CN219206668U - Vacuum rice storage barrel capable of quantitatively taking rice - Google Patents

Abstract

The utility model relates to a vacuum rice storage barrel capable of quantitatively taking rice, which comprises a main shell, a rice storage barrel, a temporary storage barrel, a quantitative rice taking device and a vacuum device, wherein a vacuum area and a normal temperature area are arranged in the main shell, the vacuum device is arranged on the outer side of the vacuum area and is used for extracting air in the vacuum area, the rice storage barrel is arranged in the vacuum area, a first discharging hole is formed in the bottom of the rice storage barrel, a baffle fixedly connected with a sliding device is arranged at the bottom of the first discharging hole, the temporary storage barrel is arranged in the normal temperature area, and a second discharging hole at the bottom of the temporary storage barrel is aligned with the quantitative rice taking device. According to the utility model, the air in the vacuum area is extracted by the vacuum device arranged outside the vacuum area, so that rice is stored in a relatively vacuum environment, rice is effectively prevented from being wetted, the temporary storage barrel is arranged in the normal temperature area, the normal temperature area is isolated from the vacuum area, and the quantitative rice taking device is utilized to solve the problem of quantitative rice taking under the condition of not interfering with the vacuum storage of the rice storage barrel.

Description

Vacuum rice storage barrel capable of quantitatively taking rice

Technical Field

The utility model relates to the technical field of grain storage containers, in particular to a vacuum rice storage barrel capable of quantitatively taking rice.

Background

The rice barrel is a container used for storing rice, a plurality of rice barrels capable of automatically taking rice are disclosed in the market at present, for example, chinese patent application publication No. CN201711366271.9 discloses a rice storage barrel, when the rice is required to be taken, the rice barrel is driven to rotate, so that a rice inlet on the rice barrel is opposite to an outlet of a barrel body, then the rice enters the rice barrel, when the rice is full, the rice barrel is driven to rotate, the rice inlet on the rice barrel is opposite to a rice outlet, and finally the rice in the rice barrel falls from the rice outlet, so that quantitative rice taking is realized.

Although the function of quantitatively taking rice is realized, the outside air can be continuously introduced into the rice barrel after long-term use, so that the rice is equivalent to being exposed in the air, the rice can lose activity in the past for a long time, the phenomenon of dampness occurs, and the most basic function of the rice barrel is lost, so that the rice can be stored in a relatively vacuum environment while quantitatively taking the rice, the activity of the rice is more stable, the rice can be effectively prevented from being damped, and the sufficient freshness is maintained.

Disclosure of Invention

The utility model mainly aims at the problems existing in the rice storage process, and discloses a vacuum rice storage barrel capable of quantitatively taking rice, wherein a vacuum area and a normal temperature area are arranged in a main shell; the vacuum area is used for storing rice for a long time, the normal temperature area is used for taking rice through the quantitative rice taking device, the rice is stored in a relatively vacuum environment on the premise of keeping the quantitative rice taking function, and the rice can be effectively prevented from being wetted.

The utility model aims at realizing the following technical scheme: the utility model provides a can quantitative get vacuum rice storage bucket of rice, includes main casing body, stores rice bucket, stores the bucket, quantitative get rice device and vacuum apparatus, wherein, main casing body top is equipped with the upper cover that is used for cooperation pan feeding mouth one, the inside vacuum district and the normal atmospheric temperature district of being equipped with of main casing body, the outside of vacuum district is equipped with vacuum apparatus, vacuum apparatus is used for extracting the inside air of vacuum district, the inside rice bucket that stores up that is equipped with of vacuum district, it is equipped with the pan feeding mouth two of alignment pan feeding mouth one to store up rice bucket top, it is equipped with discharge gate one to store up rice bucket bottom, discharge gate one bottom is equipped with baffle one, baffle one surface is equipped with breach one, one side fixed connection slider of baffle one, slider is used for controlling baffle one back-and-forth movement, the inside barrel that stores that is equipped with of normal atmospheric temperature district, the barrel top of keeping in is equipped with the pan feeding mouth three of alignment discharge gate one, the discharge gate two of keeping in barrel bottom aligns quantitative get rice device.

Preferably, the vacuum device comprises a vacuum shell, a vacuum upper cover, a power supply, a main control board and a vacuum pump, wherein the power supply, the main control board and the vacuum pump are arranged in the vacuum shell, the vacuum shell is arranged on the outer side of the main shell, the vacuum upper cover is rotationally connected to the vacuum shell, the vacuum pump comprises an air suction port and an air outlet, the air suction port is connected into a vacuum area, and the air outlet is connected into the outside.

Preferably, the sliding device comprises a sliding rail, a sliding block and a driving rod, wherein the sliding block is connected to the sliding rail in a sliding manner, a first baffle is arranged at the top of the sliding block, and the driving rod is arranged at the outward side of the sliding block.

Preferably, the area of the first baffle minus the first notch is larger than the area of the first discharge port, and the area of the first discharge port is larger than the area of the first notch.

Preferably, the inside V type boss that still is equipped with of normal atmospheric temperature district, the inside pan feeding mouth four of alignment discharge gate two that is equipped with of V type boss, V type boss middle part is equipped with the guide post, quantitative get rice device is including getting rice post and knob, get rice post sliding connection in the guide post, it is equipped with the rectangle through-hole to get rice post surface, it is equipped with spacing piece to get rice post both sides, it is equipped with the knob to get one side of rice post.

Preferably, the area of the rectangular through holes subtracted by the rice taking column is larger than the area of the feed inlet four.

Preferably, a soft silica gel is arranged at the area of the upper cover, which is contacted with the first feeding hole, and a handle is arranged at the top of the upper cover.

Preferably, the rice storage barrel is made of elastic plastic materials.

Compared with the prior art, the utility model has the following beneficial effects: 1) According to the rice storage device, the vacuum area and the normal temperature area are arranged in the main shell, the rice storage barrel is arranged in the vacuum area, the air in the vacuum area is extracted by the vacuum device arranged on the outer side, so that rice is stored in a relatively vacuum environment, the activity of the rice storage device is more stable, and the rice can be effectively prevented from being wetted; 2) The temporary storage barrel is arranged inside the normal temperature area, the normal temperature area is isolated from the vacuum area through the baffle, and the quantitative rice taking device can be used for quantitatively taking rice under the condition of not interfering with the vacuum storage of the rice storage barrel.

Drawings

FIG. 1 is a perspective view of the present utility model;

FIG. 2 is a schematic view of the inside of the main housing of the present utility model after a middle section;

FIG. 3 is a schematic view of the rear interior of the rear section of the main housing of the present utility model;

FIG. 4 is a schematic view of the rear interior of the upper half of the main housing of the present utility model;

FIG. 5 is a schematic view of the rear interior of the upper half of the main housing of the present utility model;

FIG. 6 is a perspective view of a vacuum apparatus of the present utility model;

fig. 7 is a schematic view of the usage state of the present utility model.

The marks in the figure: 1. a main housing; 11. a first feeding port; 12. a vacuum zone; 13. a normal temperature region; 2. a rice storage barrel; 21. a second feeding port; 22. a first discharging hole; 3. a temporary storage barrel; 31. a third feeding port; 32. a second discharging port; 4. a quantitative rice taking device; 41. taking rice columns; 42. a knob; 43. rectangular through holes; 44. a limiting piece; 5. a vacuum device; 51. a vacuum housing; 52. a vacuum upper cover; 53. a power supply; 54. a main control board; 55. a vacuum pump; 551. an air suction port; 552. an air outlet; 6. an upper cover; 7. a first baffle; 71. a notch I; 8. a sliding device; 81. a slide rail; 82. a slide block; 83. a driving rod; 9. v-shaped boss; 91. a feeding port IV; 92. and a guide post.

Detailed Description

The utility model is further described below with reference to embodiments shown in the drawings in which:

as shown in fig. 1 to 7, a vacuum rice storage barrel capable of quantitatively taking rice, the main body of the vacuum rice storage barrel comprises a main shell 1, a rice storage barrel 2, a temporary storage barrel 3, a quantitative rice taking device 4 and a vacuum device 5, wherein an upper cover 6 for matching with a first feeding port 11 is arranged at the top of the main shell 1, soft silica gel is arranged at the area where the upper cover 6 contacts the first feeding port 11 in order to enhance the tightness of the device, a handle is arranged at the top of the upper cover 6 and is rotationally connected with the upper cover 6, thus the vacuum rice storage barrel can save the strength when a user opens the upper cover 6, a vacuum area 12 and a normal temperature area 13 are arranged in the main shell 1, a transverse plate is supported between the vacuum area 12 and the normal temperature area 13, the vacuum device 5 is fixedly connected at the outer side of the vacuum area 12, the vacuum device 5 is used for extracting the air in the vacuum area 12, and certain tightness in the vacuum area is ensured, the inside of the vacuum area 12 is detachably connected with the rice storage barrel 2, the volume of the rice storage barrel 2 can be used for putting down the volume of a common bag of rice on the market, the rice storage barrel 2 is provided with a feeding port two 21 which is in an upper opening shape and a lower opening shape, the top of the rice storage barrel 2 is required to be aligned with a feeding port one 11, the size of the feeding port one 11 is required to be larger than that of the feeding port two 21, thus a user can conveniently take out the rice storage barrel 2 for cleaning, the bottom of the rice storage barrel 2 is provided with a discharging port one 22, the bottom of the discharging port one 22 is provided with a baffle one 7, the surface of the baffle one 7 is provided with a notch one 71, one side of the baffle one 7 is fixedly connected with a sliding device 8, the sliding device 8 can control the front and back movement of the baffle one 7, importantly, the material of the rice storage barrel 2 is required to be made of elastic plastic material, the rice storage barrel 2 is slightly in interference fit when being matched with the baffle one 7, the surface of baffle one 7 also needs polishing to make to be level and has less frictional force, just like this the setting can strengthen the inside leakproofness of vacuum district and be convenient for baffle one 7 carry out sliding motion for storing up rice bucket 2, the inside barrel 3 that keeps in of normal atmospheric temperature district 13 is equipped with, the barrel 3 top that keeps in is equipped with the pan feeding mouth three 31 of alignment discharge gate one 22, the discharge gate two 32 alignment ration of keeping in barrel 3 bottom get rice device 4, vacuum device 5 can continuously extract the inside air of vacuum district 12 in the daily work, breach one 71 can align discharge gate one 22 gradually when slider 8 slides to the inboard, and the rice of storing up rice bucket 2 inside just can drop towards keeping in barrel 3 inside this moment, and slider 8 slides outside after dropping and makes breach one 71 break away from aligning out of alignment discharge gate one gradually, and vacuum district and normal atmospheric temperature district can realize complementary interference through the baffle isolation, and then vacuum device 5 can continuously extract the inside air of vacuum district 12, and the inside rice of storing up rice bucket 2 just can be relative vacuum like this.

The vacuum device 5 comprises a vacuum shell 51, a vacuum upper cover 52, a power supply 53 installed in the vacuum shell 51, a main control board 54 and a vacuum pump 55, wherein the main control board 54 is used for controlling the vacuum pump 55 to work, the power supply 53 needs to be powered by a detachable battery, so that portability of the device can be enhanced, the vacuum shell 51 is installed on the outer side of the main shell 1, the vacuum upper cover 52 needs to be rotationally connected to the vacuum shell 51 for realizing the battery replacement function, the vacuum pump 55 comprises an air suction port 551 and an air outlet 552, the air suction port 551 is connected into the vacuum zone 12, the air outlet 552 is connected into the outside, and the air suction port 551 of the vacuum pump continuously sucks air in the vacuum zone during working.

The sliding device 8 comprises a sliding rail 81, a sliding block 82 and a driving rod 83, the sliding rail 81 is fixedly connected inside a vacuum area through a sealing screw, grooves which are recessed inwards are formed in two sides of the sliding rail 81, bosses matched with the grooves are formed in two sides of the sliding block 82, the sliding block 82 can be connected with the sliding rail 81 in a sliding mode, a first baffle 7 is arranged at the top of the sliding block 82, the driving rod 83 is arranged on the outward side of the sliding block 82, the area of the first baffle 7 minus the area of the first gap 71 is larger than the area of the first discharge hole 22, the area of the first discharge hole 22 is larger than the area of the first gap 71, and the first discharge hole 71 can be completely closed or opened by the aid of the length of the sliding rail 81, so that rice in the rice storage barrel 2 can fall into the temporary storage barrel 3 through the first gap 71.

The utility model provides a quantitative rice taking device, including normal atmospheric temperature district 13, the inside V type boss 9 that still is equipped with of normal atmospheric temperature district 13, the inside pan feeding mouth four 91 of aligning discharge gate two 32 that is equipped with of V type boss 9, V type boss 9 middle part is equipped with guide post 92, quantitative rice taking device 4 is including getting rice post 41 and knob 42, get rice post 41 sliding connection in guide post 92, it is equipped with rectangular through-hole 43 to get rice post 41 surface, the volume of rectangular through-hole 43 needs to satisfy the rice of depositing 600g, it is equipped with spacing piece 44 to get rice post 41 both sides, it is equipped with knob 42 to get one side of rice post 41, wherein get rice post 41 and subtract the area of rectangular through-hole 43 and be greater than the area of pan feeding mouth four 91, set up like this and be in order to get rice post 41 to push away to the inside after can restrict rectangular through-hole 43 and drop down rice, when having rice in temporary storage barrel 3 inside, when taking rice post 41 is got to the outside pulling to get rice post 41 to the knob 42, the rice can gradually break away from guide post 92, and drop down can down to take out rice this moment, has accomplished the function of quantitative rice taking.

The application method of the utility model comprises the following steps:

the driving rod 83 is pulled outwards to enable the first baffle 7 to completely seal the first discharge hole 22, then the upper cover 6 is opened to pour rice into the rice storage barrel 2, the vacuum device 5 can continuously extract air in the vacuum area 12, so that rice can be stored in a relatively vacuum environment, the driving rod 83 is pushed inwards to enable the notch I71 to be aligned with the first discharge hole 22 during quantitative rice taking, the rice stored in the rice storage barrel 2 can fall into the temporary storage barrel 3, the rice taking column 41 is pulled outwards by the knob 42 to gradually separate from the guide column 92, at the moment, the rice can fall downwards, the quantitative rice taking function is completed, the driving rod 83 is pulled outwards after the rice taking is completed to enable the notch I71 to gradually completely separate from the aligned first discharge hole 22, then the vacuum device 5 can continuously extract air in the vacuum area 12, and the rice in the rice storage barrel 2 can be stored relatively in vacuum.

The specific embodiments described herein are offered by way of example only to illustrate the spirit of the utility model. Those skilled in the art may make various modifications or additions to the described embodiments or substitutions thereof without departing from the spirit of the utility model or exceeding the scope of the utility model as defined in the accompanying claims.

Claims (8)

1. The utility model provides a can quantitatively get vacuum rice storage bucket of rice, includes main casing (1), stores up rice bucket (2), stores up bucket (3), ration and gets rice device (4) and vacuum apparatus (5), a serial communication port, main casing (1) top is equipped with upper cover (6) that are used for cooperation pan feeding mouth one (11), main casing (1) inside is equipped with vacuum area (12) and normal atmospheric temperature district (13), the outside of vacuum area (12) is equipped with vacuum apparatus (5), vacuum apparatus (5) are used for extracting the inside air of vacuum area (12), vacuum area (12) inside is equipped with and stores up rice bucket (2), store up rice bucket (2) top and be equipped with pan feeding mouth two (21) of alignment pan feeding mouth one (11), store up rice bucket (2) bottom and be equipped with discharge mouth one (22), discharge mouth one (22) bottom is equipped with baffle one (7), baffle one (7) surface is equipped with breach one (71), one side fixed connection slider (8) of baffle one (7), slider (8) are used for taking care of one place (7) is equipped with pan feeding mouth one (31) before being equipped with in the motion of control barrel (3) is equipped with pan feeding mouth one's top (31), and a second discharge hole (32) at the bottom of the temporary storage barrel (3) is aligned with the quantitative rice taking device (4).

2. The vacuum rice storage barrel (2) capable of quantitatively taking rice according to claim 1, wherein the vacuum device (5) comprises a vacuum shell (51), a vacuum upper cover (52), a power supply (53) installed inside the vacuum shell (51), a main control board (54) and a vacuum pump (55), the vacuum shell (51) is installed outside the main shell (1), the vacuum upper cover (52) is rotationally connected to the vacuum shell (51), the vacuum pump (55) comprises an air suction port (551) and an air outlet (552), the air suction port (551) is connected into a vacuum area (12), and the air outlet (552) is connected into the outside.

3. The vacuum rice storage barrel capable of quantitatively taking rice according to claim 1, wherein the sliding device (8) comprises a sliding rail (81), a sliding block (82) and a driving rod (83), the sliding block (82) is connected to the sliding rail (81) in a sliding manner, a baffle I (7) is arranged at the top of the sliding block (82), and the driving rod (83) is arranged at the outward side of the sliding block (82).

4. A vacuum rice storage bucket capable of taking out rice in a quantitative manner according to claim 3, wherein the area of the first baffle plate (7) minus the first notch (71) is larger than the area of the first discharge hole (22), and the area of the first discharge hole (22) is larger than the area of the first notch (71).

5. The vacuum rice storage barrel capable of quantitatively taking rice according to claim 1, wherein a V-shaped boss (9) is further arranged in the normal temperature area (13), a feeding port four (91) aligned with a discharging port two (32) is arranged in the V-shaped boss (9), a guide column (92) is arranged in the middle of the V-shaped boss (9), the quantitative rice taking device (4) comprises a rice taking column (41) and a knob (42), the rice taking column (41) is slidably connected to the guide column (92), rectangular through holes (43) are formed in the surface of the rice taking column (41), limiting pieces (44) are arranged on two sides of the rice taking column (41), and the knob (42) is arranged on one side of the rice taking column (41).

6. The quantitative rice taking vacuum rice storage barrel according to claim 5, wherein the area of the rectangular through holes (43) subtracted by the rice taking column (41) is larger than the area of four feed inlets (91).

7. The vacuum rice storage barrel capable of quantitatively taking rice according to claim 1, wherein soft silica gel is arranged in a region of the upper cover (6) contacted with the first feeding port (11), and a handle is arranged at the top of the upper cover (6).

8. Vacuum rice storage bucket capable of quantitatively taking rice according to claim 1, characterized in that the rice storage bucket (2) is made of elastic plastic materials.

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