CN112274037A

CN112274037A - Layered drying grain drying, storing and taking device

Info

Publication number: CN112274037A
Application number: CN202011220166.6A
Authority: CN
Inventors: 武金英
Original assignee: Individual
Current assignee: Hunan Jiabo Ecological Agricultural Technology Co ltd
Priority date: 2020-11-05
Filing date: 2020-11-05
Publication date: 2021-01-29
Anticipated expiration: 2040-11-05
Also published as: CN112274037B

Abstract

The invention relates to a layered drying grain drying, storing and taking device, which comprises a storage shell, the lower side of the storage shell is fixedly connected with a lower shell, a material receiving groove with an upward opening and a rightward opening is arranged in the lower shell, a layered storage device is arranged in the storage shell and comprises a feeding cavity with an upward opening, the lower side of the feeding cavity is provided with three vertically distributed storage cavities, the storage cavity at the uppermost side is communicated with the feeding cavity through a through groove, the device can carry out layer sealing treatment on enough distance, avoids grain mildewing caused by always exposing in the air, and automatically pours the raw materials at the upper side into the storage cavity adjacent to the lower side after the lower side is used up, simultaneously can roughly judge how much of raw materials in the container, further, the device can avoid forgetting when placing the container, directly takes the condition that causes grain unrestrained.

Description

Layered drying grain drying, storing and taking device

Technical Field

The invention relates to the technical field of grain storage, in particular to a layered drying, storing and taking device for grains.

Background

The rice is not in time using up the back, can wet live worm gradually after exposing the air for a long time, serious can go mildy and rot, can constantly go on the rice with the contact of air at the in-process of taking, absorb the moisture in the air, cause to become damp and mildy and rot, if take at every turn and carry out once sealed operation again too troublesome, and can not judge whether there is the container to accept to the general rice device of getting, to some naughty children, probably directly put out the rice under the condition that the container was not placed to the downside, cause the waste.

Disclosure of Invention

The technical problem to be solved by the invention is to provide a layered drying grain drying, storing and taking device, and the problems are solved.

The invention is realized by the following technical scheme.

The invention relates to a layered drying grain drying, storing and taking device, which comprises a storage shell, wherein the lower side of the storage shell is fixedly connected with a lower shell, a material receiving groove with an upward opening and a rightward opening is arranged in the lower shell, a layered storage device is arranged in the storage shell and comprises a feeding cavity with an upward opening, three vertically distributed material storage cavities are arranged at the lower side of the feeding cavity, a through groove is communicated between the material storage cavity at the uppermost side and the feeding cavity, a through groove is also communicated between two adjacent material storage cavities, a first sliding groove is arranged at the left end wall and the right end wall of each through groove, a rotating groove is arranged at the upper side of the first sliding groove at the right side, a limiting block sliding groove is arranged at the upper side of the first sliding groove, a sliding baffle is connected in the first sliding groove in a sliding manner, a limiting groove is arranged at the upper end face of the, a first reset spring is fixedly connected between the limiting block and the storage shell, the upper end face of the sliding baffle on the right side is fixedly connected with a rack plate positioned in the rotating groove, a first rotating shaft is fixedly connected between the front end wall and the rear end wall of the rotating groove, a rope winding wheel and a first gear meshed with the upper end face of the rack plate are fixedly connected to the first rotating shaft, a second reset spring is fixedly connected between the sliding baffle and the storage shell, an indicating device is arranged in the storage shell and comprises a rotating groove, a discharging through groove is communicated between the material storage cavity on the most lateral side and the material receiving groove, a trapezoidal sliding groove is arranged on the right end wall of the rotating groove, a safety device is arranged in the device and comprises a rotating cavity positioned on the lower side of the rotating groove, a top plate is slidably connected in the rotating cavity, and a third reset spring is fixedly connected between the top plate and the storage shell, and the lower end wall of the material receiving groove is provided with a lifting groove.

Preferably, the upper end wall of the storage cavity and the left and right end walls of the storage cavity are provided with two induction chutes which are bilaterally symmetrical about the through groove, the lower end wall of the storage cavity and the left and right end walls of the storage cavity are also provided with two induction chutes which are bilaterally symmetrical about the through groove, a top pressure plate is slidably connected in the induction chutes, a first spring is fixedly connected between the top pressure plate and the storage shell, a first pull rope is fixedly connected between the top pressure plate and the sliding baffle which is adjacent to the top of the top pressure plate, and a second pull rope is fixedly connected between the top pressure plate and the limiting block which is adjacent to the top of the bottom pressure plate.

Preferably, sliding connection has the rack piece of three trapezoidal distributions in the trapezoidal spout, the swivelling chute with the second axis of rotation that extends about friction connection has between the right-hand member wall of storage shell, the terminal fixedly connected with in right side of second axis of rotation is located the swivelling chute and with the second gear of rack piece meshing, the top the rope wheel with the rearmost fixedly connected with third stay cord between the rack piece, centre the rope wheel with the centre fixedly connected with second third stay cord between the rack piece, the downside the rope wheel with foremost fixedly connected with third stay cord between the rack piece, the rack piece with fixedly connected with second spring between the storage shell.

Preferably, rotate the chamber with the third axis of rotation that extends about fixedly connected with between the right-hand member face of storage casing, fixedly connected with is located in the third axis of rotation the rolling disc on storage casing right side, the last dwang that is connected with of rotating of rolling disc, fixedly connected with is located in the third axis of rotation the cam of rotating the intracavity, just the cam with the roof butt, sliding connection has the clamp plate in the lift inslot, the clamp plate with fixedly connected with fourth reset spring between the casing down.

Preferably, an upper annular groove is arranged in the blanking through groove, an upper sliding block is connected in the upper annular groove in a sliding manner, a third spring is fixedly connected between the upper sliding block and the storage shell, a blanking groove which extends up and down and has a downward opening is communicated between the upper end surface and the lower end surface of the third spring, a plurality of blanking grooves are arranged in the blanking grooves, a fourth pull rope is fixedly connected between the upper sliding block and the pressing plate, a fixed block is fixedly arranged on the lower end surface of the storage shell, a blanking groove which is communicated with the blanking through groove and the material receiving groove is arranged in the fixed block, a lower annular sliding groove is arranged in the blanking groove, a lower sliding plate is connected in the lower annular sliding groove in a sliding manner, a fourth spring is fixedly connected between the lower sliding plate and the fixed block, a conical sealing block is fixedly connected on the upper end surface of the lower sliding plate, a fifth pull rope is fixedly connected between the lower sliding plate and the top plate, and a sealing cover plate in friction connection with the storage shell is arranged on the upper side of the feeding cavity.

The invention has the beneficial effects that: this device can carry out the layer sealing formula with keeping away from of capacity and handle, avoids exposing always and causes grain to go mildy in the air, pours the raw materials of upside into the adjacent storage intracavity of downside automatically after the downside is used up, can roughly judge how much of raw materials in the container simultaneously, and is further, and the device can avoid forgetting when placing the container, directly takes and causes the unrestrained condition of grain.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is an enlarged schematic view of the embodiment of the present invention at A in FIG. 1;

FIG. 3 is an enlarged schematic view of the embodiment of the present invention at B in FIG. 1;

FIG. 4 is an enlarged schematic view of the embodiment of the present invention at C in FIG. 1;

FIG. 5 is an enlarged view taken at D-D in FIG. 2 according to an embodiment of the present invention;

FIG. 6 is an enlarged view from E-E in FIG. 3 according to an embodiment of the present invention.

Detailed Description

The invention will now be described in detail with reference to fig. 1-6, wherein for ease of description the orientations described hereinafter are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The layered drying grain drying, storing and taking device comprises a storage shell 10, a lower shell 19 is fixedly connected to the lower side of the storage shell 10, a material receiving groove 15 with an upward opening and a rightward opening is formed in the lower shell 19, a layered storage device 901 is arranged in the storage shell 10, the layered storage device 901 comprises a feeding cavity 13 with an upward opening, three vertically distributed material storage cavities 11 are arranged on the lower side of the feeding cavity 13, a through groove 32 is communicated between the material storage cavity 11 and the feeding cavity 13 on the uppermost side, a through groove 32 is also communicated between two adjacent material storage cavities 11, a first chute 40 is arranged on each of the left and right end walls of each through groove 32, a rotating groove 39 is arranged on the upper side of the first chute 40 on the right side, a limiting block chute 34 is arranged on the upper side of the first chute 40, and a sliding baffle 49 is slidably connected in the first chute 40, the upper end face of the sliding baffle 49 is provided with a limiting groove 48, the limiting block 33 is slidably connected in the limiting block sliding groove 34, a first return spring 35 is fixedly connected between the limiting block 33 and the storage shell 10, the upper end face of the sliding baffle 49 on the right side is fixedly connected with a rack plate 47 positioned in the rotating groove 39, a first rotating shaft 37 is fixedly connected between the front end wall and the rear end wall of the rotating groove 39, a rope winding wheel 43 and a first gear 38 meshed with the upper end face of the rack plate 47 are fixedly connected on the first rotating shaft 37, a second return spring 46 is fixedly connected between the sliding baffle 49 and the storage shell 10, an indicating device 902 is arranged in the storage shell 10, the indicating device 902 comprises a rotating groove 52, the most lateral side of the storage cavity 11 and the material receiving groove 15 are communicated with a blanking through groove 22, and the right end wall of the rotating groove 52 is provided with a trapezoidal sliding groove 62, a safety device 903 is arranged in the device, the safety device 903 comprises a rotating cavity 53 positioned on the lower side of the rotating groove 52, a top plate 55 is connected in the rotating cavity 53 in a sliding mode, a third return spring 57 is fixedly connected between the top plate 55 and the storage shell 10, and a lifting groove 17 is formed in the lower end wall of the material receiving groove 15.

Advantageously, two induction chutes 41 are disposed on the upper end wall of the magazine chamber 11 and the left and right end walls of the magazine chamber 11, which are bilaterally symmetric with respect to the through slot 32, two induction chutes 41 are also disposed on the lower end wall of the magazine chamber 11 and the left and right end walls of the magazine chamber 11, which are bilaterally symmetric with respect to the through slot 32, a top pressure plate 44 is slidably connected in the induction chutes 41, a first spring 42 is fixedly connected between the top pressure plate 44 and the storage case 10, a first pull rope 45 is fixedly connected between the top pressure plate 44 and the adjacent sliding baffle 49 above, and a second pull rope 36 is fixedly connected between the bottom pressure plate 44 and the adjacent stopper 33 above.

Advantageously, three rack blocks 51 are slidably connected to the trapezoidal sliding groove 62, a second rotation shaft 63 extending left and right is frictionally connected between the rotation groove 52 and the right end wall of the storage case 10, a second gear 50 engaged with the rack blocks 51 and located in the rotation groove 52 is fixedly connected to a right end of the second rotation shaft 63, a third pull rope 56 is fixedly connected between the uppermost winding wheel 43 and the rearmost rack block 51, a second third pull rope 56 is fixedly connected between the middle winding wheel 43 and the middle rack block 51, a third pull rope 56 is fixedly connected between the lowermost winding wheel 43 and the foremost rack block 51, and a second spring 65 is fixedly connected between the rack block 51 and the storage case 10.

Advantageously, a third rotation shaft 59 extending left and right is fixedly connected between the rotation cavity 53 and the right end face of the storage housing 10, a rotation disc 60 located on the right side of the storage housing 10 is fixedly connected to the third rotation shaft 59, a rotation rod 61 is rotatably connected to the rotation disc 60, a cam 54 located in the rotation cavity 53 is fixedly connected to the third rotation shaft 59, the cam 54 abuts against the top plate 55, a pressing plate 18 is slidably connected to the lifting groove 17, and a fourth return spring 16 is fixedly connected between the pressing plate 18 and the lower housing 19.

Beneficially, an upper ring groove 20 is arranged in the discharging through groove 22, an upper slide block 21 is slidably connected in the upper ring groove 20, a third spring 25 is fixedly connected between the upper slide block 21 and the storage shell 10, a lower groove 66 which extends vertically and has a downward opening is communicated between the upper end surface and the lower end surface of the third spring 25, a plurality of lower grooves 66 are arranged in the lower groove 66, a fourth pull rope 24 is fixedly connected between the upper slide block 21 and the press plate 18, a fixed block 67 is fixedly arranged on the lower end surface of the storage shell 10, a discharging groove 68 which communicates the discharging through groove 22 and the receiving groove 15 is arranged in the fixed block 67, a lower ring-shaped sliding groove 27 is arranged in the discharging groove 68, a lower sliding plate 30 is slidably connected in the lower ring-shaped sliding groove 27, a fourth spring 26 is fixedly connected between the lower sliding plate 30 and the fixed block 67, and a conical sealing block 31 is fixedly connected on the upper, a blanking through groove 29 is communicated between the upper end surface and the lower end surface of the lower sliding plate 30, a fifth pull rope 28 is fixedly connected between the lower sliding plate 30 and the top plate 55, and a sealing cover plate 12 which is in friction connection with the storage shell 10 is arranged on the upper side of the feeding cavity 13.

In the initial state, the three rack blocks 51 are all positioned at the front side of the second gear 50, the two sliding baffles 49 at the same horizontal position are at the limit positions far away from each other, the U-shaped shell 23 is at the lower limit position, the feed chute 66 is not communicated with the storage cavity 11, and the fourth spring 26 is in the stretching state.

Opening the sealing cover plate 12, pouring rice into the feeding cavity 13 continuously, allowing the raw materials to fall into the storage cavity 11 at the lowest layer continuously, allowing the second pull rope 36 to be loosened when the raw materials press the two pressing plates 44 at the lower side, allowing the limiting block 33 to press the upper end face of the sliding baffle 49 downwards under the action of the first return spring 35 at the moment, and allowing the pressing plate 44 at the upper side to be motionless, allowing the sliding baffle 49 to be motionless when the rice continuously enters the storage cavity 11 at the lowest side until the pressing plates 44 at the two upper sides of the pressing plates 44 at the lowest side are pressed, indicating that the raw materials in the storage cavity 11 at the lowest side are full, allowing the two sliding baffles 49 to move in a direction approaching each other until the limiting block 33 enters the sliding baffles 49 to limit the movement of the sliding baffles 49 at the moment;

the steps are repeated to gradually layer the raw materials, when the sliding baffle 49 at the upper right side in the storage cavity 11 moves leftwards, the rack block 51 is pulled to move backwards through the rotation of the first gear 38, the first rotating shaft 37 and the rope winding wheel 43, so that the second gear 50 rotates, the second gear 50 drives the second rotating shaft 63 and the pointer 64 to rotate, the rotating angle of the pointer 64 can be observed to judge the approximate residual capacity of the raw materials in the device, and when the three storage cavities 11 are filled with rice, the three rack blocks 51 are positioned at the rear side of the second gear 50;

the container is placed on the pressing plate 18, at the moment, the pressing plate 18 moves downwards to pull the fourth pull rope 24, so that the upper slide block 21 moves upwards, the rotating rod 61 is communicated with the storage cavity 11 on the lower side, at the moment, under the action of the fourth spring 26, the lower slide plate 30 moves upwards to drive the conical sealing block 31 and seal the blanking through groove 22, only the rotating disc 60 is rotated manually, the third rotating shaft 59 rotates to drive the cam 54 to rotate, the cam 54 releases the jacking pressure on the top plate 55, at the moment, under the action of the third return spring 57, the top plate 55 moves upwards to pull the fifth pull rope 28, so that the lower slide plate 30 moves downwards, at the moment, the raw material in the storage cavity 11 on the lowest side falls into the container through the blanking groove 66, the blanking through groove 22 and the blanking through groove 29, so that the taking of the raw material is completed, and the situation that;

when the distance from the lowest side is gradually reduced, the two top pressure plates 44 on the upper side are no longer subjected to the pressure of the raw materials, but under the action of the limiting block 33, the sliding baffle 49 cannot be reset until the distance from the two top pressure plates 44 on the lower side in the storage cavity 11 on the lowest side is no longer pressed, the limiting block 33 moves upwards to be free from the limitation of the sliding baffle 49, the raw materials in the middle storage cavity 11 enter the lowest side, the raw materials in the storage cavity 11 on the uppermost side enter the storage cavity 11 on the uppermost side, the raw materials in the feeding cavity 13 enter the storage cavity 11 on the uppermost side, and the steps are sequentially repeated along with the taking in the storage cavity 11 on the lowest side;

when the uppermost rack plate 47 is returned, the foremost rack block 51 moves forward, the angle of rotation of the hand 64 with respect to the initial position decreases, and the amount of the raw material in the apparatus can be roughly determined and an appropriate amount of the raw material can be added.

The above embodiments are merely illustrative of the technical concepts and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims

1. The utility model provides a device is taken in dry storage of layered drying's grain, includes stores the casing, its characterized in that: the lower side of the storage shell is fixedly connected with a lower shell, a material receiving groove with an upward opening and a rightward opening is arranged in the lower shell, a layered storage device is arranged in the storage shell and comprises a feeding cavity with an upward opening, three vertically distributed material storage cavities are arranged on the lower side of the feeding cavity, a through groove is communicated between the material storage cavity and the feeding cavity on the uppermost side, a through groove is also communicated between two adjacent material storage cavities, a first chute is arranged on the left end wall and the right end wall of each through groove, a rotating groove is arranged on the upper side of the first chute on the right side, a stopper chute is arranged on the upper side of the first chute, a sliding baffle is slidably connected in the first chute, a limiting groove is arranged on the upper end face of the sliding baffle, a stopper is slidably connected in the stopper chute, and a first reset spring is fixedly connected between the stopper and the storage, the upper end surface of the right sliding baffle is fixedly connected with a rack plate positioned in the rotating groove, a first rotating shaft is fixedly connected between the front end wall and the rear end wall of the rotating groove, a rope winding wheel and a first gear meshed with the upper end face of the rack plate are fixedly connected to the first rotating shaft, a second return spring is fixedly connected between the sliding baffle and the storage shell, an indicating device is arranged in the storage shell, the indicating device comprises a rotary groove, a feeding through groove is communicated between the material storage cavity at the most lateral side and the material receiving groove, the right end wall of the rotary groove is provided with a trapezoidal sliding groove, a safety device is arranged in the device, the safety device comprises a rotary cavity positioned at the lower side of the rotary groove, the rotation intracavity sliding connection has the roof, the roof with store fixedly connected with third reset spring between the casing, the lower terminal wall that connects the silo is equipped with the lift groove.

2. The drying, storing and taking device for layered drying grains according to claim 1, wherein the drying, storing and taking device comprises: the upper end wall of the storage cavity and the left and right end walls of the storage cavity are provided with two induction chutes which are symmetrical about the through groove, the lower end wall of the storage cavity and the left and right end walls of the storage cavity are also provided with two induction chutes which are symmetrical about the through groove, a top pressure plate is connected in the induction chutes in a sliding mode, the top pressure plate and the storage shell are fixedly connected with a first spring, the top pressure plate is adjacent to the top of the storage shell, a first pull rope is fixedly connected between the sliding baffle plates, and the bottom pressure plate is adjacent to the top of the storage cavity, and a second pull rope is fixedly connected between the limiting blocks.

3. The drying, storing and taking device for layered drying grains according to claim 1, wherein the drying, storing and taking device comprises: sliding connection has the rack piece of three trapezoidal distribution in the trapezoidal spout, the swivelling chute with the second axis of rotation that extends about friction connection has between the right-hand member wall of storage casing, the terminal fixedly connected with in right side of second axis of rotation is located the swivelling chute just with the second gear of rack piece meshing, the top the rope wheel with the last side fixedly connected with third stay cord, centre between the rack piece the rope wheel and the centre fixedly connected with second third stay cord between the rack piece, downside the rope wheel with the front side fixedly connected with third stay cord between the rack piece, the rack piece with fixedly connected with second spring between the storage casing.

4. The drying, storing and taking device for layered drying grains according to claim 1, wherein the drying, storing and taking device comprises: rotate the chamber with the third axis of rotation that extends about fixedly connected with between the right-hand member face of storage casing, fixedly connected with is located in the third axis of rotation the rolling disc on storage casing right side, it is connected with the dwang to rotate on the rolling disc, fixedly connected with is located in the third axis of rotation the cam of intracavity, just the cam with the roof butt, sliding connection has the clamp plate in the lift inslot, the clamp plate with fixedly connected with fourth reset spring between the casing down.

5. The drying, storing and taking device for layered drying grains according to claim 1, wherein the drying, storing and taking device comprises: an upper ring groove is arranged in the blanking through groove, an upper slide block is connected in the upper ring groove in a sliding manner, a third spring is fixedly connected between the upper slide block and the storage shell, a blanking groove which extends up and down and has a downward opening is communicated between the upper end surface and the lower end surface of the third spring, a plurality of blanking grooves are arranged in the blanking grooves, a fourth pull rope is fixedly connected between the upper slide block and the pressing plate, a fixed block is fixedly arranged on the lower end surface of the storage shell, a blanking groove which is communicated with the blanking through groove and the material receiving groove is arranged in the fixed block, a lower ring-shaped chute is arranged in the blanking groove, a lower slide plate is connected in the lower ring-shaped chute in a sliding manner, a fourth spring is fixedly connected between the lower slide plate and the fixed block, a conical sealing block is fixedly connected on the upper end surface of the, a fifth pull rope is fixedly connected between the lower sliding plate and the top plate, and a sealing cover plate in friction connection with the storage shell is arranged on the upper side of the feeding cavity.