CN215270410U - Novel food purifier - Google Patents

Abstract

The utility model relates to the technical field of sterilization devices, in particular to a novel food purifier; the device comprises a host and an upper cover, wherein the upper cover is arranged at the upper end of the host and is matched and connected with the host, a purification barrel is arranged in an inner cavity of the host below the upper cover, and a plurality of ultraviolet lamps are arranged on the lower end surface of the upper cover; a stirring device is arranged in the purification barrel, and a discharging device matched with the purification barrel is arranged in the host machine below the purification barrel; the novel food purifier of the utility model disinfects the particles and powdery food materials in the purifying barrel to kill mycotoxin generated in long-time storage of the food materials; the stirring device pushes the food materials in the purification barrel to roll upwards, so that all the food materials can be ensured to be irradiated by enough ultraviolet rays, and the uniformity of the ultraviolet irradiation is ensured; the stirring device can reversely rotate to drive the food materials in the purification barrel to flow to the discharging device, so that the food materials in the purification barrel can be emptied as soon as possible.

Description

Novel food purifier

Technical Field

The utility model relates to a sterilizing equipment technical field indicates a novel food purifier very much.

Background

The ultraviolet sterilization principle utilizes the irradiation of an ultraviolet sterilization lamp to perform sterilization, which is one of the previously commonly used physical sterilization methods, the wavelength characteristic of the ultraviolet sterilization effect is irrelevant to strains, the ultraviolet sterilization capability of the ultraviolet sterilization effect in the area of 250-260nm is the strongest, and the ultraviolet with the wavelength below 300nm is a low-energy electromagnetic ray which is not enough to cause the separation of atoms and only generates the excitation effect, so that electrons are in a high-energy state and are not separated. When bacteria are irradiated, it is this excitation that causes chemical changes in the intracellular components, thereby killing the mold and achieving a bactericidal effect.

Chinese patent CN211353173U discloses a grain storage device, which comprises a barrel body, inwards be equipped with a plurality of drying sticks on the bucket wall of staving, be equipped with drier mounting groove and fluorescent tube mounting groove on the drying stick, the drier mounting groove is used for installing the drier, be equipped with sterilamp in the fluorescent tube mounting groove. The grain storage device mainly absorbs water molecules in grains in the barrel through the drying agent and inhibits the bacterial growth of the grains in the barrel by combining the ultraviolet germicidal lamp, thereby prolonging the storage time of the grains and ensuring that the grains are not deteriorated. Mycotoxin generated in the storage and preservation of grains brings great threat to the eating, has high temperature resistance and is difficult to damage under the condition of 340 ℃. The aspergillus flavus in the mycotoxin mainly damages the liver and the kidney of a human body and has stronger carcinogenicity. The existing grain storage device is based on an environment control mode to avoid grain deterioration and prolong storage time, and the static control mode can only inhibit the deterioration of surface grain, cannot solve the breeding of mycotoxin and cannot treat the grain to eliminate safety risk

Accordingly, the prior art is yet to be improved and developed.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects and shortcomings of the prior art, and provides a novel food purifier which is reasonable in structure and convenient to use.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model relates to a novel food purifier, which comprises a main machine and an upper cover, wherein the upper cover is arranged at the upper end of the main machine and is matched and connected with the main machine, a purifying barrel is arranged in the inner cavity of the main machine below the upper cover, and a plurality of ultraviolet lamps are arranged on the lower end surface of the upper cover; a stirring device is arranged in the purification barrel, and a discharging device matched with the stirring device is arranged in the host machine below the purification barrel. The novel food purifier is used for sterilizing particles and powdery food materials in the purifying barrel, and the ultraviolet lamp emits ultraviolet rays with the wavelength within the range of 250-260nm to irradiate the food materials, so that mycotoxin generated in long-time storage of the food materials is killed. In the ultraviolet sterilization process, the stirring device pushes the food materials in the purification barrel to roll upwards, so that all the food materials can be irradiated by sufficient ultraviolet rays, and the uniformity of the ultraviolet irradiation is ensured. It can be understood that, above-mentioned ultraviolet lamp and agitating unit carry out work through manual work or automatic control mode, after the disinfection process is accomplished or the settlement time arrives, ultraviolet lamp is at first closed in order to prevent ultraviolet leakage, then make edible material flow out from the purification bucket through discharge apparatus, discharge apparatus is used for establishing the passageway between purification bucket and the outside and controls the switching of this passageway, when discharge apparatus during operation, can make granule or powdered edible material flow out from the purification bucket through the effect of gravity, and agitating unit can reverse drive edible material in the purification bucket to discharge apparatus flow, thereby empty the edible material in the purification bucket as early as possible.

According to the scheme, the bottom plate of the purification barrel is provided with the discharge port, the discharging device comprises a first blocking piece and a first driver, the discharge port is provided with the first blocking piece, and the first driver is in transmission connection with the first blocking piece so that the first driver and the discharge port form opening and closing matching. The purification barrel enables the food materials inside to flow out through the discharge hole, and the first driver is used for controlling the first blocking piece to open or close the discharge hole.

According to above scheme, agitating unit is equipped with the transmission shaft including stirring head and motor, the lower extreme of stirring head, and the transmission shaft is rotationally worn to locate on the bottom plate of purifying barrel, and the motor is located in the host computer and is connected with the transmission shaft transmission, is equipped with helical blade on the stirring head. The motor is fixed to be set up in the purification bucket below, and the output of motor can set up reduction gears, and reduction gears is connected and this transmission is connected for dismantling the connection with the transmission shaft transmission, and when the purification bucket was fixed to be set up in the host computer, thereby the motor passes through the first rotation of stirring of reduction gears lug connection transmission shaft drive purification bucket, and the helical blade that sets up on the stirring head can drive the edible material in the purification bucket and realize the fluid motion from top to bottom to it upwards flows in order to accept ultraviolet irradiation to make the bottom eat the material. When purifying bucket detachably installs on the host computer, the reduction gears on the motor should set up output interface in order to match the transmission shaft, thereby the lower extreme setting of transmission shaft inserts output interface and constitutes the transmission with the motor and be connected, and the transmission shaft can adopt prior art with the structural style of output interface and does not do not need here to describe in detail.

According to the scheme, the material receiving box is arranged in the inner cavity of the main machine below the discharge port, the side wall of the lower portion of the main machine is provided with an opening, and the material receiving box can be loaded into or drawn out of the main machine through the opening. The food receiving box is used for receiving the sterilized food materials flowing out of the purification barrel, the food receiving box and the main machine form a drawer type structure, and when the food materials in the purification barrel are partially discharged or emptied, the food receiving box can be drawn out from an opening of the main machine to obtain the food materials.

According to the scheme, the device further comprises a controller, and the controller is respectively connected with the ultraviolet lamps, the motor and the first driver through circuits. The controller is used for controlling the operating condition of novel food purifier, but the controller has contained control panel, microprocessor, timer and interactive network module, when the state of pairing of controller self-checking upper cover and host computer is normal, the controller can open ultraviolet lamp and the process of disinfecting of motor through control panel, the timer carries out automatic control to the process of disinfecting, disinfect and close ultraviolet lamp after accomplishing the controller, open first driver and open the discharge gate, make edible material flow into the material receiving box from the purifying barrel.

According to the scheme, the controller can control the motor to rotate forwards or turn over, the controller is in a sterilization mode, the ultraviolet lamp is started, the motor is in a forward rotation state, and the motor drives the stirring head to enable food materials in the purification barrel to flow upwards. When the controller is in a discharging mode, the ultraviolet lamp is firstly closed, the controller opens the first driver to open the discharging port, and the first controller is provided with a travel switch for controlling the first baffle plate so as to ensure the normal opening and closing of the discharging port. In order to improve the discharging efficiency, the motor is started to rotate in a reverse mode to enable the food materials in the purifying barrel to flow downwards, so that the food materials can flow into the material receiving box through the discharging hole as soon as possible.

According to the scheme, the controller is fixedly arranged on the upper cover, the upper cover is connected with the host through the hinge, the trigger sensor is arranged on the lower end face of the upper cover, the trigger head is arranged on the upper port of the host, and the controller is connected with the trigger sensor through the circuit. The trigger sensor is used for detecting whether the upper cover is in a closed state, and the ultraviolet lamp is arranged on the lower end face of the upper cover, so that the food materials in the purification barrel are sterilized through irradiation of the ultraviolet lamp when the upper cover is covered on the host machine. The upper cover is preferably rotatably arranged on the main machine, so that the purifying barrel can be detached from the upper port of the main machine to take out food materials conveniently.

According to the scheme, the upper end face of the upper cover is provided with the charging hopper, the lower port of the charging hopper penetrates through the upper cover, the upper cover is provided with the movable baffle, the movable baffle is matched with the lower port of the charging hopper, and the upper cover is provided with the deflector rod connected with the movable baffle. The charging hopper is used for storing food materials to be disinfected or realizing quantitative treatment through the volume of the charging hopper, firstly, quantitative food materials are charged into the charging hopper, and the deflector rod drives the movable baffle plate to enable the food materials to flow into the purifying barrel from the lower port of the charging hopper, so that the quantitative food materials are sterilized.

The novel food purifier of the utility model disinfects the particles and powdery food materials in the purifying barrel to kill mycotoxin generated in long-time storage of the food materials; the stirring device pushes the food materials in the purification barrel to roll upwards, so that all the food materials can be ensured to be irradiated by enough ultraviolet rays, and the uniformity of the ultraviolet irradiation is ensured; the stirring device can reversely rotate to drive the food materials in the purification barrel to flow to the discharging device, so that the food materials in the purification barrel can be emptied as soon as possible.

Drawings

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

FIG. 2 is a schematic view of the whole structure of the present invention in an open state of the upper cover;

fig. 3 is a schematic diagram of the overall explosion structure of the present invention;

fig. 4 is a schematic view of the overall cross-sectional structure of the present invention;

fig. 5 is a schematic structural view of the discharging device of the present invention.

In the figure:

1. a host; 2. an upper cover; 3. a controller; 11. a purifying barrel; 12. a stirring head; 13. a motor; 14. a drive shaft; 15. a discharge port; 16. a first baffle plate; 17. a first driver; 18. a material receiving box; 21. an ultraviolet lamp; 22. a trigger sensor; 23. a charging hopper; 24. a movable baffle; 25. a deflector rod.

Detailed Description

The technical solution of the present invention will be described below with reference to the accompanying drawings and examples.

As shown in fig. 1-5, the novel food purifier of the present invention comprises a main unit 1 and an upper cover 2, wherein the upper cover 2 is disposed at the upper end of the main unit 1 and is connected to the main unit in a matching manner, a purifying barrel 11 is disposed in the inner cavity of the main unit 1 below the upper cover 2, and a plurality of ultraviolet lamps 21 are disposed on the lower end surface of the upper cover 2; a stirring device is arranged in the purification barrel 11, and a discharging device matched with the purification barrel 11 is arranged in the host 1 below the purification barrel. The novel food purifier is used for sterilizing particles and powdery food materials in the purifying barrel 11, and the ultraviolet lamp 21 emits ultraviolet rays with the wavelength within the range of 250-260nm to irradiate the food materials, so that mycotoxin generated in long-time storage of the food materials is killed. In the ultraviolet sterilization process, the stirring device pushes the food materials in the purification barrel 11 to roll upwards, so that all the food materials can be irradiated by sufficient ultraviolet rays, and the uniformity of the ultraviolet irradiation is ensured. It can be understood that, the above-mentioned ultraviolet lamp 21 and the stirring device operate through manual or automatic control, after the sterilization process is completed or the set time is reached, the ultraviolet lamp 21 is first closed to prevent ultraviolet leakage, and then the food material flows out of the purification barrel 11 through the discharging device, the discharging device is used for establishing a channel between the purification barrel 11 and the outside and controlling the opening and closing of the channel, when the discharging device operates, the granular or powdery food material can flow out of the purification barrel 11 through the action of gravity, and the stirring device can reversely drive the food material in the purification barrel 11 to flow to the discharging device, so as to empty the food material in the purification barrel 11 as soon as possible.

Agitating unit includes agitator head 12 and motor 13, and the lower extreme of agitator head 12 is equipped with transmission shaft 14, and on transmission shaft 14 rotationally wore to locate the bottom plate of purifying barrel 11, motor 13 located in host computer 1 and be connected with transmission shaft 14 transmission, is equipped with helical blade on the agitator head 12. Motor 13 is fixed to be set up in purification bucket 11 below, and the output of motor 13 can set up reduction gears, and reduction gears is connected and should be connected for dismantling with the 14 transmission of transmission shaft and be connected, and when purification bucket 11 was fixed the setting in host computer 1, thereby motor 13 passes through reduction gears lug connection transmission shaft 14 and drives the stirring head 12 rotation in the purification bucket 11, and the helical blade that sets up on the stirring head 12 can drive the edible material in the purification bucket 11 and realize the fluid motion from top to bottom, thereby makes the bottom edible material upwards flow in order to accept the irradiation of ultraviolet ray. When the purification barrel 11 is detachably mounted on the main machine 1, the speed reduction mechanism on the motor 13 should be provided with an output interface to match the transmission shaft 14, the lower end of the transmission shaft 14 is provided with an insertion output interface to form a transmission connection with the motor 13, and the structural types of the transmission shaft 14 and the output interface can adopt the prior art and are not described herein.

A discharge port 15 is formed in a bottom plate of the purification barrel 11, the discharging device comprises a first blocking piece 16 and a first driver 17, the first blocking piece 16 is arranged on the discharge port 15, and the first driver 17 is in transmission connection with the first blocking piece 16 so as to enable the first blocking piece and the discharge port 15 to form open-close fit. The purifying barrel 11 enables the food material inside to flow out through the discharge hole 15, and the first driver 17 is used for controlling the first baffle 16 to open or close the discharge hole 15.

A material receiving box 18 is arranged in the inner cavity of the host 1 below the discharge port 15, an opening is arranged on the side wall of the lower part of the host 1, and the material receiving box 18 can be loaded into or drawn out of the host 1 through the opening. The material receiving box 18 is used for receiving the sterilized food material flowing out of the purifying barrel 11, the material receiving box 18 and the main machine 1 form a drawer type structure, and when the food material in the purifying barrel 11 is partially discharged or emptied, the material receiving box 18 can be drawn out from an opening of the main machine 1 to obtain the food material.

The ultraviolet lamp controller further comprises a controller 3, and the controller 3 is respectively connected with the ultraviolet lamps 21, the motor 13 and the first driver 17 through circuits. Controller 3 is used for controlling novel food purifier's operating condition, controller 3 has contained control panel, microprocessor, timer and interactive network module, when the state of pairing of 3 self-checking upper cover 2 of controller and host computer 1 is normal, controller 3 can open ultraviolet lamp 21 and motor 13 process of disinfecting through control panel, the timer carries out automatic control to the process of disinfecting, disinfect and accomplish back controller 3 and close ultraviolet lamp 21, open first driver 17 and open discharge gate 15, make edible material flow into material receiving box 18 from purifying barrel 11.

The controller 3 can control the motor 13 to rotate forward or turn over, when the controller 3 is in a sterilization mode, the ultraviolet lamp 21 is turned on, the motor 13 rotates forward, and the motor 13 drives the stirring head 12 to enable the food materials in the purification barrel 11 to flow upward. When the controller 3 is in the discharging mode, the ultraviolet lamp 21 is firstly turned off, the controller 3 starts the first driver 17 to open the discharging hole 15, and a travel switch for controlling the first baffle 16 is configured on the first controller 3 to ensure the normal opening and closing of the discharging hole 15. In order to improve the discharging efficiency, the motor 13 is turned on to rotate in a reverse mode to make the food material in the purifying barrel 11 flow downwards, so as to promote the food material to flow into the material receiving box 18 through the material outlet 15 as soon as possible.

The controller 3 is fixedly arranged on the upper cover 2, the upper cover 2 is connected with the host machine 1 through a hinge, the lower end face of the upper cover 2 is provided with a trigger sensor 22, the upper port of the host machine 1 is provided with a trigger head, and the controller 3 is connected with the trigger sensor 22 through a circuit. The trigger sensor 22 is used for detecting whether the upper cover 2 is in a closed state, and since the ultraviolet lamp 21 is arranged on the lower end surface of the upper cover 2, the food material in the purifying barrel 11 is sterilized by the irradiation of the ultraviolet lamp 21 when the upper cover 2 is covered on the main machine 1. The upper lid 2 is preferably rotatably installed on the main body 1 so that the tub 11 can be removed from the upper end of the main body 1 to take out the food.

The upper cover 2 is provided with a charging hopper 23 on the upper end face, the lower port of the charging hopper 23 penetrates through the upper cover 2, the upper cover 2 is provided with a movable baffle plate 24, the movable baffle plate 24 is matched with the lower port of the charging hopper 23, and the upper cover 2 is provided with a deflector rod 25 connected with the movable baffle plate 24. The charging hopper 23 is used for storing food materials to be sterilized or realizing quantitative treatment through the volume of the charging hopper 23, firstly, a certain amount of food materials are charged into the charging hopper 23, and the deflector rod 25 drives the movable baffle plate 24 to enable the food materials to flow into the purifying barrel 11 from the lower port of the charging hopper 23, so that the certain amount of food materials are sterilized.

The above is only the preferred embodiment of the present invention, so all the equivalent changes or modifications made by the structure, features and principles in accordance with the claims of the present invention are included in the claims of the present invention.

Claims (7)

1. A novel food purifier, which comprises a main machine and an upper cover and is characterized in that,

the upper cover is arranged at the upper end of the main machine and is matched and connected with the main machine, a purification barrel is arranged in the inner cavity of the main machine below the upper cover, and a plurality of ultraviolet lamps are arranged on the lower end surface of the upper cover;

a stirring device is arranged in the purification barrel, and a discharging device matched with the purification barrel is arranged in the host machine below the purification barrel;

the bottom plate of the purification barrel is provided with a discharge port, the discharging device comprises a first blocking piece and a first driver, the discharge port is provided with the first blocking piece, and the first driver is in transmission connection with the first blocking piece so that the first driver and the discharge port form opening and closing matching.

2. The novel food purifier as claimed in claim 1, wherein the stirring device comprises a stirring head and a motor, the stirring head has a transmission shaft at a lower end thereof, the transmission shaft is rotatably disposed on the bottom plate of the purifying barrel, the motor is disposed in the main body and is in transmission connection with the transmission shaft, and the stirring head has a helical blade.

3. The novel food purifier as claimed in claim 1, wherein a material receiving box is disposed in the inner cavity of the main body below the discharge port, and an opening is disposed on the sidewall of the lower portion of the main body, through which the material receiving box can be inserted into or withdrawn from the main body.

4. The novel food purifier according to any one of claims 1-3, further comprising a controller, wherein the controller is electrically connected to the plurality of ultraviolet lamps, the motor and the first driver, respectively.

5. The novel food purifier as recited in claim 4, wherein the controller can operate the motor to rotate in a forward direction or a reverse direction.

6. The novel food purifier as claimed in claim 4, wherein the controller is fixedly arranged on the upper cover, the upper cover is connected with the main machine through a hinge, a trigger sensor is arranged on the lower end face of the upper cover, a trigger head is arranged on the upper port of the main machine, and the controller is connected with the trigger sensor through a circuit.

7. The novel food purifier as claimed in claim 1, wherein a charging hopper is provided on the upper end surface of the upper cover, the lower port of the charging hopper penetrates through the upper cover, a movable baffle is provided on the upper cover, the movable baffle is matched with the lower port of the charging hopper, and a deflector rod connected with the movable baffle is provided on the upper cover.

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