CN218930204U - Multifunctional storage device - Google Patents

Abstract

The utility model discloses a multifunctional storage device which comprises a storage bin, a measuring device and a main box, wherein the storage bin and the measuring device are respectively arranged on the main box, the measuring device comprises a rotary bin and a knob, the rotary bin comprises a rotary bucket, and the rotary bucket is provided with a storage bin assembly. The bin assembly comprises one or more bins, the rotating hopper further comprises a partition plate, adjacent bins are isolated by the partition plate, the bins are provided with feed inlets, the bins are communicated with the bins when in a feed state through the feed inlets, and are communicated with the material receiving boxes when in a discharge state, and the bin volumes of the upper bin and the lower bin are set values, so that the rotating hopper can realize quantitative measurement.

Description

Multifunctional storage device

Technical Field

The utility model belongs to the field of articles for daily use, and relates to a multifunctional storage device.

Background

The multifunctional rice barrel not only can store grains, but also can simplify the taking mode of the grains, thereby facilitating the acquisition of the grains. The grain is mainly obtained through the mode of pressing to the common multi-functional rice bucket in market, and this kind of pressing mode can't control the acquisition volume of grain, consequently produces the excessive or too little problem of grain volume of getting easily to bring inconvenience and puzzlement for the consumer, influence consumer's use experience.

Disclosure of Invention

The utility model provides a multifunctional storage device for overcoming the defects of the prior art.

In order to achieve the above purpose, the present utility model adopts the following technical scheme: including feed bin, measuring device and main part box, feed bin and measuring device set up in the main part box respectively, and measuring device includes rotatory storehouse and knob, and rotatory storehouse includes rotatory fill, and rotatory fill is equipped with the storehouse subassembly, the storehouse subassembly comprises one or more storehouses, and the capacity of storehouse is the setting value.

Further, the rotary bucket further comprises a partition board, adjacent storage bins are isolated through the partition board, the storage bins are provided with feed inlets, the storage bins are communicated with the storage bins when in a feeding state through the feed inlets, and the storage bins are communicated with the material receiving boxes when in a discharging state.

Further, the rotary bin further comprises an embedded block, a fixed block and a limiting block, wherein the fixed block is arranged between the embedded block and the rotary bucket and is connected with the embedded block and the rotary bucket respectively, the fixed block is provided with a protruding block, and the embedded block is provided with a notch.

Further, the knob is provided with a protrusion, and the protrusion is connected with the notch in a jogged manner.

Furthermore, the main body box is also provided with a clamping groove and a sign, and the protruding block is connected with the clamping groove in a jogged manner.

Further, still include the receiving box, the receiving box is equipped with the embedding board, and the interval of embedding board and receiving box matches with main part box width, and the receiving box sets up in main part box.

Further, the main body box is also provided with a sign, the knob is also provided with a sign, the sign and the discharging channel are always on the same plane, and the sign, the lug and the feeding hole are all on the same plane.

Further, the feed bin is including material advance chamber, locating pin, diaphragm and discharge channel, and inside the being equipped with of feed bin advances the chamber, and the material advances the chamber and sets up to funnel type structure, and discharge channel sets up in the material advances the chamber bottom, and the material advances the chamber and gets the terminal surface that the device is relative to set up to the arcwall face, and the radian of arcwall face matches with the radian of rotatory storehouse lateral surface, and the locating pin sets up in four angles of feed bin, and the diaphragm sets up between the locating pin.

Further, the measuring device further comprises a spring, and the spring is arranged between the limiting block and the main body box.

In summary, the utility model has the following advantages:

1) The measuring device comprises the knob and the rotary bin, the knob is provided with the mark, the grain and the protrusion, the grain design increases the friction force between the hand and the knob, and the force is conveniently exerted by the finger in the process of rotating the knob, so that the use convenience is improved; the rotary bin comprises a jogging block, a fixing block and a rotary bucket, wherein the rotary bucket is divided into an upper bin and a lower bin through a partition plate, and the capacity of the upper bin and the lower bin is set value, so that quantitative measurement is realized by the rotary bucket.

2) The bin is internally provided with the feeding cavity, the guiding and speed of the product flowing are controlled through the feeding cavity, the problem that the product is excessively measured due to the fact that the product flowing speed is too fast is avoided, a gap is arranged between the discharging channel and the rotary bin, the rotary bin can do rotary motion relative to the discharging channel but the product in the bin cannot enter the gap, therefore, the influence on the motion of the discharging channel and the rotary bin is prevented, and in addition, the bin is connected with the main box in a jogged mode, and the bin is convenient to install and detach.

3) According to the rotary bin, the grooves of the main body box are arranged to be wide at the upper part and narrow at the lower part, so that the rotary bin can be conveniently placed in the main body box or taken out of the main body box, the material outlet cavity of the main body box can control the flow guide and speed of products, so that the products in the rotary bin smoothly enter the material receiving box through the material outlet cavity, the marks of the main body box enable the knob to stay at the set position, and the phenomenon that the products in the bin cannot flow into the rotary bin due to the fact that the rotary position of the knob is deviated is avoided.

4) The material receiving box is provided with the embedded plate, and the distance between the embedded plate and the material receiving box is matched with the width of the main box, so that the material receiving box and the main box are stably placed, products in the rotating hopper enter the material receiving box through the material outlet cavity of the main box, and the material receiving box has a function of receiving the products.

Drawings

Fig. 1 is an isometric view of the present utility model.

Fig. 2 is a top view of the present utility model.

Fig. 3 is a front view of the present utility model.

FIG. 4 is a cut-away view of FIG. 3 A-A.

Fig. 5 is a schematic view of the structure of the silo according to the utility model.

Fig. 6 is a schematic structural view of the main body case of the present utility model.

Fig. 7 is a schematic cross-sectional view of a body case of the present utility model.

Fig. 8 is a schematic view of the structure of the rotary bin of the utility model.

Fig. 9 is a schematic view of a knob structure according to the present utility model.

FIG. 10 is another angular schematic view of the knob structure of the present utility model.

The marks in the figure are as follows: the automatic feeding device comprises a storage bin 1, a feeding cavity 11, a positioning pin 12, a transverse plate 13, a discharging channel 14, a main box 2, a groove 21, a clamping groove 22, a mark 23, a feeding cavity 24, a connecting port 25, a spring 3, a knob 4, a mark 41, a protrusion 42, a jogged block 5, a notch 51, a fixed block 6, a protrusion 61, a limiting block 7, a rotating bucket 8, a partition plate 81, a feeding port 82, a receiving box 9 and a jogged plate 91.

Detailed Description

Other advantages and effects of the present utility model will become apparent to those skilled in the art from the following disclosure, which describes the embodiments of the present utility model with reference to specific examples.

The utility model may be practiced in different embodiments, which are modified or changed without departing from the spirit of the utility model. It should be noted that the following embodiments and the results in the embodiments may be combined with each other without collision. It should be noted that the illustrations provided in the following embodiments merely illustrate the basic idea of the present utility model by way of illustration, and only the components related to the present utility model are shown in the drawings, not the number of components in actual practice, and the number of related components in actual use may be changed.

All directional indicators (such as up, down, left, right, front, back, lateral, longitudinal … …) in embodiments of the utility model are merely used to explain the relative positional relationship between the various components.

For reasons of installation errors, the parallel relationship referred to in the embodiments of the present utility model may be an approximately parallel relationship, and the perpendicular relationship may be an approximately perpendicular relationship.

Embodiment one:

as shown in fig. 1-10, a multifunctional storage device comprises a storage bin 1, a measuring device and a main box 2, wherein the storage bin 1 and the measuring device are respectively arranged on the main box 2, the measuring device comprises a rotary bin and a knob 4, the rotary bin comprises a rotary bucket 8, and the rotary bucket 8 is provided with a storage bin assembly.

The storage device can be used for storing rice, beans and other product crops, and can also be used for storing other kinds of powdery or granular products.

In this embodiment, feed bin 1 is inside to be equipped with material and advances chamber 11, and is equipped with locating pin 12, diaphragm 13 and discharge channel 14 in the bottom of feed bin 1, and material advances chamber 11 and sets up to the narrow funnel type structure in upper and lower to control the flow direction and the speed of product, avoid appearing leading to the product to appear getting excessive problem because of the product flow speed is too fast. The end face of the discharging channel 14 opposite to the measuring device is set to be an arc face, the radian of the arc face is matched with the radian of the outer side face of the rotary bin, a gap is formed between the arc face and the rotary bin, the rotary bin can do rotary motion relative to the discharging channel 14 but can not enable products in the bin to enter the gap, and therefore the effects on the motion of the discharging channel 14 and the measuring device are prevented, and then the products in the bin 1 can not splash into the main box 2 in the rotary process. The positioning pins 12 are provided in a plurality, in this embodiment, the positioning pins 12 are provided in four and are respectively provided at four corners of the bin 1, so that the bin 1 and the main body box 2 are placed stably. The diaphragm 13 sets up between locating pin 12, and the interval of diaphragm 13 and feed bin 1 matches with the width of main part box 2 to make feed bin 1 and main part box 2 gomphosis be connected, be convenient for feed bin 1 installation and dismantlement.

In this embodiment, according to the visual angle of fig. 1, there are 3 bins 1 in total, and are connected side by side, each bin 1 works independently, and the bins 1 can be designed independently; the number and the capacity of the bins 1 can be set according to actual conditions, and the products stored in each bin 1 can be set according to actual conditions.

In this embodiment, the main body box 2 is provided with a groove 21, a clamping groove 22, a mark 23, a material outlet cavity 24 and a connection port 25, the groove 21 is arranged inside the main body box 2, the clamping groove 22 is arranged at the bottom of the groove 21, the main body box 2 is provided with the mark 23, and the mark 23 is arranged on the outer surface of the main body box 2. The recess 21 is provided to be wide at the upper side and narrow at the lower side, and the bottom of the recess 21 is provided to be arc-shaped, thereby facilitating the placement of the rotary bin in the main body case 2 or the removal of the rotary bin from the main body case 2. The material outlet cavity 24 is arranged into a funnel-shaped structure with a wide upper part and a narrow lower part, so that the flow direction and speed of the product are controlled, and the product in the rotary bin can enter the material receiving box 9 through the material outlet cavity 24. The mark 23 is convenient for the knob 4 to stay at the set position, thereby avoiding that grains in the bin 1 can not flow into the rotary bin due to the deviation of the stay position of the knob 4.

In this embodiment, get the device and include spring 3, knob 4 and rotatory storehouse, knob 4 sets up in main part box 2, and knob 4 is equipped with sign 41, line and protruding 42, and wherein sign 41 is the symmetric form and distributes in knob 4 surface, and the line sets up in knob 4 side, and protruding 42 sets up in knob 4 internal surface. The design of line has increaseed the frictional force between hand and the knob 4, in the in-process of rotatory knob 4, is convenient for finger force to improve the simplicity of using. The working state of the rotary bin is further judged through the position relation between the mark 41 and the mark 23.

The rotary bin comprises a jogging block 5, a fixing block 6, a limiting block 7 and a rotary bucket 8, wherein the fixing block 6 is positioned between the jogging block 5 and the rotary bucket 8, the fixing block 6 is fixedly connected with the jogging block 5 and the rotary bucket 8 respectively, the limiting block 7 is fixedly connected with the rotary bucket, the jogging block 5 is provided with a notch 51, the size of the notch 51 is matched with a protrusion 42 arranged on the knob 4, and the notch 51 is jogged with the knob 4, so that the jogging block 5 and the knob 4 are jogged with each other. By rotating the knob 4, the rotating bin is rotated synchronously, thereby improving the convenience of use. The fixing block 6 is provided with at least two protruding blocks 61, the protruding blocks 61 are symmetrically distributed and have the same size, the protruding blocks 61 and the marks 41 are always on the same plane, and the size of the protruding blocks 61 is matched with the size of the clamping grooves 22. When the lugs 61 are provided in the detents 22, the rotating bucket 8 remains stationary and the detents 22 improve the stability of the rotating bucket 8.

The stopper 7 is disposed at the connection port 25 of the main body box 2, the spring 3 is disposed between the stopper 7 and the main body box 2, and the size of the stopper 7 is matched with the connection port 25, so that the whole rotary bin is fixed at the main body box 2. When the knob 4 is pressed, the spring 3 is compressed, the rotating bin moves backward, the protrusion 61 is separated from the clamping groove 22, and the rotating bin rotates under the rotation of the knob 4.

The rotary hopper 8 comprises a partition plate 81 and a storage bin assembly, wherein the storage bin assembly is composed of one or more storage bins, adjacent storage bins are isolated by the partition plate 81, the storage bins are provided with feed inlets 82, the storage bins are communicated with the storage bin 1 when in a feed state through the feed inlets 82, and are communicated with the material receiving box 9 when in a discharge state.

In this embodiment, the bin assembly includes an upper bin and a lower bin, which are separated by a partition 81, and the capacities of the upper bin and the lower bin are set values, so that the rotary bucket 8 can perform quantitative measurement. The upper bin and the lower bin are respectively communicated with the bin 1 and the receiving box 9 through the feed inlet 82, and the opening of the feed inlet 82 is larger than that of the discharge channel 14 of the bin 1, so that products of the discharge channel 14 can smoothly enter the rotary hopper 8, and the mark 41, the lug 61 and the feed inlet 82 are always positioned on the same plane; due to the rotational error, the flag 41 is approximately in the same plane as the feed port 82. When the rotary hopper 8 is in a working state, the mark 41, the mark 23, the grain inlet 82 and the discharge channel 14 are positioned on the same plane together, and the product in the storage bin 1 enters an upper storage bin or a lower storage bin of the rotary hopper 8; when only the flag 23 and the discharge channel 14 are in the same plane, this indicates that the rotary hopper 8 is in a closed state, i.e. the inlet 82 is separated from the discharge channel 14.

In this embodiment, the material receiving box 9 is provided with the embedding board 91, the embedding board is provided with two at least, the space between the embedding board 91 and the material receiving box 9 matches with the width of the main body box 2, so that the material receiving box 9 is connected with the main body box 2 in a embedding way, and the material receiving box 9 is ensured to be stably placed, the product in the rotating hopper 8 enters the material receiving box 9 through the material outlet cavity 24 of the main body box 2, and the material receiving box 9 has the function of receiving the product.

In the implementation process of this embodiment, when the mark 23 of the main body box 2 and the mark 41 of the knob 4 are located on the same plane, the protrusion 61 provided on the fixed block 6 is in a jogged state with the clamping groove 22, and at this time, the position of the feed inlet 82 of the upper or lower storage bin of the rotating bucket 8 corresponds to the position of the discharge channel 14 and is located on the same plane, and the product in the storage bin 1 enters the feed inlet 82 through the discharge channel 14. When the product in the bin 1 is in a static state, the upper bin or the lower bin is indicated to be filled; pressing the knob 4, the spring 3 is compressed, the protrusion 61 provided on the fixed block 6 is separated from the clamping groove 22, the rotating bin moves backward, the knob 4 is rotated, and the rotating bucket 8 rotates synchronously. When the other mark 41 of the knob 4 rotates to be in the same plane with the mark 23, the knob 4 is loosened, the spring 3 is restored to deform, the protruding block 61 arranged on the fixed block 6 is in a jogged state with the clamping groove 22 again, and products in the upper bin or the lower bin of the rotating bucket 8 enter the receiving box 9 through the discharge hole 24 of the main body box 2, and meanwhile, the corresponding lower bin and upper bin of the rotating bucket 8 enter the products again.

It will be apparent that the described embodiments are only some, but not all, embodiments of the utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the present utility model without making any inventive effort, shall fall within the scope of the present utility model.

Claims (9)

1. A multifunctional warehousing device, characterized in that: including feed bin, measuring device and main part box, feed bin and measuring device set up in the main part box respectively, and measuring device includes rotatory storehouse and knob, and rotatory storehouse includes rotatory fill, and rotatory fill is equipped with the storehouse subassembly, the storehouse subassembly comprises one or more storehouses, and the capacity of storehouse is the setting value.

2. A multi-function bin assembly according to claim 1, wherein: the rotary hopper further comprises a partition plate, adjacent storage bins are isolated through the partition plate, the storage bins are provided with feed inlets, the storage bins are communicated with the storage bins when in a feed state through the feed inlets, and the storage bins are communicated with the material receiving boxes when in a discharge state.

3. A multi-function bin assembly according to claim 1, wherein: the rotary bin further comprises an embedded block, a fixed block and a limiting block, wherein the fixed block is arranged between the embedded block and the rotary bucket and is connected with the embedded block and the rotary bucket respectively, the fixed block is provided with a protruding block, and the embedded block is provided with a notch.

4. A multi-function bin assembly according to claim 1, wherein: the knob is provided with a protrusion, and the protrusion is connected with the notch in a jogged way.

5. A multi-function bin assembly according to claim 1, wherein: the main body box is also provided with a clamping groove and a sign, and the protruding block is connected with the clamping groove in a jogged manner.

6. A multi-function bin assembly according to claim 1, wherein: still including receiving the magazine, connect the magazine to be equipped with the embedding board, the interval of embedding board and receiving the magazine matches with main part box width, connects the magazine setting in main part box.

7. A multi-function bin assembly according to claim 1, wherein: the main body box is also provided with a sign, the knob is also provided with a sign, the sign and the discharging channel are positioned on the same plane, and the sign, the lug and the feeding port are positioned on the same plane.

8. A multi-function bin assembly according to claim 1, wherein: the feed bin is including material advance chamber, locating pin, diaphragm and discharge channel, and the inside material that is equipped with of feed bin advances the chamber, and the material advances the chamber and sets up to funnel type structure, and discharge channel sets up in the material and advances the chamber bottom, and the material advances the chamber and gets the terminal surface that the device is relative and set up to the arcwall face, and the radian of arcwall face matches with the radian of rotatory storehouse lateral surface, and the locating pin sets up in four angles of feed bin, and the diaphragm sets up between the locating pin.

9. A multi-function bin assembly according to claim 1, wherein: the measuring device further comprises a spring, and the spring is arranged between the limiting block and the main body box.

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