CN216638249U - Storehouse is stored to corn - Google Patents

Abstract

The utility model provides a paddy storage bin which comprises a bearing table, wherein a vertical cylinder penetrates through the top of the bearing table, a through hole positioned above the bearing table is formed in the vertical cylinder, a cylinder used for blocking the through hole is arranged in the vertical cylinder, and a first electric telescopic rod used for driving the cylinder to move up and down is fixed in the vertical cylinder; a bushing plate corresponding to the bottom of the vertical cylinder is arranged below the bearing platform, a vibrator is fixed at the bottom of the bushing plate, and a push plate for pushing the paddy is arranged at the top of the bushing plate; inclined plates are fixed on two sides of the drain plate, round holes with diameters larger than the grain diameter are formed in the inclined plates, and a collecting frame is arranged below the inclined plates. The utility model can effectively remove impurities such as dust or stones in the paddy, avoids the pollution to the paddy after some impurities are accumulated with the paddy for a long time, has the effect of cooling the paddy and simultaneously improves the efficiency of the subsequent processing of the paddy.

Description

Storehouse is stored to corn

Technical Field

The utility model relates to the technical field of storage bins, in particular to a rice storage bin.

Background

The rice refers to seeds without rice hulls, and the appearance structure of rice grains mainly comprises two parts, namely glumes (rice hulls) and caryopses (brown rice); after the dried rice is purchased, the rice is stored in a storage bin to wait for subsequent processing, and when the rice is accumulated in the storage bin, cooling equipment such as a fan and the like is needed to cool the rice, so that the over-high temperature of the rice is avoided, and a worker can detect the temperature of the reactor core of the rice heap regularly through temperature measuring equipment; but pile up when storing the storehouse after now the corn is bought back, can have impurity such as a lot of dust or stones in the corn, some impurity pile up the back in the corn for a long time, can cause the pollution to the corn, lead to the corn situation such as going mildy, and the corn follow-up processing still need carry out the edulcoration specially and handles, when impurity is too much, can reduce the efficiency of the follow-up processing of corn, need carry out the edulcoration operation back repeatedly to the corn, just can carry out processing on next step to the corn.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a rice storage bin, which solves the problems that after rice is purchased, a lot of impurities such as dust or stones exist in the rice, and after some impurities are accumulated in the rice for a long time, the rice is polluted.

In order to solve the technical problems, the utility model specifically adopts the following technical scheme:

a paddy storage bin comprises a bearing platform, wherein a vertical cylinder penetrates through the top of the bearing platform, a through hole positioned above the bearing platform is formed in the vertical cylinder, a cylinder used for blocking the through hole is arranged in the vertical cylinder, and a first electric telescopic rod used for driving the cylinder to move up and down is fixed in the vertical cylinder; a bushing plate corresponding to the bottom of the vertical cylinder is arranged below the bearing platform, a vibrator is fixed at the bottom of the bushing plate, and a push plate for pushing the paddy is arranged at the top of the bushing plate; the two sides of the leakage plate are both fixed with inclined plates, round holes with diameters larger than the grain diameters are formed in the inclined plates, a collecting frame is arranged below the inclined plates, a grain elevator used for sucking the grains in the collecting frame is arranged above the bearing table, and the discharge end of the grain elevator is communicated with a discharge pipe located above the bearing table.

Compared with the prior art, the utility model has the following beneficial effects:

when the dried rice is accumulated on the bearing table, the first electric telescopic rod can be started, the telescopic end of the first electric telescopic rod is contracted to drive the cylinder to move, the through hole is not blocked, the rice on the bearing table can enter the vertical cylinder through the through hole, then the rice falls on the bushing plate, the bushing plate vibrates after the vibrator is started, and impurities such as dust in the rice can fall below the bushing plate through the through hole in the process of pushing the rice on the bushing plate to move along with the push plate; after the rice is pushed to the inclined plate by the push plate, the rice falls into the collection frame through the round holes on the inclined plate in the process that the rice falls off from the inclined plate, impurities such as stones with larger particle diameters in the rice fall off from the inclined plate, then the rice in the collection frame is sucked by the grain suction machine and then discharged through the discharge pipe, so that the rice falls above a rice pile, the effect of cooling the rice can be achieved in the process of conveying the rice, the rice is repeatedly and circularly conveyed, impurities in the rice can be removed, and meanwhile, the rice can be effectively cooled; the utility model can effectively remove impurities such as dust or stones in the paddy, avoid the pollution to the paddy after some impurities are accumulated with the paddy for a long time, play a role in cooling the paddy and simultaneously improve the efficiency of the subsequent processing of the paddy.

Drawings

FIG. 1 is a front view of the present invention;

FIG. 2 is a sectional view of the vertical tube of the present invention;

FIG. 3 is a sectional structural view of the fixed frame of the present invention.

In the figure: 1. a bearing table; 2. a vertical cylinder; 21. perforating; 22. a cylinder; 23. an electric telescopic rod I; 24. a T-shaped rod; 3. a T-shaped plate; 31. a grain elevator; 32. a discharge pipe; 33. a connecting pipe; 34. a collection frame; 35. a short pipe; 4. a fixing frame; 41. a baffle; 42. a bushing; 43. a vibrator; 44. a sloping plate; 45. a storage shell; 5. pushing the plate; 51. no. two electric telescopic rod.

Detailed Description

The details of the present invention will be described below with reference to the accompanying drawings and examples.

As shown in fig. 1 and 2, the present invention provides a rice storage bin, which includes a bearing platform 1, wherein a vertical tube 2 penetrates through the top of the bearing platform 1, a through hole 21 located above the bearing platform 1 is formed on the vertical tube 2, a cylinder 22 for blocking the through hole 21 is arranged in the vertical tube 2, and a first electric telescopic rod 23 for driving the cylinder 22 to move up and down is fixed in the vertical tube 2; a bushing plate 42 corresponding to the bottom of the vertical cylinder 2 is arranged below the bearing platform 1, a vibrator 43 is fixed at the bottom of the bushing plate 42, and a push plate 5 for pushing the paddy is arranged at the top of the bushing plate 42; inclined plates 44 are fixed on two sides of the drain plate 42, round holes with diameters larger than the grain diameter are formed in the inclined plates 44, a collecting frame 34 is arranged below the inclined plates 44, a grain suction machine 31 used for sucking the grains in the collecting frame 34 is arranged above the bearing platform 1, and a discharge end of the grain suction machine 31 is communicated with a discharge pipe 32 located above the bearing platform 1.

As shown in fig. 1, a T-shaped plate 3 is arranged on the side surface of the bearing table 1, the bottom of the grain elevator 31 is rotatably connected with the top of the T-shaped plate 3, the suction end of the bottom of the grain elevator 31 penetrates through the top of the T-shaped plate 3 and is rotatably connected with a connecting pipe 33, and one end of the connecting pipe 33, which is far away from the grain elevator 31, is communicated with a collecting frame 34; a storage shell 45 is fixed on one side of the collecting frame 34, which faces away from the bushing 42, and the storage shell 45 is positioned below one side of the inclined plate 44, which faces away from the bushing 42. The T-shaped plate 3 is fixed on the ground and can bear the grain elevator 31, when the rice enters the collecting frame 34, the grain elevator 31 is started, so that the rice in the collecting frame 34 can enter the grain elevator 31 through the connecting pipe 33, and then the grain elevator 31 discharges the rice through the discharging pipe 32; when the paddy needs to be bagged, packaged or transferred, the grain elevator 31 can be rotated, and after the position of the discharging pipe 32 is changed, the discharging pipe 32 can discharge the paddy into a loading bag or a loading vehicle, so that the paddy can be quickly packaged or transferred; the impurities such as stones falling from the inclined plate 44 enter the storage shell 45, and the bottom of the storage shell 45 is arranged to be higher at one end and lower at the other end, so that the impurities such as stones entering the storage shell 45 can slide to the slag discharge hole on the storage shell 45 and then be discharged; when the vibrator 43 causes the bushing 42 to vibrate, the inclined plate 44 vibrates, and thus rice or stones are prevented from being accumulated on the inclined plate 44.

As shown in fig. 1 and 3, a fixing frame 4 is arranged below the bearing platform 1, a guide plate 41 obliquely arranged is fixed in the fixing frame 4, a second electric telescopic rod 51 is fixed at the bottom of the bearing platform 1, and a telescopic end of the second electric telescopic rod 51 is fixed with the push plate 5. Fixed frame 4 is placed subaerial, after the perforation 21 on the vertical section of thick bamboo 2 gets into in the vertical section of thick bamboo 2 when the corn, the corn drops to bushing 42 in the vertical section of thick bamboo 2, vibrator 43 makes the corn vibration back on the bushing 42, can make impurity such as dust in the corn fall into in fixed frame 4 through the small opening, the flexible end drive push pedal 5 of No. two electric telescopic handle 51 of deuterogamying repeats lateral shifting, push away the corn on the bushing 42 to the in-process on swash plate 44, impurity such as the dust that mix with in the corn equally can get into in fixed frame 4 through the small opening on bushing 42, then impurity slides to the discharge opening department on fixed frame 4 back through guide plate 41, impurity discharges through the discharge opening.

As shown in fig. 2, two groups of through holes 21 are formed in the vertical cylinder 2, the two groups of through holes 21 are distributed vertically and symmetrically, the two groups of through holes 21 are blocked by a cylinder 22, a T-shaped rod 24 is fixed in the cylinder 22, and one end of the T-shaped rod 24 is fixed to a telescopic end of a first electric telescopic rod 23. The telescopic end of the first electric telescopic rod 23 can drive the cylinder 22 to move upwards or downwards through the T-shaped rod 24, and after the cylinder 22 moves upwards, a group of through holes 21 positioned below are opened, so that the paddy at the bottom of the paddy pile enters the vertical cylinder 2; when the temperature of the core of the rice grain stack is too high, the cylinder 22 can be moved downwards to open the group of through holes 21 positioned above, and the rice at the core of the rice grain stack enters the vertical cylinder 2 through the group of through holes 21 positioned above, so that the effect of timely cooling is achieved.

As shown in fig. 1 and fig. 2, the plummer 1 comprises a hollow plate and supporting legs, the supporting legs are fixed at the bottom of the hollow plate, and the top of the hollow plate is provided with air holes; and a short pipe 35 is communicated between the connecting pipe 33 and the hollow plate, and valves are respectively arranged on the connecting pipe 33 and the short pipe 35. The valve on the connecting pipe 33 is positioned below the short pipe 35, when the grain elevator 31 does not need to suck the paddy through the connecting pipe 33, the valve on the connecting pipe 33 is closed, the valve on the short pipe 35 is opened, and after the short pipe 35 sucks the air into the hollow plate, the air holes on the top of the hollow plate generate suction force, so that a certain cooling effect on the paddy can be achieved; meanwhile, after the grain elevator 31 can be rotated, impurities such as dust and the like sucked by the short pipe 35 enter the grain elevator 31 and are discharged out of the rice heap through the discharge pipe 32; the vertical cylinder 2 penetrates through the hollow plate and is fixedly connected with the hollow plate.

When the device is used, two T-shaped plates 3 are arranged and are respectively positioned at two sides of the bearing platform 1, a plurality of grain absorbers 31 are arranged on the T-shaped plates 3, a plurality of vertical cylinders 2 are also arranged on the bearing platform 1, and two collecting frames 34 positioned below the bearing platform 1 are respectively communicated with a plurality of connecting pipes 33; after the paddy is accumulated on the bearing platform 1, the cylinder 22 moves upwards, the paddy positioned at the bottom enters the vertical cylinder 2 through the through hole 21 and then falls on the bushing plate 42, the vibrator 43 is started to enable the bushing plate 42 to start to vibrate, dust or impurities with particle sizes smaller than that of the paddy enter the fixing frame 4 through the through hole on the bushing plate 42 to remove impurities of the paddy, and then the push plate 5 is repeatedly driven by the telescopic end of the second electric telescopic rod 51, and the dust and the impurities clamped by the bushing plate 42 also enter the fixing frame 4 through the through hole in the moving process; after the rice is pushed to the inclined plate 44, impurities such as stones with particle sizes larger than that of the rice slide into the storage shell 45 through the inclined plate 44, and the rice enters the collecting frame 34 through the round holes on the inclined plate 44; after the grain elevator 31 is started, the rice in the collecting frame 34 is sucked in through the connecting pipe 33, the rice entering the grain elevator 31 is discharged through the discharging pipe 32, and the rice can be effectively cooled in the process of falling to a rice stack.

Finally, the above embodiments are only for illustrating the technical solutions of the present invention and not for limiting, although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions may be made to the technical solutions of the present invention without departing from the spirit and scope of the technical solutions of the present invention, and all of them should be covered in the claims of the present invention.

Claims (5)

1. The utility model provides a storehouse is stored to corn, includes plummer (1), its characterized in that: a vertical cylinder (2) penetrates through the top of the bearing table (1), a through hole (21) located above the bearing table (1) is formed in the vertical cylinder (2), a cylinder (22) used for blocking the through hole (21) is arranged in the vertical cylinder (2), and a first electric telescopic rod (23) used for driving the cylinder (22) to move up and down is fixed in the vertical cylinder (2); a bushing plate (42) corresponding to the bottom of the vertical cylinder (2) is arranged below the bearing platform (1), a vibrator (43) is fixed at the bottom of the bushing plate (42), and a push plate (5) for pushing the paddy is arranged at the top of the bushing plate (42); the both sides of bushing (42) all are fixed with swash plate (44), set up the round hole that the diameter is greater than the corn particle diameter on swash plate (44), the below of swash plate (44) is equipped with collects frame (34), the top of plummer (1) is equipped with and is used for the inspiratory pneumatic grain elevator (31) of corn in collecting frame (34), the discharge end intercommunication of pneumatic grain elevator (31) has row material pipe (32) that are located plummer (1) top.

2. The grain storage bin according to claim 1, wherein: the grain elevator is characterized in that a T-shaped plate (3) is arranged on the side face of the bearing table (1), the bottom of the grain elevator (31) is rotatably connected with the top of the T-shaped plate (3), the suction end of the bottom of the grain elevator (31) penetrates through the top of the T-shaped plate (3) and is rotatably connected with a connecting pipe (33), and one end, away from the grain elevator (31), of the connecting pipe (33) is communicated with a collecting frame (34); one side of the collecting frame (34) departing from the bushing (42) is fixed with a storage shell (45), and the storage shell (45) is positioned below one side of the inclined plate (44) departing from the bushing (42).

3. The grain storage bin according to claim 1, wherein: the below of plummer (1) is equipped with fixed frame (4), fixed frame (4) internal fixation has guide plate (41) that are the slant and set up, the bottom of plummer (1) is fixed with No. two electric telescopic handle (51), the flexible end and push pedal (5) of No. two electric telescopic handle (51) are fixed mutually.

4. The grain storage bin according to claim 1, wherein: the punching holes (21) in the vertical cylinder (2) are arranged in two groups, the punching holes (21) are symmetrically distributed up and down, the punching holes (21) are blocked by the cylinder (22), a T-shaped rod (24) is fixed in the cylinder (22), and one end of the T-shaped rod (24) is fixed with the telescopic end of the first electric telescopic rod (23).

5. The grain storage bin according to claim 2, wherein: the bearing table (1) comprises a hollow plate and supporting legs, the supporting legs are fixed at the bottom of the hollow plate, and air holes are formed in the top of the hollow plate; short pipes (35) are communicated between the connecting pipe (33) and the hollow plate, and valves are mounted on the connecting pipe (33) and the short pipes (35).

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