CN114275374B - Vacuum grain storage barrel capable of automatically inducing air extraction and control method - Google Patents

Vacuum grain storage barrel capable of automatically inducing air extraction and control method Download PDF

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Publication number
CN114275374B
CN114275374B CN202210022165.3A CN202210022165A CN114275374B CN 114275374 B CN114275374 B CN 114275374B CN 202210022165 A CN202210022165 A CN 202210022165A CN 114275374 B CN114275374 B CN 114275374B
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lock catch
barrel
barrel body
cover
vacuum
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CN114275374A (en
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黄昕
刘晓娜
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Shenzhen Dogcare Innovation and Technology Co Ltd
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Shenzhen Dogcare Innovation and Technology Co Ltd
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02ATECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
    • Y02A40/00Adaptation technologies in agriculture, forestry, livestock or agroalimentary production
    • Y02A40/10Adaptation technologies in agriculture, forestry, livestock or agroalimentary production in agriculture
    • Y02A40/51Adaptation technologies in agriculture, forestry, livestock or agroalimentary production in agriculture specially adapted for storing agricultural or horticultural products

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  • Compressors, Vaccum Pumps And Other Relevant Systems (AREA)

Abstract

The invention relates to a vacuum grain storage barrel capable of automatically inducing air extraction and a control method. When the vacuumizing device detects that the pressure value in the barrel body is reduced to the set pressure value, the controller controls the air exhaust mechanism to stop working, a vacuum environment is formed in the barrel body, the vacuum environment is more favorable for storing pet grains, and the grain storage time is prolonged. The barrel cover is tightly pressed on the barrel body through the locking device, the inside of the barrel body is ensured to be in a sealed state, and air leakage between the barrel cover and the barrel body cannot occur during subsequent vacuumizing. Because the locking device enables the barrel cover and the barrel body to be tightly pressed together all the time, air leakage is not easy to occur, the pressure maintaining time is longer, repeated vacuumizing caused by air leakage is not needed, and the power consumption is less. After the first lock catch and the second lock catch of the locking device are connected to the barrel body and the barrel cover at the same time, the air inlet holes are closed at the same time, vacuumizing is started, the upper cover and an operation key do not need to be pressed in advance, and the purpose of automatic vacuumizing is achieved.

Description

Vacuum grain storage barrel capable of automatically inducing air extraction and control method
Technical Field
The invention relates to the technical field of grain storage equipment, in particular to a vacuum grain storage barrel capable of automatically inducing air extraction and a control method.
Background
The storage of household grain is often carried out by using a vacuum measuring storage barrel for storing grain for human or animal to eat. The existing vacuum grain storage equipment needs external force to compress, so that air in the barrel can be smoothly pumped out after the barrel cover and the barrel body are pressed together, the operation is complex, the failure of vacuum pumping is easily caused, if the force pressing seal is not good, the vacuum pump is started, the vacuum pump can always run, finally, the electric quantity is exhausted, the service life of the vacuum grain storage barrel is shortened, and secondly, the vacuum grain storage barrel in the prior art generally adopts an electromagnetic valve to discharge vacuum, the operation is complex, the pressure discharge time is long, the user experience is poor, and the cost is high; and after the battery is exhausted, the electromagnetic valve can be started to discharge the vacuum only after charging.
Disclosure of Invention
Technical problem to be solved
In view of the above disadvantages and shortcomings of the prior art, the present invention provides a vacuum grain storage barrel with automatic induction air extraction and a control method thereof, which solves the technical problems of complicated operation, low automation degree and high energy consumption.
(II) technical scheme
In order to achieve the above object, the vacuum grain storage barrel capable of automatically inducing air extraction of the invention comprises:
the device comprises a barrel body, a barrel cover, a controller, a vacuumizing device, an air inlet device and a locking device;
the barrel cover can be matched with the barrel body to seal the barrel body, an accommodating space is formed in the barrel cover, and the controller, the vacuumizing device and the air inlet device are arranged in the accommodating space;
the vacuum pumping device comprises a power supply, an inductive switch, an air pumping mechanism and a negative pressure switch which are electrically connected with the controller; the inlet of the air exhaust mechanism is communicated with the interior of the barrel body, and the negative pressure switch is connected with the air exhaust mechanism;
the air inlet device comprises an air inlet hole and a sealing mechanism, an outlet of the air inlet hole is communicated with the interior of the barrel body, and the sealing mechanism can open or close an inlet of the air inlet hole;
the locking device comprises a first lock catch and a second lock catch which are oppositely arranged, first ends of the first lock catch and the second lock catch can be detachably connected with the barrel body, and second ends of the first lock catch and the second lock catch can be detachably connected with the barrel cover; a first trigger assembly and a second trigger assembly are arranged in the first lock catch and the second lock catch respectively; when the barrel body and the barrel cover are both connected with the first lock catch and the second lock catch, the first trigger component of the first lock catch and the first trigger component of the second lock catch trigger the inductive switch to be closed simultaneously, and the second trigger component of the first lock catch or the second lock catch triggers the sealing mechanism to close the inlet of the air inlet.
Optionally, the inductive switch includes a first hall sensor and a second hall sensor, the first hall sensor is close to the inner side of the first side wall of the barrel cover, the second hall sensor is close to the inner side of the second side wall of the barrel cover, and the inner side of the first side wall of the barrel cover and the inner side of the second side wall of the barrel cover are oppositely arranged;
the first trigger component in the first lock catch is a first magnet, and the first trigger component in the second lock catch is a second magnet;
when the barrel body and the barrel cover are both connected with the first lock catch and the second lock catch, the first lock catch is connected with a first side wall of the barrel cover, the first magnet is close to the first Hall sensor, the second lock catch is connected with a second side wall of the barrel cover, and the second magnet is close to the second Hall sensor.
Optionally, the second trigger assembly in the first lock catch is a first pressure plate, and the second trigger assembly in the second lock catch is a second pressure plate; the first pressure plate is vertically connected with the inner wall of the first lock catch, and the second pressure plate is vertically connected with the inner wall of the second lock catch;
when the barrel body and the barrel cover are both connected with the first lock catch and the second lock catch, the first pressing plate is abutted to the sealing mechanism.
Optionally, the sealing mechanism comprises a sealing post, a spring and a key;
a mounting hole is formed in the first side wall of the barrel cover, the central axis of the mounting hole is collinear with the central axis of the air inlet hole, and the first end of the mounting hole is close to the air inlet hole;
the spring is sleeved in the mounting hole, and the first end of the spring is connected with the first end of the mounting hole;
the key is sleeved in the mounting hole in a sliding manner, the first end of the key can extend out of the mounting hole, and the second end of the key is connected with the second end of the spring;
the sealing column is sleeved in the spring, the first end of the sealing column is connected with the second end of the key, and the second end of the sealing column is provided with a plurality of sealing rings;
when the barrel body and the barrel cover are connected with the first lock catch, the first pressing plate is abutted to the key, and the second end of the sealing column is sleeved in the air inlet.
Optionally, the first lock catch and the second lock catch each include a first mounting portion and a connecting portion that are connected to each other;
the connecting part of the first lock catch is hinged to the first side wall of the barrel body, the connecting part of the second lock catch is hinged to the second side wall of the barrel body, the first side wall and the second side wall of the barrel body are oppositely arranged, the hinged shaft of the first lock catch is parallel to the first side wall, and the hinged shaft of the second lock catch is parallel to the second side wall of the barrel body;
the first installation part is detachably connected with the barrel cover, and the first trigger assembly and the second trigger assembly are arranged in the first installation part.
Optionally, the first lock catch and the second lock catch each include a second mounting portion and a third mounting portion that are connected to each other;
the second mounting part is detachably connected with the barrel cover, and the third mounting part is detachably connected with the barrel body;
the first trigger assembly and the second trigger assembly are both arranged in the second mounting part.
Optionally, the air pumping mechanism includes a vacuum pump, a first air pumping pipe, a second air pumping pipe, a three-way valve, and a negative pressure pipe;
the vacuum pump is electrically connected with the controller;
the first end of the first air exhaust pipe is communicated with the interior of the barrel body, and the second end of the first air exhaust pipe is connected with the three-way valve;
the vacuum pump is connected with the three-way valve through the second air exhaust pipe, and the second air exhaust pipe is provided with a one-way valve;
the negative pressure switch is connected with the three-way valve through the negative pressure pipe.
Optionally, the vacuum grain storage barrel further comprises a cylindrical handle;
a circular groove is formed in the upper surface of the barrel cover, the lower end of the handle is connected with the bottom of the groove, and the upper end of the handle and the upper surface of the barrel cover are located in the same plane;
the upper end face of the handle is rotatably provided with a turntable, the upper end face of the handle is provided with a fixed pointer, and an extension line of the fixed pointer passes through the center of the turntable; the turntable is provided with a plurality of separation lines distributed along the radial direction, the plurality of separation lines equally divide the turntable into a plurality of sector areas, and each sector area is internally provided with a label.
Optionally, the lid comprises a base plate and a lid;
the top cover is arranged on the bottom plate, and the accommodating space is arranged between the bottom plate and the top cover;
the lower surface of bottom plate is provided with the boss, the cover is equipped with the cavity sealing washer on the boss, the cavity sealing washer superpose in the bung with between the ladle body.
Optionally, the vacuum grain storage barrel further comprises an illuminating device, a buzzer and a plurality of indicator lamps;
the lighting device comprises a transparent visual window, a lighting lamp and a vibration sensor, and the buzzer, the lighting lamp and the vibration sensor are all electrically connected with the controller;
a first through hole is formed in the bottom plate, the illuminating lamp is arranged in the first through hole, and sealant is poured between the illuminating lamp and the hole wall of the first through hole;
the transparent visual window is arranged on the barrel body;
a plurality of second through holes are formed in the top cover, and the indicator lamps are arranged in one-to-one correspondence with the second through holes.
Further, a control method of the vacuum grain storage barrel capable of automatically inducing air exhaust, which is applied to the vacuum grain storage barrel,
the control method comprises the following steps:
controlling the buzzer, the indicator light and the air exhaust mechanism to enter the following working states according to the acquired on-off information of the first Hall sensor and the second Hall sensor:
if the first Hall sensor and the second Hall sensor are not in a conducting state at the same time, controlling the buzzer to alarm and/or the indicator light to flash;
if the first Hall sensor and the second Hall sensor are in a conducting state at the same time, controlling the air exhaust mechanism to extract the gas in the barrel body, and acquiring a pressure value in the barrel body through the negative pressure switch;
when the pressure value in the barrel body reaches a set value, controlling the air exhaust mechanism to be closed;
and when the pressure value in the barrel body does not reach the set value after the set time, controlling the buzzer to give an alarm and/or controlling the indicator lamp to flicker.
Optionally, before controlling the buzzer, the indicator light, and the air pumping mechanism to enter the following working states according to the acquired on-off information of the first hall sensor and the second hall sensor, the method further includes:
the barrel cover is arranged on the barrel body, the first ends of the first lock catch and the second lock catch are connected with the barrel body, and the second ends of the first lock catch and the second lock catch are connected with the barrel cover.
Optionally, controlling on and off of the illuminating lamp according to the acquired switching information of the vibration sensor; wherein, the vibration sensor is used for obtaining the vibration information of the grain storage barrel.
(III) advantageous effects
The containing space is arranged in the barrel cover, and the controller, the vacuumizing device and the air inlet device are all arranged in the containing space, so that the controller, the vacuumizing device and the air inlet device are effectively protected, and the overall attractiveness of the vacuum grain storage barrel is improved;
the power supply supplies power to the vacuum grain storage barrel without connecting a power line, so that the pet is prevented from being accidentally injured by household electricity; the built-in power supply is convenient to carry and use when going out;
the negative pressure switch is connected with the air extraction mechanism, and when the negative pressure switch detects that the pressure value in the barrel body is reduced to a set pressure value in real time during vacuum extraction, the controller controls the air extraction mechanism to stop working, so that a vacuum environment is formed in the barrel body, the vacuum environment is more favorable for storing pet grains, and the grain storage time is prolonged;
the barrel cover is covered on the barrel body, the barrel cover is tightly pressed on the barrel body through the first lock catch and the second lock catch, the inner part of the barrel body is in a sealed state, and air leakage between the barrel cover and the barrel body cannot occur during subsequent vacuumizing. The barrel cover and the barrel body are tightly pressed together all the time due to the first lock catch and the second lock catch, so that air leakage is avoided at ordinary times, the pressure maintaining time is longer, repeated vacuum pumping caused by air leakage is not needed, and the power consumption is less;
first hasp and second hasp are connected to on ladle body and the bung simultaneously after, inlet port self-closing, and the automatic start evacuation need not additional operation, and the simple operation avoids not being in the vacuum environment because of the user forgets to start the grain in the bucket because of the user, shortens the storage time of grain.
Drawings
FIG. 1 is a perspective view of the auto-induction air-extracting vacuum grain storage barrel of the present invention;
FIG. 2 is a front view of the auto-induction pumped vacuum grain storage barrel of the present invention;
FIG. 3 is an exploded view of the auto-induction pumped vacuum grain storage barrel of the present invention;
FIG. 4 is a sectional view of the auto-induction pumped vacuum grain storage barrel of the present invention;
FIG. 5 is an enlarged view taken at A in FIG. 4;
FIG. 6 is a sectional view of the auto-induction pumped vacuum grain storage barrel of the present invention;
FIG. 7 is an enlarged view at B in FIG. 6;
FIG. 8 is a schematic view of the inner structure of the barrel lid of the vacuum grain storage barrel with automatic induction air extraction of the present invention;
FIG. 9 is a sectional view of the auto-induction pumping vacuum grain storage barrel of the present invention;
FIG. 10 is an exploded view of the handle of the auto-induction pumped vacuum grain storage bin of the present invention;
FIG. 11 is a schematic structural view of the vacuum-pumping device of the vacuum grain storage barrel with automatic induction pumping of the present invention;
fig. 12 is a flow chart of the control method of the vacuum grain storage barrel with automatic induction air suction of the invention.
[ description of reference ]
1: a barrel body;
2: a barrel cover; 21: a base plate; 22: a top cover; 23: a hollow seal ring;
3: a controller;
4: a vacuum pumping device; 41: a power source; 42: an inductive switch; 421: a first Hall sensor; 422: a second Hall sensor;
43: an air extraction mechanism; 430: a vacuum pump; 431: a first exhaust tube; 432: a second extraction tube; 433: a three-way valve; 434: a negative pressure tube; 435: a one-way valve;
44: a negative pressure switch;
5: an air intake device; 50: a sealing mechanism; 501: sealing the column; 502: a spring; 503: pressing a key; 504: mounting holes; 505: a seal ring; 51: an air inlet;
6: a locking device; 61: a first lock catch; 610: a connecting portion; 611: a first mounting portion; 614: hinging a shaft; 615: a first locking projection;
62: a second lock catch; 631: a first magnet; 632: a second magnet; 641: a first platen; 642: a second platen;
7: a handle; 71: a turntable;
81: a transparent visual window; 82: an illuminating lamp; 83: a vibration sensor;
9: a buzzer.
10: indicating lamp
Detailed Description
For the purpose of better explaining the present invention and to facilitate understanding, the present invention will be described in detail by way of specific embodiments with reference to the accompanying drawings. Where directional terms such as "upper", "lower", etc. are used herein, reference is made to the orientation of fig. 1.
While exemplary embodiments of the invention are shown in the drawings, it should be understood that the invention can be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art.
As shown in fig. 1 to 3, the invention provides an automatic induction air-extracting vacuum grain storage barrel, which comprises a barrel body 1, a barrel cover 2, a controller 3, a vacuum-extracting device 4, an air inlet device 5 and a locking device 6. The barrel cover 2 is matched with the barrel body 1 through a hollow sealing ring 23 to seal the barrel body 1 and is used for storing pet food. The containing space is arranged in the barrel cover 2, and the controller 3, the vacuumizing device 4 and the air inlet device 5 are arranged in the containing space, so that the controller 3, the vacuumizing device 4 and the air inlet device 5 are effectively protected, and the overall attractiveness of the vacuum grain storage barrel is improved. The controller 3 adopts a conventional control circuit to realize the control flow in the invention, and the controller 3 is connected with a main power supply 41 switch. The vacuum pumping device 4 includes a power source 41, an inductive switch 42, an air-extracting mechanism 43, and a negative pressure switch 44. The power supply 41, the inductive switch 42, the air exhaust mechanism 43 and the negative pressure switch 44 are all electrically connected with the controller 3, the electrical connection comprises wire connection and signal connection, the built-in power supply 41 is preferably a lithium battery, and the lithium battery is charged through a charger in the later period. The power supply 41 supplies power to the vacuum grain storage barrel without connecting a power supply 41 line, so that the pet is prevented from being accidentally injured by household electricity; the built-in power supply 41 is also convenient to carry and use outside. The negative pressure switch 44 is preferably an electronic pressure switch, which senses pressure through a diaphragm, converts a physical signal into an electric signal through a pressure sensor, amplifies and processes the electric signal into a standard analog signal through an amplifying circuit in control, and outputs the standard analog signal or a solid-state relay. The inlet of the air suction mechanism 43 is communicated with the interior of the tub 1 to suck air in the tub 1. The negative pressure switch 44 is connected with the air suction mechanism 43, and when the negative pressure switch 44 detects that the pressure value in the barrel body 1 is reduced to the set pressure value in real time during vacuum pumping, the controller 3 controls the air suction mechanism 43 to stop working, so that a vacuum environment is formed in the barrel body 1, the vacuum environment is more favorable for storing pet food, and the food storage time is prolonged. Air inlet unit 5 includes inlet port 51 and sealing mechanism 50, and the export of inlet port 51 communicates with the inside of ladle body 1, and sealing mechanism 50 can open or close the entry of inlet port 51, when needing to open ladle lid 2, opens inlet port 51 completely through sealing mechanism 50, and the outside air gets into in ladle body 1 in the twinkling of an eye, breaks the vacuum environment in ladle body 1, alright open ladle lid 2 with quick this moment, need not to wait for the process of letting out the vacuum, reaches the effect of letting out the vacuum in the twinkling of an eye.
As shown in fig. 1 to 3, the barrel 1 and the barrel cover 2 are locked and pressed together by the locking device 6, and a closed structure is formed inside the barrel 1. The locking device 6 comprises a first lock catch 61 and a second lock catch 62 which are oppositely arranged, the first ends of the first lock catch 61 and the second lock catch 62 can be detachably connected with the barrel body 1, and the second ends of the first lock catch and the second lock catch 62 can be detachably connected with the barrel cover 2. The first and second latches 61 and 62 are mounted at a set of opposite side walls of the tub 1, respectively. The barrel cover 2 covers the barrel body 1, the barrel cover 2 is tightly pressed on the barrel body 1 through the first lock catch 61 and the second lock catch 62, the inside of the barrel body 1 is guaranteed to be in a sealing state, and air cannot leak between the barrel cover 2 and the barrel body 1 during subsequent vacuumizing. Because the first lock catch 61 and the second lock catch 62 tightly press the barrel cover 2 and the barrel body 1 together, air leakage does not occur at ordinary times, the pressure maintaining time is longer, repeated vacuum pumping caused by air leakage is not needed, and the power consumption is less. A first trigger component and a second trigger component are arranged in the first lock catch 61 and the second lock catch 62; when ladle body 1 and bung 2 all are connected with first hasp 61 and all are connected with second hasp 62, also promptly after ladle body 1 and bung 2 carry out sealed fixed through first hasp 61 and second hasp 62, first trigger subassembly in first hasp 61 and the second hasp 62 all is close to inductive switch 42, produce electromagnetic induction between first trigger subassembly and the inductive switch 42, first trigger subassembly can trigger inductive switch 42 closed, the mechanism 43 that bleeds forms closed loop, the mechanism 43 that bleeds just this moment can start the mechanism 43 that bleeds and carry out the operation of bleeding. After the barrel body 1 and the barrel cover 2 are sealed and fixed through the first lock catch 61 and the second lock catch 62, the second trigger assembly abuts against the sealing mechanism 50, the sealing mechanism 50 is inserted into the air inlet hole 51, the inlet of the air inlet hole 51 is closed, and air leakage is avoided. After the first lock catch 61 and the second lock catch 62 are connected to the barrel body 1 and the barrel cover 2 simultaneously, the air inlet hole 51 is automatically closed, the vacuumizing is automatically started, additional operation is not needed, the operation is convenient and fast, the situation that grains in the barrel are not in a vacuum environment due to the fact that a user forgets to start the vacuumizing is avoided, and the storage time of the grains is shortened.
As shown in fig. 2 and 3, the inductive switch 42 includes a first hall sensor 421 and a second hall sensor 422, the first hall sensor 421 is installed at an inner side of a first side wall close to the tub cover 2, the second hall sensor 422 is close to an inner side of a second side wall of the tub cover 2, and the inner side of the first side wall of the tub cover 2 and the inner side of the second side wall are oppositely disposed. The first trigger component in the first latch 61 is a first magnet 631, the first trigger component in the second latch 62 is a second magnet 632, the first magnet 631 and the second magnet 632 both adopt permanent magnets, the first magnet 631 is fixedly mounted in the first latch 61, and the second magnet 632 is fixedly mounted in the second latch 62. When the barrel body 1 and the barrel cover 2 are both connected with the first latch 61 and the second latch 62, the first latch 61 is connected with the first sidewall of the barrel cover 2, the first magnet 631 is close to the first hall sensor 421, the second latch 62 is connected with the second sidewall of the barrel cover 2, and the second magnet 632 is close to the second hall sensor 422. The Hall sensor is a magnetic field sensor manufactured according to the Hall effect, the Hall voltage changes along with the change of the magnetic field intensity, the stronger the magnetic field is, the higher the voltage is, the weaker the magnetic field is, the lower the voltage is, the Hall voltage is amplified by an amplifier in an integrated circuit, and the voltage can be amplified to be enough to output a stronger signal. If the Hall IC is used for sensing, the magnetic induction intensity needs to be changed mechanically. In the present invention, when the first magnet 631 and the second magnet 632 are respectively close to the first hall sensor 421 and the second hall sensor 422 in a one-to-one correspondence manner, the first hall sensor 421 and the second hall sensor 422 both generate hall voltages, the hall voltages are amplified and then input to corresponding modules of the controller 3 as electrical signals, and only when the first hall sensor 421 and the second hall sensor 422 generate hall voltages at the same time, the controller 3 controls the air pumping mechanism 43 to be opened to pump air in the tub. Avoid because of first hasp 61 and/or second hasp 62 not the lock and mistake pneumatic air exhaust mechanism 43, when first hasp 61 and/or second hasp 62 were the lock, bung 2 did not compress tightly on ladle body 1, had the risk of gas leakage, even start air exhaust mechanism 43 and bleed and also can't be taken out into vacuum in the bucket, under the condition that the user is unknown, can't protect the grain in the bucket effectively promptly, the electric energy of loss again.
As shown in fig. 3 and 4, the second trigger component in the first latch 61 is a first pressing plate 641, the second trigger component in the second latch 62 is a second pressing plate 642, the first pressing plate 641 is vertically connected to the inner wall of the first latch 61, and the second pressing plate 642 is vertically connected to the inner wall of the second latch 62. When the barrel 1 and the barrel cover 2 are both connected to the first latch 61 and the second latch 62, the top end of the first pressing plate 641 abuts against the sealing mechanism 50. Set up first clamp plate 641 and second clamp plate 642, the user need not to distinguish when using positive and negative, even first hasp 61 is connected the second lateral wall of bung 2 and the first lateral wall of bung 2 is connected to second hasp 62, also can promote sealing mechanism 50 sealed inlet port 51, easy operation has improved user experience. Specifically, referring to fig. 4 and 5, the sealing mechanism 50 is provided only at a side where the intake hole 51 is installed, wherein the sealing mechanism 50 includes a sealing post 501, a spring 502, and a push button 503. The first side wall of the barrel cover 2 is provided with a mounting hole 504, and the opening of the air inlet hole 51 is close to and opposite to the inner side of the first side wall of the barrel cover 2. The central axis of the mounting hole 504 is collinear with the central axis of the air inlet hole 51, and the first end opening of the mounting hole 504 is close to the air inlet hole 51. The spring 502 is disposed in the mounting hole 504, and a first end of the spring 502 is connected to a first end of the mounting hole 504. The key 503 is slidably sleeved in the mounting hole 504, a second end of the key 503 is provided with a limiting protrusion to prevent the key 503 from falling out of the mounting hole 504, and the second end of the key 503 is connected with the second end of the spring 502. The spring 502 is pre-compressed between the second end of the button 503 and the first end of the mounting hole 504, and the first end of the button 503 protrudes from the mounting hole 504 to be exposed outside the first sidewall of the tub cover 2 by the elastic force of the spring 502. The sealing column 501 is sleeved in the spring 502, a first end of the sealing column 501 is connected with a second end of the key 503, and a plurality of sealing rings 505 are arranged at the second end of the sealing column 501. When the first latch 61 or the second latch 62 is not installed, the second end of the sealing column 501 is separated from the air intake hole 51 under the elastic force of the spring 502, and the air intake hole 51 is in an open state. Since it is not necessary to distinguish between the first lock 61 and the second lock 62 in which the pressure plate abuts against the air intake device 5, the pressure plate of the first lock 61 abuts against the air intake device 5. When the barrel body 1 and the barrel cover 2 are both connected with the first lock catch 61, the first press plate 641 is abutted to the press key 503, the press key 503 is pushed by the first press plate 641 to move axially along the mounting hole 504, so as to push the sealing column 501 to move towards the direction close to the air inlet hole 51, the second end of the sealing column 501 is inserted into the air inlet hole 51, the plurality of sealing rings 505 are all located between the inner wall of the air inlet hole 51 and the outer wall of the second end of the sealing column 501, the plurality of sealing rings 505 seal the air inlet hole 51, the air inlet hole 51 is in a sealed state, when the first lock catch 61 is not removed, the air inlet hole 51 is always kept in a sealed state, and the barrel cover 2 and the barrel body 1 form a sealed barrel, so that the vacuumizing operation can be performed. After the first lock catch 61 is detached, under the action of the elastic force of the spring 502, the key 503 moves towards the direction far away from the air inlet hole 51, the key 503 extends out of the barrel cover 2, the key 503 drives the sealing column 501 to move together, the second end of the sealing column 501 is pulled out of the air inlet hole 51, the air inlet hole 51 is completely in an open state, air enters the barrel through the air inlet hole 51 instantly, the vacuum state in the barrel is broken, and the barrel cover 2 can be opened. After the vacuum is released, the cover is opened, the system senses that the lock catch is in an open state through the Hall sensor, the Hall sensor does not generate Hall voltage, the system automatically enters a dormant state, and the standby time is prolonged.
Referring to fig. 2 to 7, the first locking device 61 and the second locking device 62 can adopt a plurality of different structures, and the following two embodiments are adopted in the present invention for illustration: in the first embodiment, each of the first and second latches 61 and 62 includes a first mounting portion 611 and a connecting portion 610 connected to each other. The connecting portion 610 of the first latch 61 is hinged to a first sidewall of the tub 1, the connecting portion 610 of the second latch 62 is hinged to a second sidewall of the tub 1, and the first sidewall and the second sidewall of the tub 1 are disposed opposite to each other. The hinge shaft 614 of the first locker 61 is parallel to the first sidewall, and the hinge shaft 614 of the second locker 62 is parallel to the second sidewall of the tub 1. The first mounting portion 611 is detachably connected to the barrel cover 2, referring to fig. 6 and 7, a corresponding first locking protrusion 615 is disposed on the barrel cover 2, the barrel cover 2 is placed on the barrel body 1, the first locking catch 61 and the second locking catch 62 are turned upwards, the first mounting portions 611 of the first locking catch 61 and the second locking catch 62 are sleeved on the corresponding first locking protrusion 615, the first mounting portion 611 is clamped by the first locking protrusion 615 and the first mounting portion 611 in a matching manner, and the first mounting portion 611 provides a downward pulling force to the barrel cover 2, so that the barrel cover 2 is pressed on the barrel body 1. The first trigger assembly and the second trigger assembly are disposed in the first mounting portion 611, when the first mounting portion 611 is connected to the barrel cover 2, the magnet abuts against the sidewall of the barrel cover 2 to trigger the inductive switch 42, and meanwhile, the first pressing plate 641 abuts against the key 503, and the sealing ring 505 seals the air inlet 51. In the second embodiment, the first lock catch 61 and the second lock catch 62 each include a second mounting portion and a third mounting portion connected to each other. Corresponding second locking bulges are arranged on the barrel cover 2 and the barrel body 1, the second mounting part is detachably connected with the second locking bulges on the barrel cover 2, the third mounting part is detachably connected with the third locking bulges on the barrel body 1, and the first lock catch 61 and the second lock catch 62 are taken down when the barrel cover 2 is opened. Similarly, the first trigger component and the second trigger component are both arranged in the second mounting part.
As shown in fig. 8, the suction mechanism 43 includes a vacuum pump 430, a first suction pipe 431, a second suction pipe 432, a three-way valve 433, and a negative pressure pipe 434. Wherein, the vacuum pump 430 is electrically connected with the controller 3, a first end of the first suction pipe 431 is communicated with the inside of the tub 1, and a second end of the first suction pipe 431 is connected with the three-way valve 433. The vacuum pump 430 is connected with the three-way valve 433 through the second air exhaust pipe 432, the one-way valve 435 is arranged on the second air exhaust pipe 432, and only when the vacuum pump 430 exhausts air, the one-way valve 435 is opened, so that the phenomenon that the air flows backwards into the barrel through the vacuum pump 430 is avoided. The negative pressure switch 44 is connected with a three-way valve 433 through a negative pressure pipe 434, and the pressure in the barrel is detected in real time.
As shown in fig. 9 and 10, the vacuum grain storage barrel further comprises a cylindrical handle 7. The upper surface of the barrel cover 2 is provided with a circular groove, the lower end of the handle 7 is fixedly arranged at the bottom of the groove through a screw, the upper end surface of the handle 7 and the upper surface of the barrel cover 2 are positioned in the same plane, the handle 7 is hidden in the groove, the overall attractiveness is improved, a protection piece does not need to be arranged for the handle 7 in the packaging and transporting processes, and the vacuum grain storage barrel is convenient to package and transport. The upper end face of the handle 7 is rotatably provided with a rotating disc 71, the upper end face of the handle 7 is provided with a fixed pointer, and the extension line of the fixed pointer passes through the center of the rotating disc 71. The rotating disc 71 is provided with a plurality of separation lines distributed along the radial direction, the separation lines divide the rotating disc 71 into a plurality of fan-shaped areas equally, and each fan-shaped area is provided with a label. The number can be 1 to 12, each number represents a month, and when a certain number rotates to the position of the fixed pointer, the number represents the putting date or the quality guarantee period of the grains in the grain storage barrel. A plurality of turntables 71 can be provided to represent each digit of the date, such as year, month, day, etc., and other symbols besides numbers can be used for labeling.
Referring to fig. 3, 4 and 5, the tub cover 2 includes a bottom plate 21 and a top cover 22. The top cover 22 is disposed on the bottom plate 21, and an accommodating space is disposed between the bottom plate 21 and the top cover 22. A plurality of mounting frames are provided on the base plate 21 for mounting the controller 3, the vacuum-pumping device 4 and the air-intake device 5. The lower surface of bottom plate 21 is provided with the boss, and the cover is equipped with hollow sealing ring 23 on the boss, and hollow sealing ring 23 superposes between bung 2 and ladle body 1 for the clearance between sealed bung 2 and the ladle body 1.
Preferably, as shown in fig. 1 and 11, the vacuum grain storage barrel further comprises an illuminating device, a buzzer 9 and a plurality of indicator lights 10. The illuminating device comprises a transparent visual window 81, an illuminating lamp 82 and a vibration sensor 83, the buzzer 9, the illuminating lamp 82 and the vibration sensor 83 are all electrically connected with the controller 3, and the illuminating lamp 82 is preferably an LED lamp. The transparent visual window 81 is arranged on the barrel body 1, the bottom plate 21 is provided with a first through hole, the illuminating lamp 82 is arranged in the first through hole, and sealant is filled between the illuminating lamp 82 and the inner wall of the first through hole so as to avoid air leakage. When the illuminating lamp 82 is turned on, the illuminating lamp 82 illuminates the inside of the barrel body 1, and the user observes the residual food in the barrel through the transparent visual window 81. According to the invention, the conventional vibration sensor 83 such as a spring 502 or a ball is adopted, when a user knocks the vacuum grain storage barrel, the grain storage barrel vibrates, the vibration sensor 83 conducts an internal circuit due to vibration, a high level is generated and input into the controller 3, the controller 3 controls the illuminating lamp 82 to be turned on and irradiate the inside of the barrel body, after the set time length, the time length is generally 5-20 seconds, and the controller 3 controls the illuminating lamp 82 to be turned off, so that the electric energy is saved. In addition, the top cover 22 is further provided with a plurality of second through holes, the plurality of indicator lights and the plurality of second through holes are arranged in a one-to-one correspondence manner, the number of the indicator lights is preferably 4, the number of the second through holes is also 4, the indicator lights 10 are electrically connected with the controller 3, the 4 indicator lights can be used for displaying the battery power, several lights are turned on according to the corresponding battery power, and 4 lights are all turned on and are fully charged; only one lamp is on, and the power is low; and the lamp can also flash to play a warning function.
Further, as shown in fig. 12, the present invention further provides a control method of a vacuum grain storage barrel with automatic induction air extraction, the control method is applied to the vacuum grain storage barrel, and the control method includes:
the controller 3 controls the buzzer 9, the indicator light 10 and the air pumping mechanism 43 to enter the following working states according to the acquired on-off information of the first hall sensor 421 and the second hall sensor 422 (wherein, the on-off information of the hall sensors is represented by hall voltages, and if the hall sensors generate the hall voltages, the hall sensors are represented in a conducting state):
if the first hall sensor 421 and the second hall sensor 422 are not in the on state at the same time, it indicates that the first latch 61 and/or the second latch 62 are not latched or fall off, the controller 3 controls the buzzer 9 to alarm and/or the indicator light 10 to flash for prompting the user; the system enters a standby state which is a low power consumption state, so that the aim of saving power is fulfilled;
if the first hall sensor 421 and the second hall sensor 422 are in a conducting state at the same time, the controller 3 controls the vacuum pump 430 to pump the gas in the toilet bowl 1, and obtains the pressure value in the toilet bowl 1 through the negative pressure switch 44;
when the pressure value in the barrel body 1 reaches a set value, the controller 3 controls the vacuum pump 430 to be closed, the closed structure of the vacuum grain storage barrel keeps the vacuum environment in the barrel, and when the negative pressure switch 44 detects that the pressure value in the barrel is higher than the set value, the controller 3 controls the vacuum pump 430 to be pneumatic again to extract air in the barrel until the pressure value reaches the set value, and then the vacuum pump 430 is controlled to be closed;
when the pressure value in the barrel body 1 does not reach the set value after the set time, which indicates that the vacuum grain storage barrel leaks air, the controller 3 controls the buzzer 9 to alarm and/or the indicator lamp 10 to flash, so as to prompt the user of air leakage.
Before controlling the buzzer 9, the indicator light 10 and the air pumping mechanism 43 to enter the following working states according to the acquired on-off information of the first hall sensor 421 and the second hall sensor 422, the method further comprises the following steps: the barrel cover 2 is arranged on the barrel body 1, the first ends of the first lock catch 61 and the second lock catch 62 are connected with the barrel body 1, and the second ends of the first lock catch and the second lock catch 62 are connected with the barrel cover 2.
Controlling the on-off of the illuminating lamp 82 according to the acquired on-off information of the vibration sensor 83; wherein, the vibration sensor 83 is used for obtaining the vibration information of the grain storage barrel.
The containing space is arranged in the barrel cover 2, and the controller 3, the vacuumizing device 4 and the air inlet device 5 are all arranged in the containing space, so that the controller 3, the vacuumizing device 4 and the air inlet device 5 are effectively protected, and the overall attractiveness of the vacuum grain storage barrel is improved; the power supply 41 supplies power to the vacuum grain storage barrel without connecting a power supply 41 line, so that the pet is prevented from being accidentally injured by household electricity; the built-in power supply 41 is also convenient for carrying and using when going out; the negative pressure switch 44 is connected with the air extraction mechanism 43, and after the negative pressure switch 44 detects that the pressure value in the barrel body 1 is reduced to the set pressure value in real time during vacuum extraction, the controller 3 controls the air extraction mechanism 43 to stop working, so that a vacuum environment is formed in the barrel body 1, the vacuum environment is more favorable for storing pet grains, and the grain storage time is prolonged; the barrel cover 2 covers the barrel body 1, the barrel cover 2 is tightly pressed on the barrel body 1 through the first lock catch 61 and the second lock catch 62, the inside of the barrel body 1 is guaranteed to be in a sealing state, and air cannot leak between the barrel cover 2 and the barrel body 1 during subsequent vacuumizing. Because the first lock catch 61 and the second lock catch 62 tightly press the barrel cover 2 and the barrel body 1 together all the time, air leakage does not occur at ordinary times, the pressure maintaining time is longer, repeated vacuum pumping caused by air leakage is not needed, and the power consumption is less; after the first lock catch 61 and the second lock catch 62 are connected to the barrel body 1 and the barrel cover 2 simultaneously, the air inlet hole 51 is automatically closed, the vacuumizing is automatically started, additional operation is not needed, the operation is convenient and fast, the situation that grains in the barrel are not in a vacuum environment due to the fact that a user forgets to start the vacuumizing is avoided, and the storage time of the grains is shortened.
In the description of the present invention, it is to be understood that the terms "first", "second", and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or to imply that the number of technical features indicated are in fact significant. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.
In the present invention, unless otherwise explicitly stated or limited, the terms "mounted," "connected," "fixed," and the like are to be construed broadly, e.g., as being permanently connected, detachably connected, or integral; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium; either internal to the two elements or in an interactive relationship of the two elements. The specific meanings of the above terms in the present invention can be understood according to specific situations by those of ordinary skill in the art.
In the present invention, unless otherwise expressly stated or limited, a first feature may be "on" or "under" a second feature, and the first and second features may be in direct contact, or the first and second features may be in indirect contact via an intermediate. Also, a first feature "on," "above," and "over" a second feature may be directly or obliquely above the second feature, or simply mean that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature may be directly under or obliquely under the second feature, or may simply mean that the first feature is at a lower level than the second feature.
In the description herein, the description of the terms "one embodiment," "some embodiments," "an embodiment," "an example," "a specific example" or "some examples" or the like, means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, various embodiments or examples and features of different embodiments or examples described in this specification can be combined and combined by one skilled in the art without contradiction.
Although embodiments of the present invention have been shown and described above, it should be understood that the above embodiments are illustrative and not restrictive, and that those skilled in the art may make changes, modifications, substitutions and alterations to the above embodiments without departing from the scope of the present invention.

Claims (10)

1. The utility model provides an automatic vacuum storage grain bucket that response was bled which characterized in that, the vacuum storage grain bucket includes: the device comprises a barrel body, a barrel cover, a controller, a vacuumizing device, an air inlet device and a locking device;
the barrel cover can be matched with the barrel body to seal the barrel body, an accommodating space is arranged in the barrel cover, and the controller, the vacuumizing device and the air inlet device are all arranged in the accommodating space;
the vacuum pumping device comprises a power supply, an inductive switch, an air pumping mechanism and a negative pressure switch which are electrically connected with the controller; the inlet of the air pumping mechanism is communicated with the inside of the barrel body, and the negative pressure switch is connected with the air pumping mechanism;
the air inlet device comprises an air inlet hole and a sealing mechanism, an outlet of the air inlet hole is communicated with the interior of the barrel body, and the sealing mechanism can open or close an inlet of the air inlet hole;
the locking device comprises a first lock catch and a second lock catch which are oppositely arranged, the first ends of the first lock catch and the second lock catch can be detachably connected with the barrel body, and the second ends of the first lock catch and the second lock catch can be detachably connected with the barrel cover; a first trigger assembly and a second trigger assembly are arranged in the first lock catch and the second lock catch respectively; when the barrel body and the barrel cover are both connected with the first lock catch and the second lock catch, the first trigger assemblies of the first lock catch and the second lock catch trigger the inductive switch to be closed at the same time, and the second trigger assemblies of the first lock catch or the second lock catch trigger the sealing mechanism to close the inlet of the air inlet; after the first lock catch and the second lock catch are connected to the barrel body and the barrel cover at the same time, the air inlet hole is automatically closed, and vacuumizing is automatically started;
the inductive switch comprises a first Hall sensor and a second Hall sensor, the first Hall sensor is close to the inner side of the first side wall of the barrel cover, the second Hall sensor is close to the inner side of the second side wall of the barrel cover, and the inner side of the first side wall of the barrel cover and the inner side of the second side wall of the barrel cover are oppositely arranged;
the first trigger component in the first lock catch is a first magnet, and the first trigger component in the second lock catch is a second magnet;
when the barrel body and the barrel cover are both connected with the first lock catch and the second lock catch, the first lock catch is connected with a first side wall of the barrel cover, the first magnet is close to the first Hall sensor, the second lock catch is connected with a second side wall of the barrel cover, and the second magnet is close to the second Hall sensor;
the second trigger assembly in the first lock catch is a first pressure plate, and the second trigger assembly in the second lock catch is a second pressure plate; the first pressing plate is vertically connected with the inner wall of the first lock catch, and the second pressing plate is vertically connected with the inner wall of the second lock catch;
when the barrel body and the barrel cover are both connected with the first lock catch and the second lock catch, the first pressing plate abuts against the sealing mechanism;
the sealing mechanism comprises a sealing column, a spring and a key;
a mounting hole is formed in the first side wall of the barrel cover, the central axis of the mounting hole is collinear with the central axis of the air inlet hole, and the first end of the mounting hole is close to the air inlet hole;
the spring is sleeved in the mounting hole, and the first end of the spring is connected with the first end of the mounting hole;
the key is sleeved in the mounting hole in a sliding manner, the first end of the key can extend out of the mounting hole, and the second end of the key is connected with the second end of the spring;
the sealing column is sleeved in the spring, the first end of the sealing column is connected with the second end of the key, and the second end of the sealing column is provided with a plurality of sealing rings;
when the barrel body and the barrel cover are connected with the first lock catch, the first pressing plate is abutted to the key, and the second end of the sealing column is sleeved in the air inlet.
2. The auto-induction pumped vacuum grain storage bucket according to claim 1, wherein the first lock catch and the second lock catch each comprise a first mounting portion and a connecting portion that are connected to each other;
the connecting part of the first lock catch is hinged to the first side wall of the barrel body, the connecting part of the second lock catch is hinged to the second side wall of the barrel body, the first side wall and the second side wall of the barrel body are oppositely arranged, the hinged shaft of the first lock catch is parallel to the first side wall, and the hinged shaft of the second lock catch is parallel to the second side wall of the barrel body;
the first installation part is detachably connected with the barrel cover, and the first trigger assembly and the second trigger assembly are arranged in the first installation part.
3. The vacuum grain storage barrel with automatic induction air exhaust function as claimed in claim 1, wherein the first lock catch and the second lock catch both comprise a second mounting part and a third mounting part which are connected with each other;
the second mounting part is detachably connected with the barrel cover, and the third mounting part is detachably connected with the barrel body;
the first trigger assembly and the second trigger assembly are both arranged in the second mounting part.
4. The vacuum grain storage barrel with automatic induction air exhaust of claim 1, wherein the air exhaust mechanism comprises a vacuum pump, a first air exhaust pipe, a second air exhaust pipe, a three-way valve and a negative pressure pipe;
the vacuum pump is electrically connected with the controller;
the first end of the first air exhaust pipe is communicated with the interior of the barrel body, and the second end of the first air exhaust pipe is connected with the three-way valve;
the vacuum pump is connected with the three-way valve through the second air exhaust pipe, and the second air exhaust pipe is provided with a one-way valve;
the negative pressure switch is connected with the three-way valve through the negative pressure pipe.
5. The auto-induction pumped vacuum grain storage bin of claim 1 further comprising a cylindrical handle;
a circular groove is formed in the upper surface of the barrel cover, the lower end of the handle is connected with the bottom of the groove, and the upper end of the handle and the upper surface of the barrel cover are located in the same plane;
the upper end face of the handle is rotatably provided with a turntable, the upper end face of the handle is provided with a fixed pointer, and an extension line of the fixed pointer passes through the center of the turntable; the turntable is provided with a plurality of separation lines distributed along the radial direction, the turntable is equally divided into a plurality of fan-shaped areas by the separation lines, and each fan-shaped area is internally provided with a label.
6. The vacuum grain storage barrel with automatic induction air exhaust function as claimed in claim 1, wherein the barrel cover comprises a bottom plate and a top cover;
the top cover is arranged on the bottom plate, and the accommodating space is arranged between the bottom plate and the top cover;
the lower surface of bottom plate is provided with the boss, the cover is equipped with the cavity sealing washer on the boss, the cavity sealing washer superpose in the bung with between the ladle body.
7. The vacuum grain storage barrel with automatic induction air exhaust function as claimed in claim 6, characterized in that the vacuum grain storage barrel further comprises a lighting device, a buzzer and a plurality of indicator lamps;
the lighting device comprises a transparent visual window, a lighting lamp and a vibration sensor, and the buzzer, the lighting lamp and the vibration sensor are all electrically connected with the controller;
a first through hole is formed in the bottom plate, the illuminating lamp is arranged in the first through hole, and sealant is poured between the illuminating lamp and the hole wall of the first through hole;
the transparent visual window is arranged on the barrel body;
a plurality of second through holes are formed in the top cover, and the indicator lamps are arranged in one-to-one correspondence with the second through holes.
8. A control method of a vacuum grain storage barrel capable of automatically inducing air suction is applied to the vacuum grain storage barrel in claim 7, and comprises the following steps:
controlling the buzzer, the indicator light and the air exhaust mechanism to enter the following working states according to the acquired on-off information of the first Hall sensor and the second Hall sensor:
if the first Hall sensor and the second Hall sensor are not in the conducting state at the same time, controlling the buzzer to alarm and/or the indicator light to flash;
if the first Hall sensor and the second Hall sensor are in a conducting state at the same time, controlling the air exhaust mechanism to extract the gas in the barrel body, and acquiring a pressure value in the barrel body through the negative pressure switch;
when the pressure value in the barrel body reaches a set value, controlling the air exhaust mechanism to be closed;
and when the pressure value in the barrel body does not reach the set value after the set time, controlling the buzzer to give an alarm and/or controlling the indicator lamp to flicker.
9. The method for controlling the automatic induction pumping vacuum grain storage barrel according to claim 8, wherein before controlling the buzzer, the indicator light and the pumping mechanism to enter the following working states according to the acquired on-off information of the first Hall sensor and the second Hall sensor, the method further comprises the following steps:
the barrel cover is arranged on the barrel body, the first ends of the first lock catch and the second lock catch are connected with the barrel body, and the second ends of the first lock catch and the second lock catch are connected with the barrel cover.
10. The method for controlling the automatic induction pumping vacuum grain storage barrel according to claim 8, characterized in that the on-off of the illuminating lamp is controlled according to the acquired switch information of the vibration sensor; wherein, the vibration sensor is used for obtaining the vibration information of the grain storage barrel.
CN202210022165.3A 2022-01-10 2022-01-10 Vacuum grain storage barrel capable of automatically inducing air extraction and control method Active CN114275374B (en)

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