fermentation effect of the device is improved conveniently.

Description

New material fermenting installation based on vacuum technique

Technical Field

The utility model relates to the technical field of new material fermentation, in particular to a new material fermentation device based on a vacuum technology.

Background

The new material is a structural material with excellent performance and a functional material with special properties which are newly developed or are being developed, the structural material mainly utilizes the strength, toughness, hardness and elastic mechanical performance of the structural material, such as a novel ceramic material and an amorphous alloy, the functional material mainly utilizes the electric, optical, acoustic, magnetic, thermal and physical effects of the functional material, and in recent years, the new material researched and developed in the world mainly comprises a new metal material, fine ceramics and optical fibers;

based on the above description, and retrieve an application number: CN 201920067736.9's utility model patent, it is about a new material apparatus for producing based on vacuum technique, including jar body (1), bubble remove device (2), vacuum apparatus (3), feed inlet (4) and discharge gate (5), its characterized in that: the feed inlet (4) and the vacuum device (3) are both arranged at the top of the tank body (1) and are communicated with the tank body (1), and the feed inlet (4) is arranged on the left side surface of the vacuum device (3); floating foam plates (14) are arranged on two side surfaces of the collecting plate (9). The search shows that the collecting plate is driven to rotate clockwise mainly by the stepping motor, and the floating foam plate can enable the collecting plate to float at the top all the time, so that bubbles floating on the collecting plate can enter the collecting plate to be punctured, the bubbles are not too dense, the effect of new material fermentation is improved, and the effect condition that the fermentation is influenced by the too dense bubbles is avoided;

after retrieval and analysis, the existing new material fermentation device cannot control the temperature, the fermentation effect of the new material is easily influenced when the temperature is too low or too high, and the fermentation efficiency is low, so that further research needs to be carried out on the basis of the new material fermentation device, and the new material fermentation device based on the vacuum technology is provided.

SUMMERY OF THE UTILITY MODEL

The purpose and the effect of the new material fermentation device based on the vacuum technology are achieved by the following specific technical means:

the utility model provides a new material fermenting installation based on vacuum technique, includes the fermentation cabin, the feeder hopper, discharge gate and main shaft, it is inside that fermentation cabin top left side can be discharged the material through fixed connection's feeder hopper, the discharge gate that fermentation cabin bottom passes through fixed connection can discharge the material, the inside main shaft that sets up through rotating of fermentation cabin can stir the material, the inside in fermentation cabin is provided with the fermentation part, the inner wall embedding in fermentation cabin is provided with the inner chamber, and is provided with the temperature control part in the inner chamber.

Preferably, the fermentation part comprises: screening board, main shaft and ring seat, screening board are installed two and are all set up the interior bottom in fermentation cabin, and two screening boards are whole to be "X" word form intercrossing setting.

Preferably, the upper end and the lower end of the screening plate are movably connected with a plurality of material guide plates, the material guide plates are in a semi-circular arc shape, and the vacuum pump is installed on the right side of the top of the fermentation cabin.

Preferably, the top end of the main shaft is connected with the top of the fermentation cabin through a penetrating way and provided with a motor, the upper side of the main shaft is provided with a ventilation groove, and a heating plate is arranged inside the main shaft.

Preferably, the ring seat is respectively arranged at the middle part and the lower side of the main shaft, the two ends of the ring seat are fixedly connected with stirring rods, and the outer side end of each stirring rod is fixedly connected with a stirring plate.

Preferably, a plurality of has the shearing groove evenly seted up to the outside end of ring seat, and the ring seat is close to one side joint of main shaft and has the head of cuting to the external diameter of head and the internal diameter looks adaptation of ring seat.

Preferably, a pin hole is formed between the shearing head and the main shaft, the shearing head is fixedly clamped with the main shaft through the pin hole, and at least three arc-shaped shearing teeth are formed in the outer side of the shearing head.

Preferably, the temperature control member comprises: the water mist absorption pipe is embedded into an inner cavity on the left side of the interior of the fermentation cabin, the bottom of the water mist absorption pipe is provided with a water mist fan, and the water mist absorption pipe is in an inverted L shape.

Preferably, a water mist suction nozzle is installed on the right side of the top of the water mist absorption pipe, an atomizing nozzle is arranged in the top of the water mist fan close to the fermentation cabin, and the water mist suction nozzle and the atomizing nozzle are communicated with the interior of the fermentation cabin.

Has the advantages that:

(1) the water mist generated by heating is pressurized by a water mist fan and then sprayed into the fermentation cabin, the ventilation groove is used for guiding the water mist into the left side of the fermentation cabin from the upper side, the water mist is uniformly dispersed in the fermentation cabin, and when the water mist with a certain temperature flows, the material is kept in a certain temperature and humidity environment for fermentation, so that the fermentation effect of the device is improved;

(2) through the rotation of main shaft, be convenient for drive puddler and stirring of stirring board and shear head to the shearing of material, can carry out comprehensive stirring shearing to the material and handle, carry out the fermentation ability that improves the accent material, and utilize the shearing of shearing overhead arc shear tooth, further shearing processing is carried out to the material that falls into to the ring seat, and the material after the shearing is discharged through shearing the groove, the effectual fermentation efficiency who improves the device.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the internal structure of the fermentation tank of the present invention;

FIG. 3 is a schematic plan view of the screening deck of the present invention;

FIG. 4 is a schematic top view of the ring base of the present invention;

in FIGS. 1-4: 1-fermentation cabin, 101-vacuum pump, 102-motor, 103-feed hopper, 104-discharge port, 105-screening plate, 1051-guide plate, 2-water mist blower, 201-water mist absorption tube, 202-water mist suction nozzle, 203-atomizing nozzle, 3-main shaft, 301-ventilation groove, 302-ring seat, 3021-shearing head, 3022-shearing groove, 303-stirring rod and 304-stirring plate.

Detailed Description

As shown in figures 1 to 4:

the utility model provides a new material fermentation device based on a vacuum technology, which comprises a fermentation cabin 1, a feed hopper 103, a discharge port 104 and a main shaft 3, wherein the left side of the top end of the fermentation cabin 1 can discharge materials into the fermentation cabin through the feed hopper 103 which is fixedly connected, the bottom of the fermentation cabin 1 can discharge the materials through the discharge port 104 which is fixedly connected, the materials can be stirred in the fermentation cabin 1 through the main shaft 3 which is rotatably arranged, a fermentation part is arranged in the fermentation cabin 1, an inner cavity is embedded in the inner wall of the fermentation cabin 1, and a temperature control part is arranged in the inner cavity.

Wherein, fermentation part includes: screening board 105, main shaft 3 and ring seat 302, screening board 105 is installed two and is all set up the interior bottom at fermentation cabin 1, and two screening boards 105 are whole to be "X" style of calligraphy intercrossing setting, the equal swing joint in both ends about screening board 105 has a plurality of stock guide 1051, and stock guide 1051 is the semicircle arc shape, and vacuum pump 101 is installed on the top right side of fermentation cabin 1, through the stock guide 1051 of activity, be convenient for to the material that will fall into on stock guide 1051 to both ends dispersion, be convenient for with material evenly distributed on screening board 105.

Wherein, motor 102 is installed through-connection in fermentation cabin 1 top in the top of main shaft 3, and the upside of main shaft 3 has seted up ventilation groove 301, and the inside of main shaft 3 is provided with the hot plate, and ring seat 302 is respectively at main shaft 3 middle part and downside, and the both ends fixedly connected with stirring rod 303 of ring seat 302, and the outside end fixedly connected with stirring board 304 of stirring rod 303, through the rotation of main shaft 3, be convenient for drive stirring rod 303 and stirring board 304 stir the material.

Wherein, the outside end of ring seat 302 evenly sets up a plurality of and has shearing groove 3022, and the one side joint that ring seat 302 is close to main shaft 3 has shearing head 3021 to the external diameter of shearing head 3021 and the internal diameter looks adaptation of ring seat 302 cut the material through shearing head 3021, can carry out comprehensive stirring shearing to the material and handle, improve the fermentation capacity of transferring the material.

Wherein, be provided with the pinhole between shearing head 3021 and the main shaft 3, and it is fixed with main shaft 3 block through the pinhole to cut head 3021, and the outside of cutting head 3021 has seted up at least three arc and has sheared the tooth, utilizes the shearing of cutting the arc on the head 3021 and shears the tooth, carries out further shearing processing to the material that falls into to the ring seat 302, and the material after the shearing is discharged through shearing groove 3022.

Wherein, accuse temperature part includes: a water mist absorption pipe 201, the water mist absorption pipe 201 is embedded in the inner cavity at the left side in the fermentation cabin 1, the bottom of the water mist absorption pipe 201 is provided with a water mist fan 2, the water mist absorption pipe 201 is in an inverted L shape, the right side of the top of the water mist absorption pipe 201 is provided with a water mist suction nozzle 202, the top of the water mist fan 2 close to the fermentation cabin 1 is provided with an atomizing nozzle 203, and the water mist suction nozzle 202 and the atomizing nozzle 203 are communicated with the interior of the fermentation chamber 1, the water mist generated by heating the heating plate is sprayed, water mist with certain temperature is sprayed into the fermentation cabin 1 after being pressurized by the water mist fan 2, the ventilation groove 301 is used for guiding the water mist into the left side of the fermentation cabin 1 from the upper side, the water mist is uniformly dispersed in the fermentation cabin 1, when the water mist with a certain temperature flows, the materials are kept in a certain temperature and humidity environment for fermentation, so that the fermentation effect of the device is improved conveniently.

The working principle is as follows: the specific using mode and action of the embodiment are that firstly, the material enters the inside of the fermentation chamber 1 through the feed hopper 103, the vacuum pump 101, the motor 102, the heating plate inside the main shaft 3 and the water mist fan 2 are all electrically connected with the external power supply through the conducting wire, then the vacuum pump 101 is convenient for pumping out the internal air of the fermentation chamber 1, the heating plate inside the main shaft 3 is heated to generate water mist, the water mist fan 2 enters the water mist absorption pipe 201 through the water mist suction nozzle 202 to pressurize, the water mist with certain temperature is sprayed into the fermentation chamber 1 through the atomizing nozzle 203, then the water mist is conveniently guided into the left side of the fermentation chamber 1 from the upper side through the ventilation groove 301, the water mist is conveniently and uniformly dispersed in the fermentation chamber 1, when the water mist with certain temperature flows, the material is kept to ferment in a certain temperature and humidity environment, then the main shaft 3 is driven to rotate by the motor 102, and then drive puddler 303 and stirring board 304 and stir the material, and the head 3021 of cuting on the ring seat 302 is cuted the material, can carry out comprehensive stirring shearing processing to the material, improve the fermentation ability of transferring the material, simultaneously, can make the material in the fermentation cabin 1 obtain abundant upset, be favorable to the material to carry out comprehensive fermentation, later utilize the shearing of arc shearing tooth on the head 3021 of cuting, further shearing processing is carried out to the material that falls into to the ring seat 302, the material after the shearing drops to stock guide 1051 through shearing groove 3022, and through the stock guide 1051 that moves about, be convenient for to disperse the material that falls into on stock guide 1051 to both ends, be convenient for with material evenly distributed on screening board 105, the material is discharged from discharge gate 104 after screening through screening board 105.

Claims

1. A new material fermentation device based on a vacuum technology comprises a fermentation cabin (1), a feed hopper (103), a discharge port (104) and a main shaft (3), wherein the left side of the top end of the fermentation cabin (1) can discharge materials into the fermentation cabin through the feed hopper (103) which is fixedly connected, the bottom of the fermentation cabin (1) can discharge the materials through the discharge port (104) which is fixedly connected, and the materials can be stirred in the fermentation cabin (1) through the main shaft (3) which is rotatably arranged; the fermentation part is arranged in the fermentation cabin (1), an inner cavity is embedded into the inner wall of the fermentation cabin (1), and a temperature control part is arranged in the inner cavity.

2. New material fermentation plant based on vacuum technology, according to claim 1, characterized in that: the fermentation part includes: screening board (105), main shaft (3) and ring seat (302), screening board (105) are installed two and are all set up the interior bottom in fermentation cabin (1), and two screening boards (105) are whole to be "X" word form intercrossing setting.

3. New material fermentation plant based on vacuum technology, according to claim 2, characterized in that: the upper end and the lower end of the screening plate (105) are movably connected with a plurality of material guide plates (1051), the material guide plates (1051) are in a semi-circular arc shape, and a vacuum pump (101) is installed on the right side of the top of the fermentation cabin (1).

4. New material fermentation plant based on vacuum technology, according to claim 2, characterized in that: the top end of the main shaft (3) is connected to the top of the fermentation cabin (1) through a penetrating way and provided with a motor (102), the upper side of the main shaft (3) is provided with a ventilation groove (301), and a heating plate is arranged inside the main shaft (3).

5. New material fermentation plant based on vacuum technology, according to claim 2, characterized in that: the ring seat (302) is respectively arranged in the middle and the lower side of the main shaft (3), the two ends of the ring seat (302) are fixedly connected with stirring rods (303), and the outer side ends of the stirring rods (303) are fixedly connected with stirring plates (304).

6. The new material fermentation device based on vacuum technology as claimed in claim 5, characterized in that: a plurality of has shearing groove (3022) evenly seted up to the outside end of ring seat (302), and ring seat (302) are close to one side joint of main shaft (3) and have shearing head (3021) to the external diameter of shearing head (3021) and the internal diameter looks adaptation of ring seat (302).

7. New material fermentation plant based on vacuum technology, according to claim 6, characterized in that: a pin hole is formed between the shearing head (3021) and the main shaft (3), the shearing head (3021) is fixedly clamped with the main shaft (3) through the pin hole, and at least three arc-shaped shearing teeth are formed in the outer side of the shearing head (3021).

8. New material fermentation plant based on vacuum technology, according to claim 1, characterized in that: the temperature control part comprises: the water mist absorption pipe (201), the water mist absorption pipe (201) embedding sets up in the inside left side inner chamber of fermentation cabin (1), and the bottom of water mist absorption pipe (201) is installed water mist fan (2) to water mist absorption pipe (201) are the shape of falling "L".

9. New material fermentation plant based on vacuum technology, according to claim 8, characterized in that: the water mist suction nozzle (202) is installed on the right side of the top of the water mist absorption pipe (201), the atomizing nozzle (203) is arranged in the top of the water mist fan (2) close to the fermentation cabin (1), and the water mist suction nozzle (202) and the atomizing nozzle (203) are communicated with the interior of the fermentation cabin (1).