CN114104488B - Storage equipment for detecting rare metals of metallurgical raw materials - Google Patents

Abstract

The invention relates to storage equipment, in particular to storage equipment for detecting rare metals of metallurgical raw materials. The technical problems to be solved are as follows: the storage device for detecting rare metals of metallurgical raw materials has a clamping function and is high in stability. The technical scheme of the invention is as follows: a deposit equipment for metallurgical raw materials rare metal detects, including: the box body and the rotating mechanism are arranged on one side of the box body; the placing mechanism is arranged at the inner side of the box body. According to the test tube clamping device, the sliding block stops moving under the action of the third supporting block and the left placing block, the first spring and the second spring are compressed, at the moment, the clamping block clamps the test tube, and people transport the test tube clamping device, so that the stability of the test tube is improved, and the test tube is prevented from being damaged due to collision.

Description

Storage equipment for detecting rare metals of metallurgical raw materials

Technical Field

The invention relates to storage equipment, in particular to storage equipment for detecting rare metals of metallurgical raw materials.

Background

Rare metals are generally metals that naturally contain little gold and are difficult to extract from raw materials in the distribution of dilute bulk materials. Rare metals are mainly used for manufacturing special steels, super hard alloys and high temperature resistant alloys.

The rare metal is more and more important in China, the metal is a non-renewable resource, and the problems of damage or rupture of the test tube, poor preservation effect and the like caused by easy shaking of the test tube for storing the rare metal in the process of conveying the rare metal exist in the traditional rare metal storage equipment at present because the rare metal is relatively active and needs to be stored in a vacuum environment in the country due to the limited exploitation and limited export measures adopted by the country in the aspect of the rare metal.

In view of the foregoing, there is a need to design a storage device for detecting rare metals of metallurgical raw materials, which has a clamping function and is highly stable, so as to solve the above-mentioned problems.

Disclosure of Invention

In order to overcome the defects of the traditional rare metal storage equipment in the process of conveying rare metals, the technical problems to be solved are as follows: the storage device for detecting rare metals of metallurgical raw materials has a clamping function and is high in stability.

The technical scheme of the invention is as follows: a deposit equipment for metallurgical raw materials rare metal detects, including: the box body and the rotating mechanism are arranged on one side of the box body; the placing mechanism is arranged at the inner side of the box body.

As a preferred technical solution of the present invention, the rotation mechanism includes: the first rotary rod is rotatably arranged on one side of the box body; the first rotating rod is provided with a first rotating block; the first limiting block is provided with guide rails at the front side and the rear side of the inside of the box body; the inner side of the guide rail is provided with a first limiting block in a sliding mode, and the first limiting block is connected with the first rotating block; the first torsion springs are symmetrically arranged between the first rotating block and the box body, and the first torsion springs are sleeved on the first rotating rod.

As a preferable technical scheme of the invention, the placement mechanism comprises: the first supporting blocks are arranged on the inner side of the box body and are connected with each other; the second support blocks are symmetrically arranged on two sides of the bottom of the first support block; the second rotating rods are arranged between the inner sides of the second supporting blocks at the two sides in a rotating way; the second rotating rods are respectively provided with a placing block; and a second torsion spring is arranged between the placement block and the second support block, and the second torsion spring is sleeved on the second rotary rod.

As a preferred technical solution of the present invention, the present invention further includes a clamping assembly, where the clamping assembly includes: the first guide rods are symmetrically arranged on one side of the inner part of the first support block; the sliding blocks are arranged between the first guide rods on the same side in a sliding manner, and are matched with the placing blocks on one side; the third supporting blocks are arranged on one side of the inner part of the first supporting block; the second guide rods are symmetrically and slidingly arranged on the inner sides of the third support blocks, and the second guide rods are symmetrically and slidingly arranged on the inner sides of the sliding blocks; the clamping blocks are arranged between one sides of the two second guide rods on the same side, and the clamping blocks on one side are connected with the first guide rods in a sliding mode; the first springs are symmetrically arranged between the clamping block and the sliding block and between the clamping block and the third supporting block, and the first springs are sleeved on the second guide rod; and the second springs are symmetrically arranged between the clamping blocks and the sliding blocks at one side, and are sleeved on the first guide rod.

As a preferred technical scheme of the invention, the invention also comprises a limiting component, wherein the limiting component comprises: the third branch blocks are uniformly arranged on one side of the box body at intervals; the third rotating rods are arranged between the inner sides of the pair of fourth supporting blocks in a rotating way; the second rotating blocks are arranged on the third rotating rods, and the first rotating blocks are matched with the second rotating blocks; the third torsion springs are connected between the second rotating block and the fourth supporting block at one end, and are sleeved on the third rotating rod; the upper sides of the second rotating blocks are symmetrically and slidably provided with third guide rods; the second limiting blocks are arranged between the third guide rods on the same side and are matched with the placement blocks on the right side; and the third springs are symmetrically arranged between the second limiting block and the second rotating block, and are sleeved on the third guide rod.

As a preferable technical scheme of the invention, the invention also comprises an unlocking component, wherein the unlocking component comprises: the clamping rods are symmetrically arranged on one side of the upper part of the first rotating block; the fifth supporting blocks are symmetrically arranged on the other side of the inner part of the box body; the inner sides of the fourth guide rods and the fifth support blocks are respectively provided with a fourth guide rod; the fourth guide rod is provided with a wedge block in a sliding mode, and the wedge block is matched with the clamping rod; the fourth springs are arranged between the wedge-shaped blocks and the fifth supporting blocks, and are sleeved on the fourth guide rod; a connecting rod is arranged between the tops of the wedge blocks, and the connecting rod is connected with the box body in a sliding manner.

As a preferable technical scheme of the invention, the portable device also comprises a carrying assembly, wherein the carrying assembly comprises: the fourth rotating rod is rotatably arranged at two sides of the box body; the third rotating blocks are arranged on the fourth rotating rods; and a brace is connected between the third rotating blocks.

As a preferred embodiment of the present invention, the first support block is connected by a bolt.

The beneficial effects are that: 1. according to the test tube clamping device, the sliding block stops moving under the action of the third supporting block and the left placing block, the first spring and the second spring are compressed, at the moment, the clamping block clamps the test tube, and people transport the test tube clamping device, so that the stability of the test tube is improved, and the test tube is prevented from being damaged due to collision.

2. The right placing block and the test tube are driven to rotate anticlockwise through the second limiting block, so that the test tube contacts with the right clamping block, and then the second guide rod, the right clamping block, the sliding block and the second spring are driven to move leftwards, and the effect of automatically clamping the test tube is achieved.

3. Through striding the braces on one's body to can hang this equipment on one's body, drive this equipment to suitable place, at the arbitrary pivoted effect of fourth rotary rod and third rotatory piece, the degree of rocking of reducible test tube, effectively improve the efficiency of transporting the test tube.

Drawings

Fig. 1 is a schematic perspective view of a first embodiment of the present invention.

Fig. 2 is a schematic perspective view of a second embodiment of the present invention.

Fig. 3 is a schematic perspective view of a rotating mechanism according to the present invention.

Fig. 4 is a schematic perspective view of a first embodiment of the placement mechanism of the present invention.

Fig. 5 is a schematic view of a second perspective structure of the placement mechanism of the present invention.

Fig. 6 is a schematic perspective view of a clamping mechanism according to the present invention.

Fig. 7 is a schematic view of a first perspective structure of the limiting mechanism of the present invention.

Fig. 8 is a schematic view of a second perspective structure of the limiting mechanism of the present invention.

Fig. 9 is a schematic perspective view of an unlocking mechanism according to the present invention.

Fig. 10 is a schematic perspective view of a carrying mechanism according to the present invention.

Wherein: 1-box, 2-rotating mechanism, 20-first rotary rod, 21-first rotary block, 22-first stopper, 23-guide rail, 24-first torsion spring, 3-placing mechanism, 30-first support block, 31-second support block, 32-second rotary rod, 33-placing block, 34-second torsion spring, 4-clamping component, 40-first guide rod, 41-slide block, 42-third support block, 43-second guide rod, 44-clamping block, 45-first spring, 46-second spring, 5-stopper component, 50-fourth support block, 51-third rotary rod, 52-second rotary block, 53-third torsion spring, 54-third guide rod, 55-second stopper, 56-third spring, 6-unlocking component, 60-clamping rod, 61-fifth support block, 62-fourth guide rod, 63-wedge block, 64-fourth spring, 65-connecting rod, 7-carrying component, 70-fourth rotary rod, 71-third rotary block, 72-back strap.

Detailed Description

The invention will now be described in more detail with reference to the drawings and specific examples, which are not intended to limit the invention thereto.

Example 1

A storage device for detecting rare metals of metallurgical raw materials is shown in fig. 1-5, and comprises a box body 1, a rotating mechanism 2 and a placing mechanism 3, wherein the rotating mechanism 2 is arranged on the right side of the box body 1, and the placing mechanism 3 is arranged on the inner side of the box body 1.

The rotating mechanism 2 comprises a first rotating rod 20, a first rotating block 21, a first limiting block 22, a guide rail 23 and a first torsion spring 24, wherein the first rotating rod 20 is arranged on the right lower side of the box body 1 in a rotating mode, the first rotating block 21 is arranged on the first rotating rod 20, the guide rail 23 is arranged on the front side and the rear side of the interior of the box body 1, the first limiting block 22 is arranged on the inner side of the guide rail 23 in a sliding mode, the first limiting block 22 is connected with the first rotating block 21, the first torsion spring 24 is symmetrically arranged between the first rotating block 21 and the box body 1, and the first torsion spring 24 is sleeved on the first rotating rod 20.

The placing mechanism 3 comprises a first supporting block 30, a second supporting block 31, a second rotating rod 32, a placing block 33 and a second torsion spring 34, wherein three first supporting blocks 30 are arranged on the inner side of the box body 1, the first supporting blocks 30 are connected with each other, the second supporting blocks 31 are symmetrically arranged on the front side and the rear side of the bottom of the first supporting block 30, the second rotating rod 32 is rotatably arranged between the inner sides of the second supporting blocks 31 on the front side and the rear side, the placing block 33 is arranged on the second rotating rod 32, the second torsion spring 34 is arranged between the placing block 33 and the second supporting block 31, and the second torsion spring 34 is sleeved on the second rotating rod 32.

When needing to deposit metallurgical raw and other materials, people pack rare metal into the test tube, then cover the test tube, put the test tube on placing the piece 33, manual will place the piece 33 anticlockwise rotation, drive test tube and anticlockwise rotation of second rotary rod 32, second torsional spring 34 takes place deformation, then will place the piece 33 and fix, at this moment, will rotate first rotary rod 21 anticlockwise again, drive first rotary rod 20 anticlockwise rotation, first torsional spring 24 takes place deformation, thereby drive first stopper 22 and slide along guide rail 23, make first rotary rod 21 close, avoid the dust to fall on the test tube, when needs take out the test tube, loosen first rotary rod 21, in the effect of first torsional spring 24, drive first rotary rod 21 and first rotary rod 20 clockwise rotation reset, at this moment, loosen the piece 33 of placing, in the effect of second torsional spring 34, drive place piece 33 and second rotary rod 32 clockwise rotation reset, so, make things convenient for people to take out the test tube.

Example 2

On the basis of embodiment 1, as shown in fig. 6 and 10, the clamping assembly 4 further comprises a clamping assembly 4, the clamping assembly 4 comprises a first guide rod 40, a sliding block 41, a third support block 42, a second guide rod 43, a clamping block 44, a first spring 45 and a second spring 46, the front and the back of the right side inside the first support block 30 are symmetrically provided with the first guide rod 40, the sliding block 41 is slidably arranged between the first guide rod 40 on the same side, the sliding block 41 is matched with the left placement block 33, the left side inside the first support block 30 is provided with the third support block 42, the inner side of the third support block 42 is symmetrically slidably provided with the second guide rod 43, the inner side of the sliding block 41 is symmetrically slidably provided with the second guide rod 43, the right side between the two second guide rods 43 on the same side is provided with the clamping block 44, the right side clamping block 44 is symmetrically provided with the first spring 45, the first guide rod 45 is sleeved on the second guide rod 43, the right side clamping block 44 is symmetrically provided with the second spring 46, and the first guide rod 46 is sleeved on the second guide rod 40.

Still including spacing subassembly 5, spacing subassembly 5 is including fourth piece 50, third rotary rod 51, second rotary piece 52, third torsional spring 53, third guide arm 54, second stopper 55 and third spring 56, the inside right side interval of box 1 evenly is equipped with three pairs of fourth piece 50, all be equipped with third rotary rod 51 between the inboard of a pair of fourth piece 50, all be equipped with second rotary piece 52 on the third rotary rod 51, first rotary piece 21 cooperates with second rotary piece 52, all be connected with third torsional spring 53 between fourth piece 50 of second rotary piece 52 and rear end, third torsional spring 53 all overlaps on third rotary rod 51, third guide arm 54 is all equipped with to the equal symmetry sliding type in second rotary piece 52 upside, all be equipped with second stopper 55 between the third guide arm 54 of homonymy, second stopper 55 all cooperates with the placement block 33 on right side, all be equipped with third spring 56 between second stopper 55 and the second rotary piece 52, third spring 56 all overlaps on third guide arm 54.

When the first rotating block 21 is rotated anticlockwise, the first rotating block 21 is contacted with the second rotating block 52, so that the second rotating block 52 and the third rotating rod 51 are driven to rotate anticlockwise, the third torsion spring 53 is deformed, the second limiting block 55 is driven to contact with the right placing block 33, the third spring 56 plays a role in buffering, shake of a test tube is reduced, the second limiting block 55 drives the right placing block 33 and the test tube to rotate anticlockwise, the test tube is enabled to contact with the right clamping block 44, the second guide rod 43, the right clamping block 44, the sliding block 41 and the second spring 46 are driven to move leftwards, the sliding block 41 is enabled to contact with the left placing block 33, the left placing block 33 and the test tube are driven to rotate anticlockwise, the test tube is driven to contact with the left clamping block 44, the left clamping block 44 is driven to move leftwards, the third supporting block 42 and the left placing block 33 are driven, the sliding block 41 stops moving, the first spring 45 and the second spring 46 are compressed, at this time, the clamping block 44 clamps the test tube, stability is increased, the first rotating block 21 rotates clockwise to be separated from the second rotating block 44, and then drives the second rotating block 43 and the second spring 45 to rotate rightwards, and the second spring 45 rotates rightwards, and the second rotating block 45 is driven to separate from the second rotating block 33, and the reset spring 45 rotates rightwards, and the reset block 45 is driven to rotate the reset block 33, and the reset block is driven to rotate by the second rotating block 45, and the reset block 45 rotates the second rotating block and the reset block 33, and the reset block 45 is driven to rotate and the reset block is driven to rotate, and the reset block is driven to rotate and the reset and rotate.

The novel box comprises a box body 1, and is characterized by further comprising an unlocking component 6, wherein the unlocking component 6 comprises a clamping rod 60, a fifth supporting block 61, a fourth guide rod 62, wedge blocks 63, fourth springs 64 and a connecting rod 65, the clamping rod 60 is symmetrically arranged on the left side of the upper portion of the first rotating block 21, the fifth supporting block 61 is symmetrically arranged on the front and back of the left upper side inside the box body 1, the fourth guide rods 62 are respectively arranged on the inner sides of the fifth supporting blocks 61, the wedge blocks 63 are respectively arranged on the fourth guide rods 62 in a sliding mode, the wedge blocks 63 are respectively matched with the clamping rod 60, the fourth springs 64 are respectively arranged between the wedge blocks 63 and the fifth supporting blocks 61, the fourth springs 64 are respectively sleeved on the fourth guide rods 62, connecting rods 65 are arranged between the tops of the wedge blocks 63, and the connecting rods 65 are respectively connected with the box body 1 in a sliding mode.

The portable box is characterized by further comprising a portable assembly 7, wherein the portable assembly 7 comprises a fourth rotating rod 70, third rotating blocks 71 and braces 72, the fourth rotating rod 70 is rotatably arranged on the front side and the rear side of the box body 1, the third rotating blocks 71 are arranged on the fourth rotating rod 70, and the braces 72 are connected between the third rotating blocks 71.

When the first rotating block 21 is anticlockwise, the clamping rod 60 is driven to move to the wedge block 63 to contact, after the first rotating block 21 is attached to the box body 1, the wedge block 63 clamps the clamping rod 60, so that people can prop the braces 72 on the body, the equipment can be hung on the body, the equipment is driven to a proper place, the random rotation effect of the fourth rotating rod 70 and the third rotating block 71 can be reduced, the shaking degree of a test tube can be reduced, when the test tube needs to be taken out, people press the connecting rod 65 downwards, the wedge block 63 is driven to be separated from the clamping rod 60 downwards, the fourth spring 64 is compressed, the wedge block 63 is not clamped on the clamping rod 60 any more, the first rotating block 21 and the clamping rod 60 are driven to reset under the reset effect of the first torsion spring 24, the connecting rod 65 is released, the wedge block 63 and the connecting rod 65 are driven to move upwards to reset under the effect of the fourth spring 64, and at the moment, people can take out the test tube from the box body 1.

While the invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. The scope of the following claims is to be accorded the broadest interpretation so as to encompass all such modifications and equivalent structures and functions.

Claims (5)

1. A storage equipment for metallurgical raw materials rare metal detects, characterized by includes:

the box body (1) and the rotating mechanism (2), wherein the rotating mechanism (2) is arranged at one side of the box body (1);

the placing mechanism (3) is arranged on the inner side of the box body (1);

the rotating mechanism (2) comprises:

a first rotating rod (20), wherein one side of the box body (1) is rotatably provided with the first rotating rod (20);

the first rotating rod (20) is provided with a first rotating block (21);

the first limiting block (22) is provided with guide rails (23) at the front side and the rear side of the interior of the box body (1);

the inner sides of the guide rails (23) are provided with first limiting blocks (22) in a sliding mode, and the first limiting blocks (22) are connected with the first rotating blocks (21);

the first torsion springs (24) are symmetrically arranged between the first rotating block (21) and the box body (1), and the first torsion springs (24) are sleeved on the first rotating rod (20);

the placement mechanism (3) comprises:

the first support blocks (30) are arranged on the inner side of the box body (1), and the first support blocks (30) are connected with each other;

the second supporting blocks (31) are symmetrically arranged on two sides of the bottom of the first supporting block (30);

the second rotating rods (32) are rotatably arranged between the inner sides of the second supporting blocks (31) at two sides;

the placing blocks (33) are arranged on the second rotating rods (32);

the second torsion springs (34) are arranged between the placement blocks (33) and the second support blocks (31), and the second torsion springs (34) are sleeved on the second rotating rods (32);

still including clamping component (4), clamping component (4) are including:

the first guide rods (40) are symmetrically arranged on one side of the inner part of the first support block (30);

the sliding blocks (41) are arranged between the first guide rods (40) on the same side in a sliding manner, and the sliding blocks (41) are matched with the one-side placing blocks (33);

a third supporting block (42), wherein one side of the inside of the first supporting block (30) is provided with the third supporting block (42);

the second guide rods (43) are symmetrically and slidingly arranged on the inner sides of the third support blocks (42), and the second guide rods (43) are symmetrically and slidingly arranged on the inner sides of the sliding blocks (41);

the clamping blocks (44) are arranged between one sides of the two second guide rods (43) on the same side, and the clamping blocks (44) on one side are connected with the first guide rods (40) in a sliding mode;

the first springs (45) are symmetrically arranged between the clamping blocks (44) and the sliding blocks (41) and between the clamping blocks and the third supporting blocks (42), and the first springs (45) are sleeved on the second guide rods (43);

and second springs (46) are symmetrically arranged between the clamping blocks (44) and the sliding blocks (41) on one side, and the second springs (46) are sleeved on the first guide rod (40).

2. A storage device for rare metal detection of metallurgical raw materials as claimed in claim 1, further comprising a limiting assembly (5), the limiting assembly (5) comprising:

the fourth supporting blocks (50) are uniformly arranged on one side of the inside of the box body (1) at intervals, and three pairs of fourth supporting blocks (50) are arranged on one side of the inside of the box body;

a third rotating rod (51), wherein the third rotating rod (51) is rotatably arranged between the inner sides of the pair of fourth supporting blocks (50);

the second rotating blocks (52) are arranged on the third rotating rods (51), the second rotating blocks (52) are arranged on the third rotating rods, and the first rotating blocks (21) are matched with the second rotating blocks (52);

the third torsion springs (53), are connected between the second rotating block (52) and the fourth supporting block (50) at one end, and the third torsion springs (53) are sleeved on the third rotating rod (51);

the third guide rods (54) are symmetrically and slidably arranged on the upper sides of the second rotating blocks (52);

the second limiting blocks (55) are arranged between the third guide rods (54) on the same side, and the second limiting blocks (55) are matched with the placement blocks (33) on the right side;

and third springs (56), wherein the third springs (56) are symmetrically arranged between the second limiting block (55) and the second rotating block (52), and the third springs (56) are sleeved on the third guide rod (54).

3. A storage device for rare metal detection of metallurgical raw materials as claimed in claim 2, further comprising an unlocking assembly (6), the unlocking assembly (6) comprising:

the clamping rods (60) are symmetrically arranged on one side of the upper part of the first rotating block (21);

a fifth supporting block (61), wherein the other side of the interior of the box body (1) is symmetrically provided with the fifth supporting block (61);

the inner sides of the fifth support blocks (61) are respectively provided with a fourth guide rod (62);

the wedge-shaped blocks (63) are arranged on the fourth guide rod (62) in a sliding mode, and the wedge-shaped blocks (63) are matched with the clamping rods (60);

a fourth spring (64), a fourth spring (64) is arranged between the wedge block (63) and the fifth supporting block (61), and the fourth springs (64) are sleeved on the fourth guide rod (62);

the connecting rod (65) is arranged between the tops of the wedge blocks (63), and the connecting rod (65) is connected with the box body (1) in a sliding mode.

4. A storage device for the detection of rare metals of metallurgical raw materials as claimed in claim 3, characterized in that it further comprises a carrying assembly (7), the carrying assembly (7) comprising:

a fourth rotating rod (70), wherein the fourth rotating rod (70) is rotatably arranged at two sides of the box body (1);

the third rotating blocks (71), and the fourth rotating rods (70) are provided with the third rotating blocks (71);

and a back strap (72), wherein the back strap (72) is connected between the third rotating blocks (71).

5. A storage device for the detection of rare metals of metallurgical raw materials as claimed in claim 4, characterized in that the first support (30) is bolted.