CN115848863A

CN115848863A - Storage method for preparing medicated leaven

Info

Publication number: CN115848863A
Application number: CN202211109556.5A
Authority: CN
Inventors: 邢熙萌; 董贝贝; 姬向阳; 刘文苹
Original assignee: Anhui Shengantang Pharmaceutical Co ltd
Current assignee: Anhui Shengantang Pharmaceutical Co ltd
Priority date: 2022-09-13
Filing date: 2022-09-13
Publication date: 2023-03-28

Abstract

The invention discloses a storage method for preparing medicated leaven, which relates to the technical field of traditional Chinese medicine preparation. According to the invention, the moving mechanism is arranged, the output end of the driving motor rotates and drives the first conductive roller and the second conductive roller to automatically roll on the top ends of the first conductive rail and the second conductive rail through mechanical transmission, when the first conductive roller moves to one side of the limiting slide block, the first conductive roller is separated from the top end of the first conductive rail, the limiting slide block resets and limits one side of the first conductive roller, and through the structure, the six medicated leaven raw materials placed in the placing frame can be automatically stored in the storage bin.

Description

Storage method for preparing medicated leaven

Technical Field

The invention relates to the technical field of traditional Chinese medicine preparation, in particular to a storage method for preparing medicated leaven.

Background

The medicated leaven is prepared from polygonum hydropiper, sweet wormwood herb, xanthium sibiricum, phaseolus calcaratus, bitter apricot seed, wheat bran and flour, has the effects of strengthening the spleen and stomach, helping digestion and regulating the middle warmer, is used for treating weakness of the spleen and the stomach, diet stagnation, chest stuffiness and abdominal distension and food retention of children, and when the medicated leaven is processed, the raw materials are cleaned and purified firstly, then dried, stored, crushed and screened after being dried to obtain irregular fine blocks or coarse particles, and then the medicated leaven cakes with different shapes are formed through the processing of corresponding machines.

At present when storing the medicated leaven raw materials, the medicated leaven raw materials after drying need be pushed to store in the storehouse, carry out the operation of ventilating in the storehouse through the vent of storing the storehouse, in order to reach the inside ventilation drying's of storehouse effect, avoid the medicated leaven raw materials condition that wets and go mouldy to appear, but present staff is when storing the medicated leaven raw materials, need promote the rack that has placed the medicated leaven raw materials to store inside the storehouse, the staff walks out the storehouse again, push away the next rack to store in the storehouse again, so the staff need make a round trip to walk in storing the storehouse, increased staff's work load on the one hand, the efficiency that the medicated leaven raw materials were stored has been reduced, on the other hand staff walks the number of times in storing the storehouse and more can reduce the clean degree in storing the storehouse, thereby influence the storage effect of follow-up medicated leaven raw materials.

Disclosure of Invention

The present invention has been made to solve the above-mentioned problems occurring in the prior art, and an object of the present invention is to provide a storage method for preparing a medicated leaven.

In order to achieve the purpose, the invention provides the following technical scheme:

a storage method for preparing medicated leaven comprises a storage bin, wherein a placing rack for placing medicated leaven raw materials is arranged inside the storage bin, a supporting box for moving the placing rack is fixedly welded at the bottom end of the placing rack, and a moving mechanism comprises a first conductive rail and a second conductive rail which are arranged at the bottom end of the inner wall of the storage bin and used for conducting electricity, a first conductive roller used for conducting electricity is arranged at the top end of the first conductive rail, a second conductive roller used for conducting electricity is arranged at the top end of the second conductive rail, a storage battery used for providing a power supply is fixed inside the supporting box through a bolt, one end of the storage battery is electrically connected with a first conductive L rod extending to the outside of the supporting box, the other end of the storage battery is electrically connected with a conductive cross rod, one end of the conductive cross rod is provided with a conductive block, and one end of the conductive block is provided with a second conductive L rod extending to the outside of the supporting box;

the auxiliary mechanism comprises a T-shaped block bonded on one side of the conductive block, one side of the supporting box is fixedly connected with an extrusion rod used for pushing the T-shaped block to move upwards through a bolt, a plastic guide rail is arranged inside the storage bin and located on one side of the first conductive rail, and a limiting slide block extending to the inside of the plastic guide rail and used for limiting the first conductive roller is arranged on the top end of the plastic guide rail.

As a still further scheme of the invention: the moving mechanism further comprises a first conductive column fixed at one end of the first conductive roller in a welded mode, one side of the first conductive L rod is sleeved on the outer wall of the first conductive column, one end of the first conductive column is connected with a rotating roller penetrating through the other end of the supporting box through a bolt, one end of the rotating roller is fixedly connected with a second conductive column through a bolt, one side of the second conductive L rod is sleeved on the outer wall of the second conductive column, the second conductive column is fixedly connected with one end of the second conductive roller through a welded mode, one side of the storage battery is connected with a driving motor used for providing driving force through a lead, the driving motor is fixedly connected with the inner wall of the supporting box through a bolt, an output shaft of the driving motor is connected with a connecting rod through a coupler, a first bevel gear is fixed to one side of the connecting rod through a welded mode, a second bevel gear is meshed with one end of the first bevel gear, and the second bevel gear is fixedly connected with the outer wall of the rotating roller.

As a still further scheme of the invention: the rotating roller is rotatably connected with the inner wall of the supporting box through a bearing, two auxiliary wheels are arranged on the outer wall of the rotating roller, the first conductive roller and the second conductive roller are of the same specification, a groove matched with the first conductive roller is formed in the top end of the first conductive rail, and a groove matched with the second conductive roller is formed in the top end of the second conductive rail.

As a still further scheme of the invention: the first conductive rail and the second conductive rail are connected through a conductive rod, and the horizontal height of the first conductive L rod and the horizontal height of the second conductive L rod are higher than the top height of the first conductive rail and the top height of the second conductive rail.

As a still further scheme of the invention: the two ends of the supporting box are connected with rolling wheels used for assisting the supporting box to roll through bearings, and the rolling wheels are located on one sides of the second conductive roller and the first conductive roller.

As a still further scheme of the invention: the auxiliary mechanism further comprises a vertical rod sleeved on the outer wall of the T-shaped block, a first spring connected with the inner wall of the vertical rod is arranged at the top end of the T-shaped block, and a second spring connected with the inner wall of the plastic guide rail is arranged at the bottom end of the limiting sliding block.

As a still further scheme of the invention: one side of the limiting slide block is arranged to be inclined plane-shaped, the horizontal position of the top end of the limiting slide block is higher than the horizontal position of the top end of the first conductive roller, and a sliding groove matched with the limiting slide block is formed in the plastic guide rail.

As a still further scheme of the invention: the bottom of T type piece sets up to the inclined plane form, one side of extrusion stem sets up to the cambered surface form, and extrusion stem and T type piece inclined plane form bottom are in same level, the inside of supporting the box is provided with and removes orbit assorted removal logical groove with the extrusion stem, the inside of montant is provided with and removes orbit assorted spacing spout with T type piece, and the both ends of montant are provided with the dead lever, the inner wall fixed connection of dead lever and support box.

A storage method for preparing medicated leaven comprises the following steps:

s1, storage: the method comprises the following steps of placing a medicated leaven raw material to be stored on a placing frame, pushing the placing frame to a first conductive rail and a second conductive rail in a storage bin, connecting a circuit of a driving motor and a storage battery and starting to work, rotating an output end of the driving motor to drive a rotating roller to rotate, rotating the rotating roller to drive a first conductive roller and a second conductive roller to rotate, and rotating the first conductive roller and the second conductive roller at the top ends of the first conductive rail and the second conductive rail to drive a support box and the placing frame to horizontally move;

s2, locking: when the first conductive roller wheel rotates to the inclined surface on one side of the limiting slide block, the first conductive roller wheel rolls and extrudes the limiting slide block to move downwards, the second spring is extruded under stress, when the limiting slide block moves to the inside of the plastic guide rail, the first conductive roller wheel moves to one side of the limiting slide block, the first conductive roller wheel moves to the top end of the plastic guide rail, meanwhile, the second spring resets to drive the limiting slide block to reset, at the moment, the first conductive roller wheel is separated from the first conductive rail, and the limiting slide block limits the first conductive roller wheel;

s3, taking: the bin gate of the other side of the storage bin is opened, the placing rack is pulled to take out the placing rack, the placing rack is moved to drive the supporting box to move, the supporting box is moved to drive the extrusion rod to move, the extrusion rod is moved and separated from the adjacent supporting box, the next placing rack is moved to one side of the limiting slide block under the working state of the driving motor at the moment, and the worker can take the placing rack on one side of the limiting slide block in sequence.

Compared with the prior art, the invention has the beneficial effects that:

through setting up moving mechanism, the driving motor output rotates and drives first electrically conductive gyro wheel and the electrically conductive gyro wheel of second at the top automatic roll of first conductor rail and second conductor rail through mechanical transmission, when first electrically conductive gyro wheel removes to spacing slider one side, first electrically conductive gyro wheel and the separation of first conductor rail top, spacing slider resets and carries on spacingly to one side of first electrically conductive gyro wheel, be favorable to storing the inside in storage storehouse of the automatic six medicated leaven raw materials of placing in the rack through this structure, compare in traditional artifical propelling movement, efficiency when having improved and storing, the inside that the staff got into storage storehouse has also been avoided simultaneously, and then the inside clean degree of storage storehouse has been guaranteed.

Drawings

FIG. 1 is a schematic view showing a storage method for preparing medicated leaven;

FIG. 2 is a schematic view showing the internal structure of a storage container for a method of storing Massa Medicata Fermentata;

FIG. 3 is a schematic view of a storage rack for preparing medicated leaven;

FIG. 4 is a schematic view showing a contact structure of adjacent racks in a storage method for preparing medicated leaven;

FIG. 5 is a schematic view showing the internal structure of a plastic guide rail for a storage method for preparing medicated leaven;

FIG. 6 is a schematic view showing the structure of a first conductive rail, a second conductive rail and a conductive rod of a storage method for preparing medicated leaven;

FIG. 7 is a schematic view showing an internal structure of a support case of a storage method for Massa Medicata Fermentata preparation;

fig. 8 is a schematic view of the internal structure of a support case for a storage method for medicated leaven preparation from another perspective.

In the figure: 1. a storage bin; 2. a support box; 3. placing a rack; 4. a moving mechanism; 401. a first conductive rail; 402. a second conductive rail; 403. a first conductive roller; 404. a first conductive post; 405. a rotating roller; 406. a first conductive L-bar; 407. a storage battery; 408. a conductive cross bar; 409. a conductive block; 410. a second conductive L-bar; 411. a drive motor; 412. a first bevel gear; 413. a second bevel gear; 414. a second conductive pillar; 415. a second conductive roller; 5. an auxiliary mechanism; 501. an extrusion stem; 502. a T-shaped block; 503. a vertical rod; 504. a first spring; 505. a limiting slide block; 506. a second spring; 6. a plastic guide rail.

Detailed Description

Referring to fig. 1 to 8, in an embodiment of the present invention, a storage method for preparing medicated leaven includes a storage bin 1, a placing rack 3 for placing medicated leaven raw materials is disposed inside the storage bin 1, a supporting box 2 for moving the placing rack 3 is fixed at a bottom end of the placing rack 3 by welding, a moving mechanism 4 includes a first conductive rail 401 and a second conductive rail 402 which are disposed at a bottom end of an inner wall of the storage bin 1 and used for conducting electricity, a first conductive roller 403 for conducting electricity is disposed at a top end of the first conductive rail 401, a second conductive roller 415 for conducting electricity is disposed at a top end of the second conductive rail 402, a storage battery 407 for providing a power source is fixed inside the supporting box 2 by a bolt, one end of the storage battery 407 is electrically connected to a first conductive L rod 406 extending to an outside of the supporting box 2, another end of the storage battery 407 is electrically connected to a conductive cross rod 408, one end of the conductive block 408 is provided with a conductive block 409, and one end of the conductive block 409 is provided with a second conductive L rod 410 extending to an outside of the supporting box 2;

the auxiliary mechanism 5 comprises a T-shaped block 502 adhered to one side of the conductive block 409, one side of the support box 2 is fixedly connected with an extrusion rod 501 used for pushing the T-shaped block 502 to move upwards through a bolt, a plastic guide rail 6 is arranged inside the storage bin 1, the plastic guide rail 6 is located on one side of the first conductive rail 401, and a limiting slide block 505 extending to the inside of the plastic guide rail 6 and used for limiting the first conductive roller 403 is arranged at the top end of the plastic guide rail 6.

This kind of storage method that medicated leaven preparation was used, storage storehouse 1 is used for carrying out the operation stored to the medicated leaven raw materials, the both ends of storage storehouse are provided with the vent, and vent department is provided with the dust screen, rack 3 is used for carrying out the operation of placing to the medicated leaven raw materials after having washd the stoving, be favorable to automatically storing the medicated leaven raw materials of placing in storage storehouse 1 through setting up moving mechanism 4, compare in traditional artifical propelling movement, efficiency when having improved and storing, the staff has also been avoided simultaneously and has got into the inside of storage storehouse 1, and then guaranteed the clean degree of storage storehouse 1 inside, be favorable to carrying out the operation of taking out fast to rack 3 through setting up complementary unit 5, the holistic convenience of device has been improved.

In fig. 2, 3, 4, 6, 7, 8: the moving mechanism 4 further comprises a first conductive column 404 fixed at one end of the first conductive roller 403 by welding, one side of a first conductive L-rod 406 is sleeved on the outer wall of the first conductive column 404, one end of the first conductive column 404 is connected with a rotating roller 405 penetrating to the other end of the support box 2 by a bolt, one end of the rotating roller 405 is fixedly connected with a second conductive column 414 by a bolt, one side of the second conductive L-rod 410 is sleeved on the outer wall of the second conductive column 414, the second conductive column 414 is fixedly connected with one end of the second conductive roller 415 by welding, one side of the storage battery 407 is connected with a driving motor 411 for providing driving force by a conducting wire, the driving motor 411 is fixedly connected with the inner wall of the support box 2 by a bolt, an output shaft of the driving motor 411 is connected with a connecting rod by a coupler, one side of the connecting rod is fixed with a first bevel gear 412 by welding, one end of the first bevel gear 412 is engaged with a second bevel gear 413, and a second bevel gear 413 is fixedly connected with the outer wall of the rotating roller 405; the rotating roller 405 is rotatably connected with the inner wall of the supporting box 2 through a bearing, two auxiliary wheels are arranged on the outer wall of the rotating roller 405, the first conductive roller 403 and the second conductive roller 415 are in the same specification, a groove matched with the first conductive roller 403 is formed at the top end of the first conductive rail 401, and a groove matched with the second conductive roller 415 is formed at the top end of the second conductive rail 402; the first conductive rail 401 is connected with the second conductive rail 402 through a conductive rod, and the horizontal height of the first conductive L rod 406 and the second conductive L rod 410 is higher than the height of the top ends of the first conductive rail 401 and the second conductive rail 402; two ends of the supporting box 2 are connected with rolling wheels for assisting the supporting box 2 to roll through bearings, and the rolling wheels are positioned on one sides of the second conductive roller 415 and the first conductive roller 403.

The storage method for preparing the medicated leaven comprises the steps that a storage battery 407 is opened, a driving motor 411 works, the output end of the driving motor 411 rotates to drive a connecting rod to rotate, the connecting rod rotates to drive a first bevel gear 412 to rotate, the first bevel gear 412 rotates to drive a second bevel gear 413 to rotate, the second bevel gear 413 rotates to drive a rotating roller 405 to rotate, the rotating roller 405 rotates to drive a first conductive column 404 and a second conductive column 414 to rotate, namely, the first conductive roller 403 and the second conductive roller 415 automatically roll at the top ends of a first conductive rail 401 and a second conductive rail 402, when the first conductive roller 403 moves to an inclined plane on one side of a limiting slide 505, the first conductive roller 403 continues to roll and extrudes the limiting slide 505 to move downwards, a second spring 506 is extruded under force, when the first conductive roller 403 is separated from the top end of the first conductive rail 401, a closed loop is disconnected, the storage battery 407 is closed, and simultaneously the second spring 506 resets and drives the limiting slide 505 to reset and move, the limiting slide block 505 resets and limits one side of the first conductive roller 403, when the next placing rack 3 automatically moves to one side of the previous placing rack 3, the extrusion rod 501 on one side of the previous supporting box 2 is inserted into the inside of the next supporting box 2, the extrusion rod 501 contacts with the T-shaped block 502 and pushes the T-shaped block 502 to move upwards, the first spring 504 is stressed and extruded, the T-shaped block 502 moves and simultaneously drives the conductive block 409 to move upwards, when the previous extrusion rod 501 is completely inserted into the inside of the next supporting box 2, the conductive block 409 moves and is disconnected with the conductive cross bar 408 and the second conductive L-bar 410, at the moment, the closed loop inside the next supporting box 2 is closed, namely, the placing rack 3 stops at one side of the previous placing rack 3, so that the placing racks 3 can be sequentially placed in the storage bin 1, and the structure is favorable for automatically storing the medicated leaven placed in the storage bin 1, compare in traditional artifical propelling movement, improved the efficiency when storing, also avoided the staff to get into the inside of storing storehouse 1 simultaneously, and then guaranteed the clean and tidy degree of storing storehouse 1 inside.

In fig. 5, 7, 8: the auxiliary mechanism 5 further comprises a vertical rod 503 sleeved on the outer wall of the T-shaped block 502, the top end of the T-shaped block 502 is provided with a first spring 504 connected with the inner wall of the vertical rod 503, and the bottom end of the limiting slide block 505 is provided with a second spring 506 connected with the inner wall of the plastic guide rail 6; one side of the limiting slide block 505 is arranged to be inclined, the horizontal position of the top end of the limiting slide block 505 is higher than that of the top end of the first conductive roller 403, and a sliding groove matched with the limiting slide block 505 is formed in the plastic guide rail 6; the bottom of T type piece 502 sets up to the inclined plane form, and one side of extrusion stem 501 sets up to the cambered surface form, and extrusion stem 501 and T type piece 502 inclined plane form bottom are in same level, and the inside of supporting box 2 is provided with and removes orbit assorted removal logical groove with extrusion stem 501, and the inside of montant 503 is provided with and removes orbit assorted spacing spout with T type piece 502, and the both ends of montant 503 are provided with the dead lever, dead lever and the inner wall fixed connection who supports box 2.

When a placing frame 3 stored in a storage bin 1 needs to be taken, a bin door on the other side of the storage bin 1 is opened, the placing frame 3 close to the bin door is pulled to the outside of the storage bin 1, the placing frame 3 moves and drives a supporting box 2 to move, the supporting box 2 moves and drives an extrusion rod 501 to move, the extrusion rod 501 moves and is separated from an adjacent supporting box 2, at the moment, a first spring 504 resets and drives a T-shaped block 502 to move downwards, the T-shaped block 502 moves downwards and drives a conductive block 409 to move downwards, the conductive block 409 moves and is in contact with a conductive cross rod 408 and a second conductive L rod 410, at the moment, a closed loop is opened, an output end of a driving motor 411 rotates and drives a first conductive roller 403 and a second conductive roller 415 to rotate through mechanical transmission, the first conductive roller 403 and the second conductive roller 415 rotate and drive the placing frame 3 to move horizontally, when the first conductive roller 403 moves to one side of a limiting sliding block 505, the first conductive roller 403 is separated from the first conductive roller 401, namely, the closed loop is disconnected, at the moment, a working guide rail 6 of the placing frame 3 stops at the top of the placing frame 3, and a plastic placing frame 3 is convenient and quick operation for taking operation of a plastic storage bin 3, and taking operation of a taking device, and taking-out operation device is facilitated.

A storage method for preparing Massa Medicata Fermentata comprises the following steps:

s1, storage: putting medicated leaven raw materials to be stored on a placing rack 3, pushing the placing rack 3 to a first conductive rail 401 and a second conductive rail 402 in a storage bin 1, connecting a driving motor 411 with a circuit of a storage battery 407 and starting to work, rotating an output end of the driving motor 411 to drive a rotating roller 405 to rotate, rotating the rotating roller 405 to drive a first conductive roller 403 and a second conductive roller 415 to rotate, and rotating the first conductive roller 403 and the second conductive roller 415 at the top ends of the first conductive rail 401 and the second conductive rail 402 to drive a support box 2 and the placing rack 3 to horizontally move;

s2, locking: when the first conductive roller 403 rotates to the inclined plane on one side of the limiting slider 505, the first conductive roller 403 rolls and extrudes the limiting slider 505 to move downwards, the second spring 506 is extruded under stress, when the limiting slider 505 moves to the inside of the plastic guide rail 6, the first conductive roller 403 moves to one side of the limiting slider 505, the first conductive roller 403 moves to the top end of the plastic guide rail 6, meanwhile, the second spring 506 resets to drive the limiting slider 505 to reset, at this time, the first conductive roller 403 is separated from the first conductive rail 401, and the limiting slider 505 limits the first conductive roller 403;

s3, taking: the bin gate of the other side of the storage bin 1 is opened, the storage rack 3 is pulled to take out the storage rack 3, the storage rack 3 is moved to drive the support box 2 to move, the support box 2 is moved to drive the extrusion rod 501 to move, the extrusion rod 501 is moved and separated from the adjacent support box 2, at the moment, the next storage rack 3 is moved to one side of the limiting slide block 505 in the working state of the driving motor 411, and a worker can take the storage rack 3 on one side of the limiting slide block 505 in sequence.

According to the storage method for preparing the medicated leaven, the medicated leaven raw materials placed in the placing frame 3 can be automatically stored in the storage bin 1 through the structure, compared with the traditional manual pushing mode, the storage method improves the storage efficiency, meanwhile, workers are prevented from entering the storage bin 1, and the neatness of the interior of the storage bin 1 is further guaranteed.

The working principle of the invention is as follows: when the medicated leaven raw material needs to be stored, the medicated leaven raw material is cleaned to remove impurities, then the raw material is dried and then placed in the storage bin 1 for storage, firstly, the raw material to be stored is placed on the placing rack 3, the bin door on one side of the storage bin 1 is opened, then the placing rack 3 is pushed, the placing rack 3 moves to drive the supporting box 2 to move, the supporting box 2 moves to drive the extrusion rod 501 to move, meanwhile, the first conductive roller 403 rolls with the second conductive roller 415, when the first conductive roller 403 contacts with the first conductive rail 401 and the second conductive roller 415 contacts with the second conductive rail 402, a worker can release the placing rack 3, and the first conductive rail 401, the second conductive rail 402, the second conductive roller 415, the second conductive column 414, the second conductive L rod 410, the conductive block 409, the conductive cross bar 408, the storage battery 407, the first conductive L rod 406 and the first conductive column 404 form a closed loop, at this time, the storage battery 407 is opened and the driving motor 411 operates, the output end of the driving motor 411 rotates to drive the connecting rod to rotate, the connecting rod rotates to drive the first bevel gear 412 to rotate, the first bevel gear 412 rotates to drive the second bevel gear 413 to rotate, the second bevel gear 413 rotates to drive the rotating roller 405 to rotate, the rotating roller 405 rotates to drive the first conductive post 404 and the second conductive post 414 to rotate, namely, the first conductive roller 403 and the second conductive roller 415 automatically roll on the top ends of the first conductive rail 401 and the second conductive rail 402, when the first conductive roller 403 moves to the inclined plane on one side of the limit slider 505, the first conductive roller 403 continues to roll and extrudes the limit slider 505 to move downwards, the second spring 506 is extruded under force, when the first conductive roller 403 is separated from the top end of the first conductive rail 401, the closed loop is disconnected, the storage battery 407 is closed, and simultaneously the second spring 506 resets and drives the limit slider 505 to reset, the limiting slide block 505 resets and limits one side of the first conductive roller 403, when the next placing rack 3 automatically moves to one side of the previous placing rack 3, the extrusion rod 501 on one side of the previous supporting box 2 is inserted into the inside of the next supporting box 2, the extrusion rod 501 contacts with the T-shaped block 502 and pushes the T-shaped block 502 to move upwards, the first spring 504 is stressed and extruded, the T-shaped block 502 moves and simultaneously drives the conductive block 409 to move upwards, when the previous extrusion rod 501 is completely inserted into the inside of the next supporting box 2, the conductive block 409 moves and is disconnected with the conductive cross bar 408 and the second conductive L-bar 410, at the moment, the closed loop inside the next supporting box 2 is closed, namely, the placing rack 3 stops at one side of the previous placing rack 3, so that the placing racks 3 can be sequentially placed in the storage bin 1, and the structure is favorable for automatically storing the medicated leaven placed in the storage bin 1, compared with the traditional manual pushing, the efficiency in storage is improved, meanwhile, workers are prevented from entering the storage bin 1, the cleanliness of the interior of the storage bin 1 is further ensured, when the placement frame 3 stored in the storage bin 1 needs to be taken, the bin door on the other side of the storage bin 1 is opened, the placement frame 3 close to the bin door is pulled towards the exterior of the storage bin 1, the placement frame 3 moves and drives the supporting box 2 to move, the supporting box 2 moves and drives the extrusion rod 501 to move, the extrusion rod 501 moves and is separated from the adjacent supporting box 2, at the moment, the first spring 504 resets and drives the T-shaped block 502 to move downwards, the T-shaped block 502 moves downwards and drives the conductive block 409 to move downwards, the conductive block 409 moves and is in contact with the conductive cross rod 408 and the second conductive L rod 410, namely, at the moment, a closed loop is opened, the output end of the driving motor 411 rotates and drives the first conductive roller 403 and the second conductive roller 415 to rotate through mechanical transmission, first conductive roller 403 and second conductive roller 415 rotate and drive rack 3 horizontal migration, when first conductive roller 403 moved to one side of spacing slider 505, first conductive roller 403 and first conductor rail 401 separation, closed circuit disconnection promptly, rack 3 stopped on the top of plastic guide rail 6 this moment, the staff can take out the operation to next rack 3 this moment, so just in proper order take out the operation to the rack 3 of storage 1 inside storage, be favorable to carrying out the operation of taking out fast rack 3 through this structure, the holistic convenience of device has been improved, it is non-conductive material to explain to support box 2, rack 3 and live-rollers 405.

The above description is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art of Chinese medicine preparation technology will be able to cover the technical scope of the present invention, and the technical solutions and the inventive concepts of the present invention should be equally replaced or changed within the technical scope of the present invention.

Claims

1. A storage method for preparing medicated leaven comprises a storage bin (1), wherein a placing rack (3) for placing medicated leaven raw materials is arranged inside the storage bin (1), a supporting box (2) for moving the placing rack (3) is fixed at the bottom end of the placing rack (3) through welding, the storage method is characterized in that a moving mechanism (4) is arranged, the moving mechanism (4) comprises a first conductive rail (401) and a second conductive rail (402) which are arranged at the bottom end of the inner wall of the storage bin (1) and used for conducting electricity, a first conductive roller (403) used for conducting electricity is arranged at the top end of the first conductive rail (401), a second conductive roller (415) used for conducting electricity is arranged at the top end of the second conductive rail (402), a storage battery (407) used for providing a power source is fixed inside the supporting box (2) through a bolt, one end of the storage battery (407) is electrically connected with a first conductive L rod (406) extending to the outside the supporting box (2), the other end of the storage battery (407) is electrically connected with a conductive cross rod (408), one end of the conductive cross rod (408) is provided with a conductive block (408), and one end of the conductive block (409) extends to the supporting box (409) and the second conductive block (410) is arranged outside the supporting box;

the auxiliary mechanism (5), the auxiliary mechanism (5) is including bonding T type piece (502) in conducting block (409) one side, there is squeeze bar (501) that is used for promoting T type piece (502) rebound in one side of supporting box (2) through bolt fixedly connected with, the inside of storage storehouse (1) is provided with plastics guide rail (6), plastics guide rail (6) are located one side of first conductor rail (401), the top of plastics guide rail (6) is provided with and extends to plastics guide rail (6) inside and is used for carrying out spacing stop block (505) to first conductive roller (403).

2. The storage method for preparing the medicated leaven according to claim 1, wherein the moving mechanism (4) further comprises a first conductive column (404) fixed at one end of the first conductive roller (403) by welding, one side of the first conductive L-shaped rod (406) is sleeved on the outer wall of the first conductive column (404), one end of the first conductive column (404) is connected with a rotating roller (405) penetrating to the other end of the supporting box (2) by a bolt, one end of the rotating roller (405) is fixedly connected with a second conductive column (414) by a bolt, one side of the second conductive L-shaped rod (410) is sleeved on the outer wall of the second conductive column (414), the second conductive column (414) is fixedly connected with one end of the second conductive roller (415) by welding, one side of the accumulator (407) is connected with a driving motor (411) for providing a driving force by a conducting wire, the driving motor (411) is fixedly connected with the inner wall of the supporting box (2) by a bolt, an output shaft of the driving motor (411) is connected with a connecting rod by a coupling, one side of the connecting rod is fixed with a first bevel gear (412) by welding, one side of the bevel gear (413) is connected with a rotating roller (413) and a second bevel gear (413) is connected with the rotating roller.

3. A storage method for preparing medicated leaven according to claim 2, wherein the rotating roller (405) is rotatably connected with the inner wall of the supporting box (2) through a bearing, two auxiliary wheels are arranged on the outer wall of the rotating roller (405), the first conductive roller (403) and the second conductive roller (415) are in the same specification, the top end of the first conductive rail (401) is formed with a groove matched with the first conductive roller (403), and the top end of the second conductive rail (402) is formed with a groove matched with the second conductive roller (415).

4. A storage method for the preparation of a medicated leaven according to claim 2, wherein the first conductive rail (401) and the second conductive rail (402) are connected by a conductive rod, and the first conductive L-bar (406) and the second conductive L-bar (410) have a higher level than the top ends of the first conductive rail (401) and the second conductive rail (402).

5. A storage method for a medicated leaven preparation according to claim 2, wherein rolling wheels for assisting the rolling of the support box (2) are connected to both ends of the support box (2) through bearings, and the rolling wheels are located at one side of the second conductive roller (415) and the first conductive roller (403).

6. The storage method for preparing medicated leaven according to claim 1, wherein the auxiliary mechanism (5) further comprises a vertical rod (503) sleeved on the outer wall of the T-shaped block (502), the top end of the T-shaped block (502) is provided with a first spring (504) connected with the inner wall of the vertical rod (503), and the bottom end of the limiting slide block (505) is provided with a second spring (506) connected with the inner wall of the plastic guide rail (6).

7. The storage method for the preparation of medicated leaven according to claim 1, wherein one side of the position-limiting slider (505) is formed in an inclined plane shape, and the horizontal position of the top end of the position-limiting slider (505) is higher than the horizontal position of the top end of the first conductive roller (403), and the plastic guide rail (6) is internally provided with a sliding groove matched with the position-limiting slider (505).

8. The storage method for preparing the medicated leaven according to claim 6, wherein the bottom end of the T-shaped block (502) is arranged in an inclined plane shape, one side of the extrusion rod (501) is arranged in an arc plane shape, the extrusion rod (501) and the inclined plane-shaped bottom end of the T-shaped block (502) are at the same level, a moving through groove matched with the moving track of the extrusion rod (501) is arranged inside the support box (2), a limiting sliding groove matched with the moving track of the T-shaped block (502) is arranged inside the vertical rod (503), and fixing rods are arranged at two ends of the vertical rod (503) and fixedly connected with the inner wall of the support box (2).

9. A storage method for the preparation of a medicated leaven according to claim 1, comprising the steps of:

s1, storage: putting a medicated leaven raw material to be stored on a placing rack (3), pushing the placing rack (3) to a first conductive rail (401) and a second conductive rail (402) in a storage bin (1), switching on a circuit of a driving motor (411) and a storage battery (407) and starting to work, rotating an output end of the driving motor (411) to drive a rotating roller (405) to rotate, rotating the rotating roller (405) to drive a first conductive roller (403) and a second conductive roller (415) to rotate, and rotating the first conductive roller (403) and the second conductive roller (415) at the top ends of the first conductive rail (401) and the second conductive rail (402) to drive a support box (2) and the placing rack (3) to move horizontally;

s2, locking: when the first conductive roller (403) rotates to the inclined plane on one side of the limiting sliding block (505), the first conductive roller (403) rolls and extrudes the limiting sliding block (505) to move downwards, the second spring (506) is extruded under stress, when the limiting sliding block (505) moves to the inside of the plastic guide rail (6), the first conductive roller (403) moves to one side of the limiting sliding block (505), the first conductive roller (403) moves to the top end of the plastic guide rail (6), and meanwhile, the second spring (506) resets to drive the limiting sliding block (505) to reset, at the moment, the first conductive roller (403) is separated from the first conductive rail (401), and the limiting sliding block (505) limits the first conductive roller (403);

s3, taking: the bin door of the other side of the storage bin (1) is opened, the placing rack (3) can be taken out by pulling the placing rack (3), the placing rack (3) is moved to drive the supporting box (2) to move, the supporting box (2) is moved to drive the extrusion rod (501) to move, the extrusion rod (501) is moved and separated from the adjacent supporting box (2), the next placing rack (3) is moved to one side of the limiting slide block (505) under the working state of the driving motor (411), and a worker can take the placing rack (3) on one side of the limiting slide block (505) in sequence.