CN115108228A

CN115108228A - Three-dimensional metallurgical material storage warehouse for laboratory and material storing and taking method thereof

Info

Publication number: CN115108228A
Application number: CN202210949984.2A
Authority: CN
Inventors: 武轶; 李帮平; 张晓萍; 熊德怀
Original assignee: Maanshan Iron and Steel Co Ltd
Current assignee: Maanshan Iron and Steel Co Ltd
Priority date: 2022-08-09
Filing date: 2022-08-09
Publication date: 2022-09-27

Abstract

The invention discloses a metallurgical material three-dimensional repository for a laboratory and a storing and taking method thereof, and relates to the technical field of material repositories. The invention relates to a metallurgical material three-dimensional repository for a laboratory and a storage and taking method thereof, which comprise a raw material storage rack, wherein the raw material storage rack comprises a storage rack main body which is vertically arranged, and the raw material storage rack is arranged in layers, so that raw materials in a stored charging barrel can be conveniently layered and placed in a classified manner; a plurality of groups of transverse rods are transversely arranged in the storage rack main body at equal intervals, and a plurality of groups of rollers I are coaxially sleeved on the transverse rods; the lifting translation trolley comprises a transversely arranged bottom frame, a lifting frame is transversely arranged on the upper surface of the bottom frame, and the lifting frame is lifted to the corresponding position of the raw material storage frame by starting a lifting mechanism, so that the material taking and placing operation efficiency is improved; the horizontal equidistant cylinder II of a plurality of groups that is provided with of crane upper surface gets when putting the feed cylinder, and cylinder II upper surface flushes with cylinder I upper surface mutually to be convenient for push into or pull out the feed cylinder, use manpower sparingly.

Description

Three-dimensional metallurgical material storage warehouse for laboratory and material storing and taking method thereof

Technical Field

The invention relates to the technical field of material storage libraries, in particular to a metallurgical material three-dimensional storage library for a laboratory and a material storing and taking method thereof.

Background

The pre-iron process comprises four production flows of sintering, pelletizing, coking and ironmaking, and relates to nearly 20 kinds of raw materials such as iron ore powder, iron ore concentrate, sinter, pellet ore, lump ore, limestone, dolomite, quicklime, a binder, silica, fluorite, coke powder, coal powder for sintering, anthracite for blowing, bituminous coal, coke, coking coal and the like and 30-50 kinds of raw materials. The raw material warehouse of the pre-iron laboratory is a warehouse for receiving, storing and keeping the metallurgical raw materials.

The material storage mode of the existing laboratory material storehouse can be divided into an open type stockpiling mode and a closed type stockpiling mode. Open stockpiling mode stockpiles are typically open stockpiled on site or in stockpiles, which has several disadvantages: on one hand, the stored raw materials are easily influenced by external environment, especially some raw materials have special storage requirements of moisture resistance (such as quicklime, bentonite and the like) and moisture loss resistance, the open storage environment can cause the problems of raw material performance, even physical property change, uneven distribution of contained water and the like, and the accuracy and the reproducibility of test matching and data are directly influenced; on the other hand, the open storage mode is easy to pollute the environment, and dust and materials are easy to fly during stacking and taking. The closed type stacking mode generally adopts a snakeskin bag mode to store various raw materials, when the variety and the quantity of the raw materials are more, the raw materials are stacked in a plurality of bags due to large occupied area, so that inconvenience is brought to searching and taking the raw materials and counting raw material inventory, and time and labor are wasted; in addition, the snakeskin bag is easy to be pulverized and damaged after being exposed to the sun, so that the mixed materials and the water in the raw materials are lost.

Through search, relevant patents have been published for solving the above-mentioned deficiencies. For example, the Chinese patent application number is: 2018100202872, application date is: the application publication date is as follows, 1 month and 9 days in 2018: 6/29 th 2018, a solid raw material storage device for laboratories is disclosed, which utilizes a manually-rotated L-shaped rocker to drive a threaded rod to rotate, recycles a threaded structure, controls the spatial position of a threaded magnetic-pole type lifting driving mechanism, and then changes the height position of a magnetic-pole type lifting driven mechanism, so that the simplification of taking and placing solid raw materials is realized inside a large space with longitudinal depth. But the device structure is comparatively complicated, stores inefficiency, and the access is inconvenient, is not suitable for storing the metallurgical raw materials of a great variety, volume big, consequently can't satisfy the laboratory and need store the requirement of a large amount of different varieties and quantity raw materials simultaneously.

Disclosure of Invention

1. Technical problem to be solved by the invention

The invention provides a three-dimensional metallurgical material storage warehouse for a laboratory and a material storing and taking method thereof, aiming at the problems of complex structure, inconvenient material storing and taking and the like of the existing pre-iron laboratory raw material storage equipment, wherein a lifting translation trolley carries a material barrel and lifts the material barrel to a corresponding position at a material inlet and a material outlet, and then the material barrel on the lifting translation trolley is pushed into a raw material storage rack from the material inlet and the material outlet in parallel; the raw material storage rack is provided with a plurality of layers in a layering manner to form a multi-layer storage space, a plurality of material cylinders are placed in a layering manner, and therefore raw materials in the stored material cylinders are placed in a layering and classifying manner conveniently and are convenient to take and place.

2. Technical scheme

In order to achieve the purpose, the technical scheme provided by the invention is as follows:

a metallurgical material three-dimensional repository for a laboratory comprises a raw material storage rack, wherein the raw material storage rack comprises a storage rack main body which is vertically arranged, and the storage rack main body is of a frame structure which is circumferentially closed and has openings at two sides; a plurality of groups of cross rods are transversely arranged in the storage rack main body at equal intervals, the cross rods and the storage rack main body are enclosed to form a circumferentially closed feeding and discharging port with two transversely communicated sides so as to form a multilayer storage space, and a plurality of charging barrels can be conveniently placed in layers, so that raw materials in the stored charging barrels can be conveniently placed in layers and in a classified manner, searching is facilitated, and space is saved; store frame main part opening one side and be provided with the lift translation dolly, the lift translation dolly is used for carrying the storage bucket with it carry to business turn over material mouthful department relevant position to with the feed cylinder on the lift translation dolly push the raw materials from business turn over material mouthful parallel store the frame can, easy operation, convenient use manpower sparingly.

According to the technical scheme, the plurality of groups of rollers I are coaxially sleeved on the cross rod, when the material storage rack is pushed in or pulled out from the material inlet and outlet, the bottom of the material cylinder is connected with the upper surface of the roller I to convert sliding friction into rolling friction, so that the material cylinder is conveniently pushed in or pulled out, and manpower is saved.

Further technical scheme, the horizontal demountable installation in feed inlet and discharge outlet outside middle part has protection chain I to get when putting material operation process and cause the raw materials to store the frame and rock, play the guard action, avoid the raw materials to store the feed cylinder of placing on the frame and drop.

Further technical scheme, store frame main part upper portion and be provided with kind signboard for the classification of storage raw materials on each group of raw materials storage frame of sign is convenient for seek and is categorised.

According to a further technical scheme, the lifting translation trolley comprises a transversely arranged bottom frame, a lifting frame is transversely arranged on the upper surface of the bottom frame, and a lifting mechanism is vertically arranged between the bottom frame and the lifting frame; the universal wheel is installed to chassis lower surface bilateral symmetry, the vertical handrail of installing in chassis one side to promote lift translation dolly to each group of raw materials storage rack relevant position, promote corresponding feed inlet department with the crane through starting elevating system, thereby improve and get and put material operating efficiency.

Further technical scheme, the crane upper surface is horizontal equidistant to be provided with a plurality of groups cylinder II, and the business turn over feed inlet department with the feed cylinder from the raw materials storage frame is pulled out, or when pushing the feed cylinder on the translation dolly from business turn over feed inlet to the raw materials storage frame, cylinder II upper surface flushes with cylinder I upper surface mutually, the feed cylinder bottom contacts with cylinder I upper surface to be convenient for push or pull out the feed cylinder, use manpower sparingly.

According to the further technical scheme, guardrails are vertically and symmetrically arranged on the left side and the right side of the lifting frame, and the height of each guardrail is 0.6-0.8 times of the height of the charging bucket, so that the charging barrel placed on the lifting frame is protected by the arranged guardrails in the running process of the lifting translation trolley; two horizontal demountable installation in middle part has protection chain II between the guardrail, avoids the feed cylinder of placing on the crane to drop.

Further technical scheme, the raw materials are stored the vertical equidistant a plurality of groups that are provided with of frame to improve the raw materials and deposit the kind, reserve the accommodation space that supplies the walking of lift translation dolly between the adjacent raw materials storage frame, thereby improve the flexibility of operation.

A raw material storage method of a metallurgical material three-dimensional storage warehouse for a laboratory comprises the following steps:

uniformly mixing and dividing raw materials, filling the raw materials into raw material sealing bags, placing the raw materials into a charging basket, covering the charging basket with a sealing cover for sealing, and marking the names of the raw materials on name identification plates attached to the periphery of the charging basket;

secondly, placing the charging bucket on a roller II transversely arranged on the upper surface of the lifting frame at equal intervals, and connecting the protection chains II on the two sides of the guardrail;

pushing the lifting translation trolley to convey the material barrel to one side of the raw material storage rack corresponding to the type of signboard identification, removing a protection chain II on the lifting translation trolley, which is close to one side of the raw material storage rack, and driving the material barrel placed on the lifting translation trolley to move to a required material inlet and outlet by starting a lifting mechanism until the upper surface of the roller II is flush with the upper surface of the roller I;

and step four, dismantling the protection chain I at the feed/discharge port close to one side of the lifting translation trolley, pushing the material barrel on the roller II to move to the roller I from the feed/discharge port, and then loading the protection chain I back, thereby finishing the storage of the raw materials.

A raw material taking method of a laboratory three-dimensional metallurgical material storage warehouse comprises the following steps:

step one, marking raw material names through a type signboard arranged on a raw material storage rack and a name signboard attached to the periphery of a charging bucket, searching and positioning raw materials required at a corresponding raw material storage rack, and removing a protection chain I at a corresponding material inlet/outlet position;

pushing the lifting translation trolley to the side of the positioned raw material storage rack, removing a protection chain II on the lifting translation trolley, which is close to one side of the raw material storage rack, and lifting the lifting rack to move to a required material inlet and outlet by starting a lifting mechanism until the upper surface of the roller II is flush with the upper surface of the roller I;

pulling a charging bucket placed on the roller I out of a charging and discharging opening onto a roller II, and loading a protection chain II on one side, close to the raw material storage rack, of the lifting translation trolley back;

and step four, starting the lifting mechanism to enable the lifting frame to descend to the initial position, and moving the lifting translation trolley to the batching area, so that the material taking operation is completed.

3. Advantageous effects

Compared with the prior art, the technical scheme provided by the invention has the following beneficial effects:

(1) the metallurgical material three-dimensional repository for the laboratory and the storage and taking method thereof comprise a raw material storage rack, wherein the raw material storage rack comprises a storage rack main body which is vertically arranged, and a plurality of layers of raw material storage racks are arranged in a layering manner to form a multi-layer storage space, so that a plurality of charging barrels can be conveniently placed in a layering manner, the raw materials in the stored charging barrels can be conveniently layered and classified, and the storage and taking are convenient; the lifting translation trolley is arranged on one side of the opening of the storage rack main body and is used for carrying the charging bucket and conveying the charging bucket to the corresponding layer of the raw material storage rack, so that the charging bucket on the lifting translation trolley is pushed into the raw material storage rack in parallel, the operation is simple and convenient, and the labor is saved;

(2) according to the metallurgical material three-dimensional repository for the laboratory and the storage and taking method thereof, a plurality of groups of cross rods are transversely arranged in the storage rack main body at equal intervals, a plurality of groups of rollers I are coaxially sleeved on the cross rods, and the bottom of the charging barrel is connected with the upper surfaces of the rollers I to convert sliding friction into rolling friction, so that the charging barrel is convenient to push in or pull out, and labor is saved;

(3) according to the metallurgical material three-dimensional repository for the laboratory and the storage and taking method thereof, the cross rod and the storage rack main body are enclosed to form the feeding and discharging port which is circumferentially closed and two sides of which are transversely communicated, so that a multi-layer storage space is formed, and the middle part of the outer side of the feeding and discharging port is transversely detachably provided with the protection chain I, so that when the raw material storage rack shakes in the feeding and discharging operation process, the protection effect is achieved, and a charging barrel placed on the raw material storage rack is prevented from falling;

(4) the invention relates to a metallurgical material three-dimensional repository for a laboratory and a material storing and taking method thereof.A lifting translation trolley comprises a transversely arranged bottom frame, the upper surface of the bottom frame is transversely provided with a lifting frame, a lifting mechanism is vertically arranged between the bottom frame and the lifting frame, and the lifting frame is lifted to a corresponding material inlet and outlet by starting the lifting mechanism, so that the material taking and taking operation efficiency is improved;

(5) according to the metallurgical material three-dimensional repository for the laboratory and the storing and taking method thereof, the upper surface of the lifting frame is transversely provided with the plurality of groups of rollers II at equal intervals, when the material cylinder is stored and taken, the upper surface of the roller II is flush with the upper surface of the roller I, and the bottom of the material cylinder is in contact with the upper surface of the roller I, so that the material cylinder is convenient to push in or pull out, and labor is saved;

(6) according to the metallurgical material three-dimensional repository for the laboratory and the storage and taking method thereof, the guardrails are vertically and symmetrically arranged on the left side and the right side of the lifting frame, the height of each guardrail is 0.6-0.8 times of the height of the material barrel, so that a protection effect is achieved on the material barrel placed on the lifting frame, the middle part between the guardrails is transversely detachably provided with the protection chain II, and the material barrel placed on the lifting frame is prevented from falling.

Drawings

FIG. 1 is a schematic view of the overall structure of a laboratory metallurgical material three-dimensional storage according to the present invention;

FIG. 2 is a schematic structural diagram of a working state of a laboratory metallurgical material three-dimensional storage warehouse of the present invention;

FIG. 3 is a right side view of FIG. 2;

FIG. 4 is a front view of a laboratory metallurgical material three-dimensional storage according to the present invention;

FIG. 5 is a top view of a laboratory metallurgical material storage container according to the present invention;

FIG. 6 is a left side view of a laboratory metallurgical material three-dimensional storage according to the present invention;

FIG. 7 is a structural diagram of the lifting translation trolley in FIG. 2 in a working state;

FIG. 8 is a top view of the lift translator trolley of FIG. 7;

fig. 9 is a schematic perspective view of the elevating and translating carriage in fig. 7.

In the figure: 1-a raw material storage rack; 11-a storage rack body; 12-a cross-bar; 13-roller I; 14-feeding and discharging ports; 15-guard chain I; 16-kind signboard; 2-lifting and translating the trolley; 21-a chassis; 22-a lifting mechanism; 23-a lifting frame; 24-roller II; 25-a guardrail; 26-protection chain II; 27-a handrail; 28-universal wheels; and 3-a material barrel.

Detailed Description

For a further understanding of the invention, reference should be made to the following detailed description taken in conjunction with the accompanying drawings.

Example 1

The metallurgical material three-dimensional repository for the laboratory and the storing and taking method thereof in the embodiment are shown in fig. 2 to 4, and comprise a raw material storage rack 1, wherein the raw material storage rack 1 comprises a storage rack main body 11 which is vertically arranged, and the storage rack main body 11 is a frame structure which is circumferentially closed and has two open sides; a plurality of groups of cross rods 12 are transversely arranged in the storage rack main body 11 at equal intervals, and the cross rods 12 and the storage rack main body 11 enclose a feed and discharge port 14 which is circumferentially closed and transversely penetrates through two sides, so that a multilayer storage space is formed, a plurality of charging barrels 3 can be conveniently placed in a layered manner, raw materials in the stored charging barrels 3 can be conveniently placed in a layered and classified manner, searching is facilitated, and space is saved; as shown in fig. 2, store 11 open sides of frame main part and be provided with lift translation dolly 2, lift translation dolly 2 is used for carrying storage bucket 3 and carries it to business turn over material mouth 14 department relevant position to with feed cylinder 3 on the lift translation dolly 2 from business turn over material mouth 14 parallel push in raw materials store frame 1 can, easy operation, convenient use manpower sparingly.

As shown in fig. 4, the horizontal demountable installation in middle part in the outside of feed/discharge port 14 has protection chain I15 to when getting the operation process of expecting and causing raw materials storage rack 1 to rock, play the guard action, avoid the feed cylinder of placing on the raw materials storage rack 1 to drop.

In this embodiment, as shown in fig. 1, the raw material storage racks 1 are vertically provided with a plurality of groups at equal intervals to improve the types of raw material storage, and an accommodating space for the lifting and translating trolley 2 to walk is reserved between the adjacent raw material storage racks 1, so as to improve the operation flexibility. Each group of raw material storage rack 1 is arranged in a plurality of layers to form a multi-layer storage space, so that a plurality of charging barrels 3 can be placed in a layered manner conveniently, and the stored raw materials in the charging barrels 3 can be placed in a layered and classified manner conveniently and can be taken and placed conveniently; the storage rack main body 11 is provided with a kind signboard 16 on the upper part thereof for identifying the kind of the storage raw material on each group of the raw material storage rack 1, and the storage rack is convenient for searching and classifying.

Example 2

The three-dimensional metallurgical material storage warehouse for the laboratory and the storage and taking method thereof have the same basic structure as that of the embodiment 1, and the differences and improvements are as follows: as shown in fig. 5 to 6, the cross bar 12 is coaxially sleeved with a plurality of sets of rollers I13, and when the charging barrel 3 is pushed into or pulled out of the raw material storage rack 1 from the material inlet/outlet 14, the bottom of the charging barrel 3 is connected with the upper surface of the roller I13 to convert sliding friction into rolling friction, so that the charging barrel 3 can be pushed into or pulled out conveniently, and manpower is saved.

Example 3

The three-dimensional metallurgical material storage warehouse for the laboratory and the storage and taking method thereof have the same basic structure as that of the embodiment 2, and the differences and improvements are as follows: as shown in fig. 7-9, the lifting translation trolley 2 comprises a transversely arranged bottom frame 21, a lifting frame 23 is transversely arranged on the upper surface of the bottom frame 21, and a lifting mechanism 22 is vertically arranged between the bottom frame 21 and the lifting frame 23; universal wheels 28 are installed to chassis 21 lower surface bilateral symmetry, the vertical handrail 27 of installing in chassis 21 one side to promote lift translation dolly 2 to each group of raw materials storage rack 1 relevant position, through starting elevating system 22 in order to promote crane 23 to corresponding business turn over material mouth 14 department, thereby improve and get blowing operating efficiency.

The left side and the right side of the lifting frame 23 are vertically and symmetrically provided with guardrails 25, and the height of each guardrail 25 is 0.6-0.8 times of the height of the charging bucket 3, so that the charging bucket 3 placed on the lifting frame 23 is protected by the arranged guardrails 25 in the running process of the lifting translation trolley 2; two horizontal demountable installation in middle part has protection chain II26 between guardrail 25, avoids the feed cylinder 3 of placing on the crane 23 to drop.

Example 4

The three-dimensional metallurgical material storage warehouse for the laboratory and the storage and taking method thereof have the same basic structure as that of the embodiment 3, and the differences and improvements are as follows: as shown in fig. 8-9, a plurality of groups of rollers II24 are transversely arranged on the upper surface of the lifting frame 23 at equal intervals, when the material cylinder 3 is pulled out from the material inlet/outlet 14 of the material storage frame 1, or the material cylinder 3 on the lifting translation trolley 2 is pushed into the material storage frame 1 from the material inlet/outlet 14, the upper surface of the roller II24 is flush with the upper surface of the roller I13, the bottom of the material cylinder 3 contacts with the upper surface of the roller I13, so that the material cylinder 3 can be conveniently pushed or pulled out, and manpower is saved.

Example 5

The basic structure of the raw material storage method of the metallurgical material three-dimensional storage warehouse for the laboratory in the embodiment is the same as that of the embodiment 4, and the differences and the improvements are that: the method comprises the following steps:

step one, uniformly mixing and dividing raw materials, filling the raw materials into raw material sealing bags, placing the raw materials into a charging basket 3, covering the charging basket 3 with a sealing cover for sealing, and marking the names of the raw materials on name identification plates attached to the periphery of the charging basket 3;

secondly, placing the charging bucket 3 on rollers II24 transversely arranged on the upper surface of the lifting frame 23 at equal intervals, and connecting the protective chains II26 on two sides of the guardrail 25;

pushing the lifting translation trolley 2 to convey the charging bucket 3 to one side of the raw material storage rack 1 marked by the corresponding type signboard 16, removing a protection chain II26 on the lifting translation trolley 2 close to one side of the raw material storage rack 1, and starting the lifting mechanism 22 to drive the charging bucket 3 placed on the lifting translation trolley 23 to move to a required charging and discharging port 14 until the upper surface of the roller II24 is flush with the upper surface of the roller I13;

and step four, detaching the protective chain I15 at the feed/discharge port 14 and close to one side of the lifting translation trolley 2, pushing the charging bucket 3 on the roller II24 to move to the roller I13 from the feed/discharge port 14, and then loading the protective chain I15 back, thereby finishing the storage of the raw materials.

In the embodiment, the traditional planar stacking of the raw materials is converted into spatial three-dimensional storage, so that the gridding, zoning and classification management of the raw materials are realized; the lifting translation trolley 2 is arranged to realize the stockpiling and the acquisition of the raw materials, so that the time and the labor are saved; the raw materials are uniformly mixed and packed into a raw material sealing bag in a splitting way and then are placed in the charging basket 3, and the charging basket 3 is covered by a sealing cover, so that the special storage requirements of moisture prevention, moisture loss prevention and the like of the raw materials are met.

Example 6

The basic structure of the method for taking raw materials from a laboratory three-dimensional metallurgical material storage warehouse is the same as that of the embodiment 5, and the differences and the improvements are that: the method comprises the following steps:

step one, marking raw material names through a type signboard 16 arranged on a raw material storage rack 1 and a name signboard attached to the periphery of a charging bucket 3, searching and positioning raw materials needed at the corresponding raw material storage rack 1, and removing a protection chain I15 at the corresponding position of a material inlet and outlet 14;

pushing the lifting translation trolley 2 to the side of the positioned raw material storage rack 1, removing a protection chain II26 on the lifting translation trolley 2 close to one side of the raw material storage rack 1, and starting the lifting mechanism 22 to lift the lifting frame 23 to move to the position of the required material inlet and outlet 14 until the upper surface of the roller II24 is flush with the upper surface of the roller I13;

step three, pulling out the charging basket 3 placed on the roller I13 from the material inlet and outlet 14 onto the roller II24, and loading back the protection chain II26 on the lifting translation trolley 2 close to one side of the raw material storage rack 1;

and step four, starting the lifting mechanism 22 to enable the lifting frame 23 to descend to the initial position, and moving the lifting translation trolley 2 to the batching area, so that the material taking operation is completed.

In this embodiment, each raw material storage rack 1 is marked by classification by the type signboard 16 arranged on the upper part of the storage rack main body 11; through the name signboard that sets up on the storage bucket 3 to carry out detailed sign to each storage bucket 3, thereby be convenient for can seek, fix a position fast when getting the material.

The present invention and its embodiments have been described above schematically, and the description is not intended to be limiting, and what is shown in the drawings is only one of the embodiments of the present invention, and the actual structure is not limited thereto. Therefore, if the person skilled in the art receives the teaching, without departing from the spirit of the invention, the person skilled in the art shall not inventively design the similar structural modes and embodiments to the technical solution, but shall fall within the scope of the invention.

Claims

1. The utility model provides a laboratory is with three-dimensional repository of metallurgical material which characterized in that: the material storage rack comprises a material storage rack (1), wherein the material storage rack (1) comprises a storage rack main body (11) which is vertically arranged, and the storage rack main body (11) is of a frame structure which is circumferentially closed and has two openings at two sides; a plurality of groups of cross rods (12) are transversely arranged in the storage rack main body (11) at equal intervals, and the cross rods (12) and the storage rack main body (11) enclose a feeding and discharging port (14) which is circumferentially closed and two sides of which are transversely communicated; the storage rack is characterized in that a lifting translation trolley (2) is arranged on one side of an opening of the storage rack main body (11), and the lifting translation trolley (2) is used for carrying the charging bucket (3) and conveying the charging bucket to a corresponding position of a charging and discharging port (14).

2. The laboratory metallurgical material three-dimensional storage warehouse according to claim 1, characterized in that: the cross rod (12) is coaxially sleeved with a plurality of groups of rollers I (13).

3. The laboratory metallurgical material three-dimensional storage warehouse according to claim 2, characterized in that: and a protective chain I (15) is transversely detachably mounted in the middle of the outer side of the material inlet and outlet (14).

4. The laboratory metallurgical material three-dimensional storage warehouse according to claim 3, characterized in that: the upper part of the storage rack main body (11) is provided with a kind signboard (16).

5. The laboratory metallurgical material solid storage warehouse according to claim 4, characterized in that: the lifting translation trolley (2) comprises a transversely arranged bottom frame (21), a lifting frame (23) is transversely arranged on the upper surface of the bottom frame (21), and a lifting mechanism (22) is vertically arranged between the bottom frame (21) and the lifting frame (23); universal wheels (28) are symmetrically arranged on the left and right of the lower surface of the bottom frame (21), and handrails (27) are vertically arranged on one side of the bottom frame (21).

6. The laboratory metallurgical material solid storage warehouse of claim 5, characterized in that: the upper surface of the lifting frame (23) is transversely provided with a plurality of groups of rollers II (24) at equal intervals, and the upper surface of each roller II (24) is in contact with the lower surface of the charging bucket (3).

7. The laboratory metallurgical material three-dimensional storage warehouse according to claim 6, characterized in that: guardrails (25) are vertically and symmetrically arranged on the left side and the right side of the lifting frame (23), and the height of each guardrail (25) is 0.6-0.8 time of the height of the charging bucket (3); and a protective chain II (26) is transversely detachably arranged in the middle between the two guardrails (25).

8. The laboratory metallurgical material solid storage according to any one of claims 1 to 7, wherein: a plurality of groups are vertically arranged on the raw material storage frames (1) at equal intervals, and an accommodating space for the lifting and translation trolley (2) to walk is reserved between the adjacent raw material storage frames (1).

9. A raw material storage method of a metallurgical material three-dimensional storage warehouse for a laboratory is characterized by comprising the following steps:

uniformly mixing and dividing raw materials, putting the raw materials into a raw material sealing bag, placing the raw materials into a charging basket (3), covering the charging basket (3) by using a sealing cover for sealing, and marking the names of the raw materials on a name signboard attached to the periphery of the charging basket (3);

secondly, placing the charging bucket (3) on rollers II (24) transversely arranged on the upper surface of the lifting frame (23) at equal intervals, and connecting protective chains II (26) on two sides of the guardrail (25);

pushing the lifting translation trolley (2) to convey the charging bucket (3) to one side of the raw material storage rack (1) corresponding to the identification of the type identification plate (16), removing a protection chain II (26) on the lifting translation trolley (2) close to one side of the raw material storage rack (1), and starting the lifting mechanism (22) to lift the lifting frame (23) to drive the charging bucket (3) placed on the lifting translation trolley to move to a position where a material inlet and a material outlet (14) are needed until the upper surface of the roller II (24) is flush with the upper surface of the roller I (13);

and step four, detaching the protection chain I (15) at the feed/discharge port (14) close to one side of the lifting translation trolley (2), pushing the charging bucket (3) on the roller II (24) to move to the roller I (13) from the feed/discharge port (14), and then loading the protection chain I (15) back, thereby finishing the storage of the raw materials.

10. A raw material taking method of a metallurgical material three-dimensional storage warehouse for a laboratory is characterized by comprising the following steps:

step one, marking raw material names on a type signboard (16) arranged on a raw material storage rack (1) and a name signboard attached to the periphery of a charging bucket (3), searching and positioning raw materials required by the corresponding raw material storage rack (1), and removing a protection chain I (15) at the position of a corresponding material inlet/outlet (14);

secondly, pushing the lifting translation trolley (2) to the side of the positioned raw material storage rack (1), removing a protection chain II (26) on the lifting translation trolley (2) close to one side of the raw material storage rack (1), and moving a lifting rack (23) to a position where a material inlet/outlet (14) is needed by starting a lifting mechanism (22) until the upper surface of a roller II (24) is flush with the upper surface of a roller I (13);

pulling out a charging basket (3) placed on the roller I (13) from a material inlet and outlet (14) onto a roller II (24), and loading a protection chain II (26) on one side, close to the raw material storage rack (1), of the lifting translation trolley (2) back;

and step four, starting the lifting mechanism (22) to enable the lifting frame (23) to descend to the initial position, and moving the lifting translation trolley (2) to the batching area, so that the material taking operation is completed.