CN212876792U - Grain storage device and grain storage box thereof - Google Patents

Abstract

The utility model relates to a grain storage box, which comprises a box body and an outlet cover; the interior of the box body is provided with a cavity for containing grains, and the box body is provided with a top end part and a bottom end part which are opposite; the end surface or the side wall of the top end part is provided with a feed inlet; the end surface or the side wall of the bottom end part is provided with a discharge hole; the outlet cover is used for sealing the discharge hole and is movably connected with the box body. The grain storage box has the advantages that the grain close to the top end is always relatively new, the grain close to the bottom end is always relatively old, the grain close to the bottom end always flows out firstly to be eaten, the grain in the grain storage box circulates well, the grain in the box body always keeps relatively fresh, and the grain is eaten healthily. A grain storage device comprises a bracket and the grain storage box. The bracket is connected with the side wall of the box body to support the box body. A preset distance is reserved between the discharging position of the box body and the supporting surface of the support. The food in the grain storage box circulates well, the food in the box body always keeps relatively fresh, and the food is healthy to eat.

Description

Grain storage device and grain storage box thereof

Technical Field

The utility model relates to an agricultural articles for use technical field, in particular to store up grain device and storage grain case thereof.

Background

Along with the improvement of the quality of daily life of people, more and more people can choose an external restaurant to have meals, so that the meal volume of the restaurant is increased day by day, and the grain required to be prepared by the restaurant is correspondingly increased. Currently, the grains in the restaurant are stored in grain storage boxes which are provided with an opening at the top, and the grains are loaded into or taken out of the opening.

Generally, workers in a restaurant can add grains in advance or fill the grains when the grains have a certain margin, and cannot wait for the grains in the grain storage box to be added after the grains in the grain storage box are used up, so that the situation that the workers have trouble can be avoided. However, the grains at the bottom of the grain storage box are always old grains, the grain storage box can be placed for a longer time and even become mildewed, and the quality of the grains in the whole grain storage box can be affected. Therefore, the grains at the bottom of the grain storage box are aged grains, and if the aged grains are eaten, the health is affected.

SUMMERY OF THE UTILITY MODEL

Based on this, the utility model provides a store up grain device and storage grain tank thereof to solve the very big probability of grain of above-mentioned storage grain tank bottom and be the problem of old grain.

A grain storage box comprises a box body and an outlet cover;

the inside of the box body is provided with a cavity for containing grains, and the box body is provided with a top end part and a bottom end part which are opposite; a feed inlet is formed in the end face or the side wall of the top end part; a discharge hole is formed in the end face or the side wall of the bottom end part;

the outlet cover is used for sealing the discharge hole and is movably connected with the box body.

When the grain storage box is placed, the bottom end part is close to the ground relative to the top end part. The grains can be loaded into the box body from the feed inlet at the top end part for storage. In the process of storing the grains, the outlet cover seals the discharge hole, so that the grains cannot leak out. When taking grain, the outlet cover at the discharge port can be opened, and the grain flows out from the discharge port under the action of gravity. When the grains are nearly used up, the grains are loaded from the feed inlet at the top end. Therefore, on one hand, the grains are convenient to take and use; on the other hand, the grain close to the top end part is always relatively new, the grain close to the bottom end part is always relatively old, the grain close to the bottom end part always flows out firstly to be eaten, the grain circulation inside the grain storage box is good, the grain inside the box body always keeps relatively fresh, and the eating is healthy.

In one embodiment, the box body further comprises a guiding structure, and the guiding structure is arranged at the bottom end part and corresponds to the discharge hole in position; the outlet cover is matched with the leading-out structure, and the outlet cover is used for sealing the discharge hole by sealing the opening of the leading-out structure.

In one embodiment, the leading-out structure is tubular or truncated cone-shaped.

In one embodiment, the box body further comprises a leading-in structure, and the leading-in structure is arranged on the box body and corresponds to the position of the feeding hole.

In one embodiment, the inlet structure is tubular or rounded and communicates with the cavity through the inlet opening.

In one embodiment, the grain storage bin further comprises an inlet cover, the inlet cover is movably connected with the bin body, and the inlet cover is used for closing the feeding hole.

In one embodiment, the box body is made of plastic and/or is transparent.

A grain storage device comprises a support and the grain storage box in any embodiment. The bracket is connected with the side wall of the box body to support the box body. And a preset distance is reserved between the discharging position of the box body and the supporting surface of the support.

Above-mentioned grain storage device uses foretell grain storage tank, and on the one hand, the grain food cycle in the grain storage tank is better, and the grain in the box always keeps relatively fresh, and it is healthy to eat. On the other hand, the bracket supports the box body, the grain storage box is easy to place, and a receiving container such as a basin, a measuring cup and the like can be placed between the box body and the supporting surface of the bracket.

In one embodiment, the height of the housing relative to the stand is adjustable.

In one embodiment, the grain storage device further comprises a receiving container, and the side wall of the receiving container is provided with scales.

Drawings

Fig. 1 is a front view of a grain bin according to a first embodiment of the present application;

fig. 2 is a front view of a grain storage bin according to a second embodiment of the present application;

fig. 3 is a front view of the grain storage device of the grain storage bin according to the first embodiment of the application.

Detailed Description

To make the objects, advantages and features of the present invention clearer, the present invention will be described in further detail with reference to the accompanying drawings. It should be noted that the drawings are in simplified form and are not to precise scale, and are provided for convenience and clarity in order to facilitate the description of the embodiments of the present invention.

As used in this specification and the appended claims, the singular forms "a", "an", and "the" include plural referents unless the content clearly dictates otherwise. As used in this specification and the appended claims, the term "or" is generally employed in its sense including "and/or" unless the content clearly dictates otherwise. As used in this specification and the appended claims, the term "a number of" is generally employed in its sense including "one or more than two" unless the content clearly dictates otherwise.

Example one

Fig. 1 is a front view of a grain bin according to the first embodiment of the present application. As shown in fig. 1, a grain bin 100 includes a bin body 120 and an outlet cover 140. The cabinet 120 is provided therein with a cavity 122 for receiving grains. The tank 120 has opposing top 124 and bottom 126 ends. The side wall of the top end part 124 is provided with a feed inlet a, so that a loader can easily reach the feed inlet a during loading. The end surface of the bottom end portion 126 is provided with a discharge hole b. The outlet cover 140 is used for closing the discharge hole b, and the outlet cover 140 is movably connected with the box body 120. The outlet cover 140 may be configured to open and close with respect to the case 120, and the outlet cover 140 may be configured to be detachable from the case 120.

The bin 100 is positioned such that the bottom end 126 is adjacent the ground relative to the top end 124. The grain can be charged into the tank 120 from the feed inlet a of the top end portion 124 to be stored. In the process of storing the grains, the outlet cover 140 closes the discharge hole b, and the grains do not leak out. When taking grain, the outlet cover 140 is movably connected with the box body 120, so that the outlet cover 140 at the discharge hole b can be opened, and the grain flows out from the discharge hole b under the action of gravity. When the grain is running low, it is fed from the feed port a of the top end portion 124. Therefore, on one hand, the grains are convenient to take and use; on the other hand, the grain near the top end 124 is always relatively new, the grain near the bottom end 126 is always relatively old, and the grain near the bottom end 126 always flows out first to be eaten, so that the grain in the grain storage bin 100 is eaten in a better cycle, and the grain in the bin 120 always keeps relatively fresh and healthy.

In this embodiment, the box body 120 further includes a guiding structure 128, the guiding structure 128 is disposed at the bottom end portion 126 and corresponds to the position of the discharge port b, and the guiding structure 128 is communicated with the cavity 122 of the box body 120 through the discharge port b; the outlet cover 140 is fitted to the lead-out structure 128, and the outlet cover 140 closes the discharge hole b by closing the opening of the lead-out structure 128. The guiding structure 128 can provide an outflow channel for the grains in the cavity 122 of the box 120, so that the grains flow out along the guiding structure 128 to limit the outflow direction of the grains, and the grains are prevented from splashing in all directions in the flowing process. The derivation structure 128 is tubular in this embodiment, specifically, the derivation structure 128 is the pipe shape of circle, can make grain flow along the pipeline, can set up the length of derivation structure 128 for discharge gate b as required to derive grain better. The outlet cover 140 is threadably connected to the outlet structure 128. In other embodiments, the guiding structure 128 may also be a circular truncated cone, which may be a regular circular truncated cone or an inverted circular truncated cone, relative to the plane where the discharge hole b is located, so as to limit the grain outflow speed. For example, if the guiding structure 128 is in a right circular truncated cone shape, the grain outflow speed is relatively low; if the guiding structure 128 is in the shape of an inverted circular truncated cone, the grain outflow speed is relatively high.

The box body 120 further comprises a guiding structure 129, and the guiding structure 129 is arranged on the box body 120 and corresponds to the position of the feed inlet a. Therefore, when the grain is loaded into the box body 120, the grain inflow direction can be limited, so that the grain slides into the cavity 122 of the box body 120 along the guide structure 129, and the grain is prevented from leaking out of the box body 120 without entering the feed inlet a. In this embodiment, the introducing structure 129 is tubular, and the introducing structure 129 is communicated with the cavity 122 through the feed port a. Lead-in structure 129 extends away from base end 126. Thus, when the grain is loaded into the box 120, the grain can slide along the guide structure 129, so that the grain is easy to load and is not easy to spill.

The grain bin 100 further includes an inlet cover 160, the inlet cover 160 is movably connected to the bin body 120, and the inlet cover 160 is used for closing the feed opening a, i.e., the inlet cover 160 can open or close the bin body 120 with respect to the bin body 120. Thus, when the grains are not loaded, the inlet cover 160 closes the feed opening a to prevent dust from falling into the case 120. In this embodiment, the inlet cap 160 closes the feed opening a by closing the opening of the introduction structure 129. The inlet cap 160 may be threadably engaged with the lead-in structure 129, or may be snap-fit.

In this embodiment, the box 120 is made of transparent plastic. Thus, the worker can see the state of the grain inside the cabinet 120. In other embodiments, the material of the box 120 may also be other transparent materials, and may also be opaque materials made of plastic, as the case requires.

In this embodiment, scales (not shown) are further disposed on the sidewall of the box 120, so as to display the amount of the grains in the box 120.

Example two

Fig. 2 is a front view of a grain storage bin according to the second embodiment of the present application. As shown in fig. 2, a grain bin 200 includes a bin body 220 and an outlet cover 240. The cabinet 220 is provided therein with a cavity 222 for receiving grains. The tank 220 has opposing top 224 and bottom 226 ends. The end face of the top end part 224 is provided with a feed inlet c, grain can be poured vertically from the end face of the top end, and the grain is easy to load. The side wall of the bottom end portion 226 is provided with a discharge hole d, so that the bottom end portion 226 can be placed on any table board A, and grains flow out from the discharge hole d. The outlet cover 240 is used for closing the discharge hole d, and the outlet cover 240 is movably connected with the box body 220.

The grain bin 200 is positioned such that the bottom end 226 is closer to the ground than the top end 224. The grain can be charged into the tank 220 from the feed inlet c of the top end portion 224 to be stored. In the process of storing the grains, the outlet cover 240 closes the discharge hole d, and the grains do not leak out. When taking grain, the outlet cover 240 is movably connected to the box 220, so that the outlet cover 240 at the discharge port d can be opened, and the grain flows out from the discharge port d under the action of gravity. When the grain is running low, it is charged from the feed port c of the top end portion 224. Therefore, on one hand, the grains are convenient to take and use; on the other hand, the grain near the top end 224 is always relatively new, the grain near the bottom end 226 is always relatively old, and the grain near the bottom end 226 always flows out first to be eaten, so that the grain in the grain storage bin 200 can be eaten in a better cycle, and the grain in the bin 220 can be kept relatively fresh and healthy.

As shown in fig. 2, the box 220 further includes a guiding structure 228, and the guiding structure 228 is disposed at the bottom end 226 and corresponds to the position of the discharge port d. That is, the lead-out structure 228 of the present embodiment is provided on the side wall of the bottom end portion 226, the lead-out structure 228 is tubular, and the lead-out structure 228 extends in a direction away from the top end portion 224. Like this, bottom end 226 just can place on arbitrary mesa A, by the discharge gate d of lateral wall outwards flow out grain can, on the one hand, storage grain tank 200 places easily, and on the other hand, when connecing grain not influenced and connect grain, can not scatter to all directions by the direction of deriving structure 228 restriction grain.

In this embodiment, the box body 220 further includes an introduction structure 229, and the introduction structure 229 corresponds to the position of the feed port c, and therefore, the introduction structure 229 is also located on the end surface of the tip end portion 224. The introduction structure 229 is in an inverted frustum shape, so that a larger opening of the introduction structure 229 faces upwards, grains are poured from the larger opening when being loaded, the grains are not easy to spill outside, and the operation is convenient.

Other structures of the grain bin 200 of the present embodiment can be found in the first embodiment.

Fig. 3 is a front view of the grain storage device of the grain storage bin according to the first embodiment of the application. As shown in fig. 3, a grain storage device 300 comprises a bracket 320 and the grain storage bin 100 of the first embodiment. The bracket 320 is coupled to a sidewall of the case 120 to support the case 120, and the bracket 320 may support the case 120 on any plane, such as the ground. The discharging position of the box 120 is a predetermined distance from the supporting surface of the supporter 320. Therefore, the grain can be conveniently taken from the supporting surface of the bracket 320.

The grain storage device 300 is applied to the grain storage box 100, so that on one hand, the grain in the grain storage box 100 can be eaten in a better circulation manner, and the grain in the box body 120 can be kept relatively fresh and healthy to eat. On the other hand, the bracket 320 supports the box body 120, the grain storage bin 100 is easy to place, and a receiving container, such as a basin, a measuring cup and the like, can be placed between the supporting surfaces of the box body 120 and the bracket 320.

In one embodiment, the grain storage device further comprises a receiving container, and the side wall of the receiving container is provided with scales. Therefore, the special receiving container can take grains from the grain storage box, and grain pollution caused by mixed use of the receiving container is avoided. The side wall of the material receiving container is provided with scales, so that the worker can conveniently recognize the amount of the taken grains, the grain receiving container can accurately measure the grain receiving container, and the efficiency is improved.

In one embodiment, the height of the housing relative to the stand is adjustable. The box body and the support can be connected by adjustable buckles, and can also be connected in other modes, for example, a plurality of connecting mechanisms with different heights are arranged on the side wall of the box body, and the connecting mechanisms are detachably connected with the support. Therefore, by adjusting the height of the box body relative to the supporting surface of the support, on one hand, the height of the grain loaded in the box body can be adjusted, and the height of the grain taken out of the box body can also be adjusted, so that the operation is convenient; on the other hand, the height of the discharge port relative to the supporting surface of the bracket can be adjusted so as to place receiving containers with different sizes between the supporting surface of the bracket and the box body.

The above description is only for the preferred embodiment of the present invention and is not intended to limit the scope of the present invention, and any modification and modification made by those skilled in the art according to the above disclosure are all within the scope of the claims.

Claims (10)

1. A grain storage box is characterized by comprising a box body and an outlet cover;

the inside of the box body is provided with a cavity for containing grains, and the box body is provided with a top end part and a bottom end part which are opposite; a feed inlet is formed in the end face or the side wall of the top end part; a discharge hole is formed in the end face or the side wall of the bottom end part;

the outlet cover is used for sealing the discharge hole and is movably connected with the box body.

2. The grain storage bin of claim 1, wherein the bin body further comprises a lead-out structure, the lead-out structure is arranged at the bottom end part and corresponds to the discharge port;

the outlet cover is matched with the leading-out structure, and the outlet cover is used for sealing the discharge hole by sealing the opening of the leading-out structure.

3. The grain storage bin according to claim 2, wherein the lead-out structure is tubular or frustoconical.

4. The grain storage bin of claim 1, wherein the bin body further comprises a lead-in structure, and the lead-in structure is arranged on the bin body and corresponds to the position of the feed inlet.

5. The grain storage bin of claim 4 wherein the inlet structure is tubular or rounded off, the inlet structure communicating with the cavity through the feed inlet.

6. The grain storage bin of claim 1, 4 or 5 further comprising an inlet cover, wherein the inlet cover is movably connected with the bin body, and the inlet cover is used for closing the feed opening.

7. The grain storage bin as claimed in any one of claims 1 to 5, wherein the bin body is made of plastic and/or is transparent.

8. A grain storage device, characterized in that, comprises a bracket and the grain storage tank of any one of claims 1 to 7, the bracket is connected with the side wall of the tank body to support the tank body; and a preset distance is reserved between the discharging position of the box body and the supporting surface of the support.

9. The grain storage device of claim 8, wherein the height of the bin relative to the stand is adjustable.

10. The grain storage device of claim 8, further comprising a receiving container, wherein the side wall of the receiving container is provided with scales.

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