CN113800085B

CN113800085B - Laminated grain storage container

Info

Publication number: CN113800085B
Application number: CN202111102653.7A
Authority: CN
Inventors: 请求不公布姓名
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-09-21
Filing date: 2021-09-21
Publication date: 2023-12-22
Anticipated expiration: 2041-09-21
Also published as: CN113800085A

Abstract

The invention provides a laminated grain storage container, and belongs to the technical field of household articles. It has solved current inconvenient problem of getting to put grain from range upon range of grain storage container. The laminated grain storage container comprises a plurality of grain storage container components, wherein the grain storage container components are internally provided with grain storage cavities, grain discharge sub-channels and grain discharge total channels which are communicated up and down, and each grain storage container component comprises a grain discharge structure for controlling the grain discharge sub-channels to be in a communicated state or a cut-off state; the grain storage container assemblies are stacked, and grain discharging total channels in the upper and lower adjacent grain storage container assemblies are communicated. The laminated grain storage container is provided with the grain discharging total channel, grains in the grain storage cavity are firstly discharged into the grain discharging total channel, and then fall into the rice receiving cup through the grain discharging total channel, so that people do not need to hold the rice receiving cup when taking and placing the grains, and the grain placing structure is operated; the convenience of operation is significantly improved when grain is taken from the higher grain storage container assembly.

Description

Laminated grain storage container

Technical Field

The invention belongs to the technical field of household articles, and relates to a container, in particular to a multilayer grain storage container.

Background

Grain storage containers are commonly used to store grains such as rice, wheat, beans, and the like. Conventional grain storage containers are used to store a single kind of grain, and a plurality of grains are generally stored in daily life, thereby requiring a plurality of grain storage containers.

In order to reduce the storage occupation area of the grain storage container, a laminated insect-proof rice storage barrel (application number 201120150781.4) is proposed, and the insect-proof rice storage barrel comprises a rice barrel, wherein a circular ring-shaped bulge is arranged on the upper surface of the rice barrel, a circular ring-shaped groove is arranged on the lower surface of the rice barrel, the bulge corresponds to the groove in position, and the shape and the size are consistent. When different kinds of rice are stored, the groove of the upper rice barrel can be connected with the annular bulge at the upper end of the lower rice barrel in an inserting mode. The rice storage barrel has the problem that grains at the bottom are not easy to discharge, and after a plurality of rice storage barrels are stacked, the positions of rice outlets are raised one by one, and obviously, convenience of taking and placing grains by people can be influenced when the rice outlets are too high or too low.

Later, a grain storage barrel (application number 202021583594.0) is proposed, and the grain storage barrel comprises a barrel body, wherein a plurality of storage cavities are formed in the barrel body, grain storage openings are formed in the bottom wall of each storage cavity, and a plurality of manual grain storage structures in one-to-one correspondence with the grain storage openings are arranged at the bottom of the barrel body. Although the grain storage barrel improves the convenience of taking and placing grains and improves the smoothness of discharging grains at the bottom, some new technical problems are also generated, such as that a plurality of storage cavities are separated by a baffle, the sealing property between the baffle and the barrel body is poor, so that the odor mixing phenomenon exists among various grains and the problem of increased plane occupation area exists.

Disclosure of Invention

The invention provides a laminated grain storage container, which aims to solve the technical problem of improving convenience in taking and placing grains from the laminated grain storage container.

The technical problems to be solved by the invention can be realized by the following technical proposal: the laminated grain storage container comprises a plurality of grain storage container assemblies with grain storage cavities, and is characterized in that the grain storage container assemblies are internally provided with a grain discharging total channel which is communicated up and down and a grain discharging sub-channel which enables the bottom of the grain storage cavities to be communicated with the grain discharging total channel, and the grain storage container assemblies comprise grain discharging structures for controlling the grain discharging sub-channels to be in a communicated state or a cut-off state; the grain storage container assemblies are stacked, and grain discharging total channels in the upper and lower adjacent grain storage container assemblies are communicated.

When grain is taken and placed, the rice receiving cup is placed on the table top, and the corresponding grain placing structure is controlled according to the type of the grain to be taken; the grains are automatically discharged into the grain discharging main channel, and then are automatically conveyed downwards through the grain discharging main channel until the grains fall into the rice receiving cup arranged below the grain discharging main channel. Each layer of grain storage container assembly in the laminated grain storage container falls into the rice receiving cup through the total grain discharging channel.

Compared with the prior art, the laminated grain storage container is characterized in that the grain storage container is provided with the grain discharging total channel and the grain in the grain storage cavity is firstly discharged into the grain discharging total channel, and then falls into the rice receiving cup through the grain discharging total channel, so that people do not need to hold the rice receiving cup when taking and placing the grain, and the rice receiving cup is not required to be kept at the position corresponding to the rice outlet, but the grain placing structure is operated. It follows that the convenience of operation is significantly improved for an operator to take and place grains from the higher grain storage container assembly.

In the laminated grain storage container, the top of the grain discharging total channel of the grain storage container assembly positioned below in the upper and lower adjacent two groups of grain storage container assemblies is in butt joint with the bottom of the grain discharging total channel of the grain storage container assembly positioned above.

In the above laminated grain storage container, when the grain storage container assemblies are in a laminated state, all the grain discharge total channels are positioned on the same vertical line.

In the laminated grain storage container, the rear side wall of the grain storage container assembly is provided with the hanging structure, and the laminated grain storage container can be hung on the wall surface through the hanging structure.

In the above-mentioned stacked grain storage container, the stacked grain storage container further includes a bottom support member located below the grain storage container assembly, the bottom support member being connected to the grain storage container assembly located at the lowermost position.

In the above laminated grain storage container, the bottom support member is a support leg; the plurality of support legs are fixedly connected with the grain storage container assembly positioned at the lowest part.

In the above laminated grain storage container, the bottom support member is rotatably connected to the grain storage container assembly located at the lowermost position.

In the laminated grain storage container, the top of the grain storage container assembly is of an open structure; the grain storage container assemblies positioned above in the upper and lower adjacent two groups of grain storage container assemblies cover the openings of the grain storage container assemblies positioned below.

In the above-described laminated grain storage container, the laminated grain storage container further includes a top cover for covering an opening of the uppermost grain storage container assembly.

In the laminated grain storage container, the upper and lower adjacent two groups of grain storage container components are connected through a buckling structure.

Drawings

Fig. 1 is a schematic perspective view showing a layered grain storage container according to an embodiment.

Fig. 2 is a schematic front view of a laminated grain storage container according to an embodiment.

FIG. 3 is a schematic cross-sectional view of A-A of FIG. 2.

Fig. 4 is a schematic view showing an exploded state structure of a laminated grain storage container according to an embodiment.

Fig. 5 is a schematic top view of a food storage container assembly in accordance with an embodiment.

Fig. 6 is a schematic cross-sectional view of the structure B-B of fig. 5.

Fig. 7 is a schematic perspective view of a layered grain storage container according to the second embodiment.

Fig. 8 is a schematic perspective view of a three-layer grain storage container according to the third embodiment.

Fig. 9 is a schematic front view of a laminated grain storage container according to the third embodiment.

Fig. 10 is a schematic cross-sectional view of the structure of C-C in fig. 9.

Fig. 11 is a schematic view showing an exploded state of the laminated grain storage container according to the third embodiment.

Fig. 12 is a schematic view showing an exploded state of the food storage container assembly in the third embodiment.

In the figure, 1, a grain storage container assembly; 1a, a grain storage cavity; 1b, a total grain discharging channel; 1b1, upper section of the total channel; 1b2, the lower section of the total channel; 1c, grain discharging and dividing channels; 1c1, a grain discharging port; 1c2, a sub-channel inclined section; 1d, a container body; 1e, a container base; 1f, grain placement structure; 1f1, buttons; 1f2, flashboard; 2. a top cover; 3. a bottom support; 4. a rice receiving cup; 5. a bearing; 6. a fastening structure; 7. a wall surface; 8. a table top.

Detailed Description

The following are specific embodiments of the present invention and the technical solutions of the present invention will be further described with reference to the accompanying drawings, but the present invention is not limited to these embodiments.

Embodiment one: as shown in fig. 1 to 6, a laminated grain storage container includes a plurality of grain storage container assemblies 1, the specification and the drawing show that the number of the grain storage container assemblies 1 is three, the number of the grain storage container assemblies 1 can be reduced to two groups according to actual use conditions, and the number of the grain storage container assemblies 1 can be increased, such as 4 groups, 5 groups and 6 groups.

The grain storage container assembly 1 is internally provided with a grain storage cavity 1a, a grain discharging total channel 1b which is communicated up and down, and a grain discharging sub-channel 1c which enables the bottom of the grain storage cavity 1a to be communicated with the grain discharging total channel 1 b. The grain storage container assembly 1 comprises a container body 1d, a container base 1e and a grain discharging structure 1f for controlling the grain discharging sub-channel 1c to be in a communicating state or a cut-off state; the container base 1e is located below the container body 1d, and the container body 1d is fixedly connected with the container base 1 e.

The grain storage cavity 1a is positioned in the container body 1d, and the top of the container body 1d is of an open structure. The number of the grain storage cavities 1a, such as 1 to 6, can be adaptively set according to practical situations. The user can flexibly select the grain storage container assembly 1 with the proper number of grain storage cavities 1a for combination according to the actual use condition; as shown in fig. 4, the number of the grain chambers 1a in the container body 1d of the lowest layer is 4, the number of the grain chambers 1a in the container body 1d of the top layer is 1, and the number of the grain chambers 1a in the container body 1d positioned in the middle is 2. The number of grain placing structures 1f in the grain storage container assembly 1 is the same as that of grain storage cavities 1a and is set in one-to-one correspondence, and thus one grain placing structure 1f is operated to achieve taking and placing of one grain.

The number of the total grain discharging channels 1b in the grain storage container assembly 1 is one. The total grain discharging channel 1b comprises a total channel upper section 1b1 positioned in the container body 1d and a total channel lower section 1b2 positioned in the container base 1e, wherein the total channel upper section 1b1 and the total channel lower section 1b2 are communicated up and down. The grain discharging total channel 1b is vertically arranged, so that grains can fall down quickly and are prevented from being accumulated in the grain discharging total channel 1 b.

The grain discharging sub-channel 1c comprises a grain discharging port 1c1 positioned on the bottom wall of the container body 1d and a sub-channel inclined section 1c2 positioned in the container base 1e, wherein the grain discharging port 1c1 is communicated with the sub-channel inclined section 1c2, and the lower end of the sub-channel inclined section 1c2 is communicated with the lower section 1b2 of the main channel.

The grain discharging structure 1f is a manual flashboard 1f2 structure or an electric screw structure. The specification and drawings show that the grain discharging structure 1f is a manual gate plate 1f2 type structure, and the manual gate plate 1f2 type structure comprises a button 1f1 and a gate plate 1f2 which is supported on the bottom surface of a container body 1d, wherein the gate plate 1f2 is in sliding connection with a container base 1 e; the gate plate 1f2 moves horizontally, the grain discharging sub-channel 1c is in a cut-off state when the grain discharging port 1c1 is blocked, and the grain discharging sub-channel 1c is in a communication state when the grain discharging port 1c1 and the gate plate 1f2 are in a dislocation state.

The grain storage container assembly 1 is substantially rectangular, and a plurality of grain storage chambers 1a in the group of grain storage container assemblies 1 are arranged in a left-right arrangement, so that the button 1f1 is positioned on the front side wall and arranged in a left-right arrangement, thereby improving the operation convenience. The grain discharging total channel 1b is positioned in the middle of the front side of the grain storage container assembly 1, so that grains in the grain storage cavities 1a on the left side and the right side are discharged into the grain discharging total channel 1b, people can observe the position of the lowest opening of the grain discharging total channel 1b, further people can place the rice receiving cup 4 under the grain discharging total channel 1b, and people can observe the falling condition of the grains and judge whether to continuously discharge the grains in time.

As shown in fig. 5 and 6, the left and right sides of the lower section 1b2 of the overall channel are provided with a sub-channel inclined section 1c2, and one sub-channel inclined section 1c2 can be communicated with one or more grain discharging ports 1c1, and the structure is particularly suitable for being applied to the grain storage container assembly 1 with a plurality of grain storage cavities 1a, and can simplify the structure of the grain storage container assembly 1 and reduce the manufacturing cost of the grain storage container assembly 1.

The rear side wall of the container body 1d is provided with a hanging structure, so that the grain storage container assembly 1 can be hung on the wall surface 7; the rice receiving cup 4 can be placed on the table top 8.

The grain storage container assemblies 1 are stacked one by one from bottom to top, and the grain discharge total channels 1b in the upper grain storage container assembly 1 and the lower grain storage container assembly 1 are communicated, i.e. the tops of the grain discharge total channels 1b in the lower grain storage container assembly 1 are butted with the bottoms of the grain discharge total channels 1b in the upper grain storage container assembly 1. All the grain discharging total channels 1b are positioned on the same vertical line, so that grains can fall down quickly and are prevented from accumulating. The container base 1e in the upper grain storage container assembly 1 covers the opening of the container body 1d in the lower grain storage container assembly 1, whereby the upper grain storage container assembly 1 serves as a lid for the lower grain storage container assembly 1. The laminated grain storage container further includes a top cover 2, the top cover 2 being for covering an opening of the container body 1d in the uppermost grain storage container assembly 1.

Embodiment two: as shown in fig. 7, the structure and principle of the present embodiment are basically the same as those of the first embodiment, and the basic same points are not described in detail, but only in different places, except that: the laminated grain storage container further comprises a bottom support member 3, the bottom support member 3 is located below the grain storage container assembly 1, the bottom support member 3 is connected with the grain storage container assembly 1 located below, the bottom support member 3 is a support leg, a plurality of support legs are fixedly connected with the grain storage container assembly 1 located below, and therefore the laminated grain storage container can be placed on the table top 8.

Embodiment III: as shown in fig. 8 to 12, the structure and principle of the present embodiment are basically the same as those of the first embodiment, and the basic points are not described in detail, but only in different places, except that: the grain storage container assembly 1 is substantially cylindrical, and a plurality of grain storage cavities 1a in one group of grain storage container assemblies 1 are arranged circumferentially around the axis line. The total grain discharge passage 1b is located in a central region of the grain storage vessel assembly 1. The sub-channel inclined sections 1c2 are positioned on the outer side of the lower section 1b2 of the main channel, and the number of the sub-channel inclined sections 1c2 is the same as that of the grain storage cavities 1a and are arranged in one-to-one correspondence.

There is no hanging structure on the rear sidewall of the container body 1d, but the laminated grain storage container further includes a bottom support 3, the bottom support 3 is cylindrical, the number of the bottom support 3 is one, the bottom support 3 is located below the grain storage container assembly 1, the bottom support 3 is rotatably connected with the grain storage container assembly 1 located at the lowermost through a bearing 5, thereby the grain storage container assembly 1 can be rotated, and the rice receiving cup 4 can be placed in the bottom support 3.

The upper and lower adjacent grain storage container assemblies 1 are further connected through the buckling structure 6, so that the connection firmness between the upper and lower adjacent grain storage container assemblies 1 is improved, and the phenomenon that the grain storage container assemblies 1 incline when rotating is avoided.

Claims

1. A laminated grain storage container comprising a plurality of grain storage container assemblies (1) which are arranged in a stacked manner up and down and a top cover (2) which is positioned above the uppermost grain storage container assembly (1), wherein each grain storage container assembly (1) is provided with grain storage cavities (1 a), and the laminated grain storage container is characterized in that the number of the grain storage cavities (1 a) in each grain storage container assembly (1) is 1 to 6; each grain storage container assembly (1) is internally provided with a grain discharging total channel (1 b) which is communicated up and down and a grain discharging sub-channel (1 c) which is communicated with the grain discharging total channel (1 b) at the bottom of the grain storage cavity (1 a), each grain storage container assembly (1) comprises grain discharging structures (1 f) which are used for controlling the grain discharging sub-channels (1 c) to be in a communicating state or a cut-off state, and the number of the grain discharging structures (1 f) is the same as that of the grain storage cavities (1 a) and is arranged in a one-to-one correspondence manner;

each grain storage container assembly (1) comprises a container body (1 d) and a container base (1 e), the container base (1 e) is positioned below the container body (1 d), a grain storage cavity (1 a) is positioned in the container body (1 d), and the container body (1 d) is fixedly connected with the container base (1 e); the grain discharging total channel (1 b) comprises a total channel upper section (1 b 1) positioned in the container body (1 d) and a total channel lower section (1 b 2) positioned in the container base (1 e), wherein the total channel upper section (1 b 1) and the total channel lower section (1 b 2) are communicated up and down; the grain discharging sub-channel (1 c) comprises a grain discharging port (1 c 1) positioned on the bottom wall of the container body (1 d) and a sub-channel inclined section (1 c 2) positioned in the container base (1 e), the grain discharging port (1 c 1) is communicated with the sub-channel inclined section (1 c 2), and the lower end of the sub-channel inclined section (1 c 2) is communicated with the lower section (1 b 2) of the main channel;

the grain discharging structure (1 f) is a manual gate plate type structure, the manual gate plate type structure comprises a button (1 f 1) and a gate plate (1 f 2) which is supported on the bottom surface of the container body (1 d), the gate plate (1 f 2) is in sliding connection with the container base (1 e), the gate plate (1 f 2) can horizontally move, when a grain discharging port (1 c 1) is blocked by the gate plate (1 f 2), the grain discharging sub-channel (1 c) is in a cut-off state, and when the grain discharging port (1 c 1) and the gate plate (1 f 2) are in a dislocation state, the grain discharging sub-channel (1 c) is in a communication state;

the top of the grain storage container assembly (1) is of an open structure; the grain storage container assemblies (1) are stacked, the tops of the grain discharge total channels (1 b) of the grain storage container assemblies (1) positioned below the grain storage container assemblies (1) in the upper adjacent two groups are in butt joint with the bottoms of the grain discharge total channels (1 b) of the grain storage container assemblies (1) positioned above, and the grain discharge total channels (1 b) of the grain storage container assemblies (1) in the upper adjacent two groups are communicated; when the grain storage container assemblies (1) are in a stacked state, all grain discharging total channels (1 b) are positioned on the same vertical line; the upper grain storage container assembly (1) and the lower grain storage container assembly (1) are arranged in the upper grain storage container assembly (1) and cover the opening of the lower grain storage container assembly (1), and the top cover (2) is used for covering the opening of the uppermost grain storage container assembly (1).

2. The laminated grain storage container according to claim 1, wherein the rear side wall of the grain storage container assembly (1) has a hanging structure by which the laminated grain storage container can be hung on a wall surface (7).

3. The laminated grain storage container according to claim 1, further comprising a bottom support (3), the bottom support (3) being located below the grain storage container assembly (1), the bottom support (3) being connected to the lowest grain storage container assembly (1).

4. A laminated grain storage vessel as claimed in claim 3, wherein the bottom support (3) is a support leg; the supporting legs are fixedly connected with the grain storage container assembly (1) positioned at the lowest part.

5. A stacked grain storage vessel as claimed in claim 3, in which the base support (3) is rotatably connected to the lowermost grain storage vessel assembly (1).

6. The laminated grain storage container according to claim 1 or 2, wherein two upper and lower adjacent sets of the grain storage container assemblies (1) are connected by a fastening structure (6).