CN115180301A - High-efficient protection safety box is used in precision instruments transportation - Google Patents

Abstract

The application discloses precision instruments transportation is with high-efficient protection safety box, including box and cover, the bearing unit has in the box, the bearing unit includes the carrier substrate and installs in the gasbag of carrier substrate department, the lateral wall of box still has and is used for right the gas filled air cock of gasbag. The bearing substrate is provided with an air bag groove, and the air bag is arranged at the air bag groove; the lower surface of the bearing substrate is provided with a rectangular sealing gasket and a gas injection hole communicated with the air bag, and the rectangular sealing gasket is provided with a sealing gasket opening surrounding the gas injection hole. The application of the safety box can load different types of precision instruments and is good in protection effect.

Description

High-efficient protection safety box is used in precision instruments transportation

Technical Field

The application relates to the field of safety boxes, in particular to a high-efficiency protection safety box for precision instrument transportation.

Background

The safety box is used for protecting built-in articles, generally has high strength, is wear-resistant and drop-resistant, and accordingly effectively protects the articles in the safety box. Mainly used for loading some important and fragile articles. Precision instruments are a common type of equipment in laboratories, and because of the different sites tested, various types of test equipment often need to be transported at different test sites. Moreover, since the shapes of the test equipment and the precision instruments are different from each other, when the safety box is used for carrying, the shape of the lining of the safety box is required to be specially adapted for each precision instrument. This results in the need for a special safety box for each precision instrument. However, in a laboratory, the number of precision instruments to be transported at a time is small, but the precision instruments to be transported at a time may be different and the transportation frequency may not be high, and if one safety box is provided for each precision instrument, the number of safety boxes in the laboratory is very large, the space is occupied, and the use frequency of a single safety box is not high.

Disclosure of Invention

The purpose of the invention is as follows: the application aims at overcoming the defects of the prior art and provides the high-efficiency protection safety box for the transportation of the precision instrument.

The technical scheme is as follows: the utility model provides a precision instruments transportation is with high-efficient protection safety box, includes box and cover, the bearing unit has in the box, bearing unit includes the bearing substrate and installs the gasbag in bearing substrate department, the lateral wall of box still has and is used for right the gas filled air cock of gasbag.

Therefore, the air bag can bear the precision instrument unit after being inflated, and the air bag can be tightly attached to the precision instrument unit.

Further, an air bag groove is formed in the bearing substrate, and the air bag is installed in the air bag groove; the lower surface of the bearing substrate is provided with a rectangular sealing gasket and a gas injection hole communicated with the airbag, and the rectangular sealing gasket is provided with a sealing gasket hole communicated with the gas injection hole.

Further, the sealing gasket opening and the gas injection hole are both circular holes and are concentric.

Further, the diameter of the opening of the sealing gasket is larger than or equal to the diameter of the gas injection hole.

Further, the bearing unit is provided with a plurality of bearing units; the box body comprises a first side plate, a second side plate, a third side plate, a fourth side plate, a bottom plate and a bottom cover, wherein the first side plate and the second side plate are opposite, the third side plate and the fourth side plate are opposite, the inner side of the first side plate is provided with a plurality of first horizontal slots, and the inner side of the second side plate is provided with a plurality of second horizontal slots; the bottom plate is provided with a rectangular bottom through hole, the lower surface of the bottom plate is also provided with a rectangular accommodating groove communicated with the bottom through hole, the bottom cover comprises a bottom base plate capable of being accommodated in the accommodating groove and a bottom base plate fixedly connected with the bottom base plate and capable of being inserted into the bottom through hole, the upper surfaces of the bottom base plate, all the upper surfaces of the first horizontal slots and all the upper surfaces of the second horizontal slots are flush, and the bottom base plate and the bottom plate are fixed through fixing bolts; the box body is also provided with a plurality of moving units, each moving unit comprises a rectangular frame-shaped moving substrate, each moving substrate is provided with a placing through hole, each placing through hole is used for placing the bearing substrate, the top end of each placing through hole is provided with a rectangular frame-shaped limiting convex edge, the end part of each moving substrate is provided with a compression spring, the first horizontal slot, the second horizontal slot, the moving units and the bearing units are equal in number and are divided into a plurality of groups, in the same group, one end of each moving substrate is inserted into the first horizontal slot, and the other end of each moving substrate is inserted into the second horizontal slot; the bottom of the first horizontal slot is provided with an air outlet and an annular sealing ring surrounding the air outlet, and the air outlets at all the first horizontal slots are communicated with the air faucet.

Furthermore, the second side plate is provided with a plurality of limiting slots, the number of the limiting slots is equal to that of the second horizontal slots, the limiting slots correspond to the second horizontal slots one by one, each limiting slot comprises a first vertical slot and a second vertical slot communicated with the second horizontal slot, the first vertical slot extends to the top end of the second side plate, a limiting inserting plate is installed in each limiting slot, each limiting inserting plate is inserted into the second vertical slot, limiting convex blocks are arranged on two sides of the top end of each limiting inserting plate and can move up and down in the first vertical slot, a tension spring is connected between each limiting convex block and the bottom end of the first vertical slot, and each top end of the first horizontal slot is provided with an elastic pressing strip for pressing the upper surface of the bearing substrate; the spacing inserting plate and the movable base plate can be in a use state and a standby state, in the use state, the bottom end of the spacing inserting plate is abutted against the lower surface of the second horizontal slot, the end part of the movable base plate is abutted against the side surface of the spacing inserting plate, and the air outlet hole is communicated with the air injection hole; in the standby state, the movable base plate is abutted to the end part of the second horizontal slot, the bottom end of the limiting insertion plate is abutted to the upper surface of the movable base plate, and the rectangular sealing gasket is sealed in the air outlet.

Furthermore, the first side plate is also provided with a vertical detection groove, all the first horizontal slots are communicated with the bottom end of the detection groove, two sides of the detection groove are provided with horizontal limiting sliding grooves, a bearing frame capable of bearing the code scanning device is arranged between the two limiting sliding grooves, and two sides of the bearing frame are provided with limiting sliding blocks matched with the limiting sliding grooves; the upper surface of the bearing substrate is provided with an identification code, and in the use state, the identification code of the bearing substrate is positioned in the detection groove and can be read by the code scanning device; in the standby state, the identification code of the bearing substrate is not positioned in the detection groove, so that the code scanning device cannot read the identification code.

Furthermore, the bottom through hole and the bottom base plate are both cuboid and have the same shape and size.

Further, the number of the bearing units is 2-6.

Further, the top of the box body is provided with a step-shaped embedded groove, and an elastic embedded block inserted into the embedded groove is arranged in the top cover; the cover is positioned at the top of the box body and surrounds the top end of the box body.

Thereby move the top and realize the fine elasticity butt of precision instruments.

Further, there are two compression springs at each mobile unit; one end of the compression spring is connected with the movable base plate, and the other end of the compression spring is connected with the closed end of the first horizontal slot.

Further, still include the detecting element, the detecting element includes pump, the control unit, battery, touch-sensitive screen unit and sweep a yard device.

Furthermore, the control unit, the storage battery and the touch screen unit are integrated in the control box, the code scanning device is connected with the control box through a lead, and the air pump is connected with the control box through a lead.

Or alternatively, the air pump, the control unit, the storage battery, the touch screen unit and the code scanning device are integrated in a protective shell.

The top end of the limiting inserting plate is provided with an arc-shaped channel hole, and the upper surface of the movable base plate is provided with a rectangular groove; the tool unit comprises a hook unit and a translation unit, wherein the hook unit is used for being inserted into the arc-shaped channel hole and enabling the limiting insertion plate to move upwards, and the translation unit enables the end part to be inserted into the rectangular groove and enables the moving substrate to translate.

Therefore, the up-and-down movement of the limiting inserting plate and the translation of the bearing substrate are more conveniently realized.

Further, the side surface of the box body is provided with a first accommodating space and a second accommodating space, and the first accommodating space is provided with a first side cover for closing the first accommodating space; the second accommodating space is provided with a second side cover for closing the second accommodating space; the first accommodating space is used for accommodating the detection unit, and the second accommodating space is used for accommodating the tool unit.

So that the auxiliary tool unit and the sensing unit can be placed in the first and second receiving spaces at the case.

Of course, the tool unit and the detection unit may be placed separately without providing the first and second receiving spaces.

Furthermore, a lock catch structure is arranged between the box body and the cover part.

Furthermore, the bottom of the box body is provided with a plurality of supporting feet.

Further, the outer sides of the third side plate and the fourth side plate of the box body are provided with handle grooves for carrying the box body.

Furthermore, the placing through hole and the bearing substrate are both cuboid and equal in shape and size.

Furthermore, the upper surface of the bearing substrate is abutted to the limiting convex edge, and the lower surface of the bearing substrate is abutted to the bottom base plate.

Further, there is one said bladder at each carrier substrate.

Further, the shapes of the air bags at all the bearing substrates are different from each other in pairs when the air bags are inflated.

The shape of the air pockets at different carrier substrates can also be the same, as required, in particular designed according to the shape of the precision instrument.

Further, an inner cavity is arranged in the first side plate, the air faucet is located on the outer side wall of the first side plate, all the air outlets are communicated with the inner cavity through connecting channels, and the air faucet is communicated with the inner cavity.

Further, the elastic pressing strip is cylindrical.

Further, the bottom base plate and the bottom base plate are integrally formed.

Further, the upper surface of the bottom substrate is provided with a rectangular frame-shaped elastic sealing gasket.

Furthermore, the position-limiting convex edge is provided with a notch, and the identification code of the bearing substrate is positioned at the notch.

Furthermore, the open end of the first horizontal slot and the open end of the second horizontal slot are provided with arc chamfer angles.

Therefore, the translation of the movable substrate between the first horizontal slot and the second horizontal slot is more stable and smooth.

Has the beneficial effects that: the application discloses safety box is owing to can change the different bearing unit of dress to can select the different gasbag that is used for bearing, thereby can bear the precision instrument of different grade type, thereby a safety box can load the precision instrument of multiple different grade type, the quantity of the safety box that reduces, and satisfy the demand of loading precision instrument. In addition, when a plurality of carrier units are used, the carrier unit to be used may be selected. And before inflation it can be judged whether the installation is correct.

Drawings

FIG. 1 is a schematic view of a safety box;

FIG. 2 is a schematic view of the safety box assembly shown in a first disassembled view;

FIG. 3 is a second perspective view of the safety box assembly shown disassembled;

FIG. 4 is a third schematic view of the safety box assembly shown disassembled;

FIG. 5 is a fourth schematic view of the safety box assembly shown disassembled;

FIG. 6 is a schematic view of a few of the carrier substrates selected for use;

FIG. 7 is a schematic view of another angle for selecting several of the carrier substrates;

FIG. 8 is a schematic view of another carrier substrate selected for use.

Detailed Description

Reference numerals: 1, a box body; 1.1 handle grooves; 1.2 supporting the feet; 1.3 accommodating grooves; 1.4 bottom through holes; 1.5 embedding groove; 1.6 detecting the groove; 1.7 limiting sliding chutes; 1.8 carrying frame; 1.9 limiting slot; 1.10 a first horizontal slot; 1.11 ring seal; 1.12 air outlet holes; 1.3 elastic pressing strips; 1.14 chamfering the arc surface; 1.15 air tap; 2 a cover part; 2.1, a buckle structure; 2.2 embedding the block; 3.1 limiting inserting plate; 3.2 limiting the lug; 3.3 arc channel holes; 3.4 tension springs; 4, a bottom cover; 4.1 a base substrate; 4.2 bottom backing plate; 4.3 elastic sealing gasket; 4.4 fixing the bolt; 5 a mobile unit; 5.1 moving the substrate; 5.2 limiting convex edges; 5.3 compressing the spring; 5.4 gaps; 5.5 rectangular grooves; 6 a bearing unit; 6.1 carrying the substrate; 6.2 air bags; 6.3 identifying code; 6.4 rectangular sealing gasket; 6.5 gas injection holes; 8.1 a first side cover; 8.2 second side cover.

As shown in the figure: the utility model provides a precision instruments transportation is with high-efficient protection safety box, includes box 1 and cover 2, bearing unit 6 has in the box 1, bearing unit 6 includes load-bearing substrate 6.1 and installs in the gasbag 6.2 of load-bearing substrate 6.1 department, the lateral wall of box 1 still has be used for right the gas cock 1.15 of 6.2 gas filled of gasbag. The bearing substrate 6.1 is provided with an air bag groove, and the air bag 6.2 is arranged at the air bag groove; the lower surface of the bearing substrate 6.1 is provided with a rectangular sealing gasket 6.4 and a gas injection hole 6.5 communicated with the air bag, and the rectangular sealing gasket is provided with a sealing gasket opening surrounding the gas injection hole 6.5. The carrying unit 6 is provided with a plurality of carrying units; the box body 1 comprises a first side plate, a second side plate, a third side plate, a fourth side plate, a bottom plate and a bottom cover 4, wherein the first side plate and the second side plate are opposite, the third side plate and the fourth side plate are opposite, the inner side of the first side plate is provided with a plurality of first horizontal slots 1.10, and the inner side of the second side plate is provided with a plurality of second horizontal slots; the bottom plate is provided with a rectangular bottom through hole 1.4, the lower surface of the bottom plate is also provided with a rectangular accommodating groove 1.3 communicated with the bottom through hole 1.4, the bottom cover 4 comprises a bottom base plate 4.1 capable of being accommodated in the accommodating groove 1.3 and a bottom base plate 4.2 fixedly connected with the bottom base plate 4.1 and capable of being inserted into the bottom through hole 1.4, the upper surface of the bottom base plate 4.2, the upper surfaces of all the first horizontal slots 1.10 and the upper surfaces of all the second horizontal slots are flush, and the bottom base plate 4.1 and the bottom plate are fixed through fixing bolts 4.4; the box body 2 is also provided with a plurality of moving units 5, each moving unit 5 comprises a rectangular frame-shaped moving substrate 5.1, each moving substrate 5.1 is provided with a placing through hole, each placing through hole is used for placing the corresponding bearing substrate 6.1, the top end of each placing through hole is provided with a rectangular frame-shaped limiting convex edge 5.2, the end part of each moving substrate 5.1 is provided with a compression spring 5.3, the number of the first horizontal slots 1.10, the number of the second horizontal slots, the number of the moving units 5 and the number of the bearing units 6 are equal, one end of each moving substrate 5.1 is inserted into the corresponding first horizontal slot 1.10, and the other end of each moving substrate is inserted into the corresponding second horizontal slot; the bottom of the first horizontal slot 1.10 is provided with an air outlet 1.12 and an annular sealing ring 1.11 surrounding the air outlet, and the air outlets 1.13 at the positions of all the first horizontal slots 1.10 are communicated with the air faucet 1.15.

The second side plate is provided with a plurality of limiting slots 1.9, the number of the limiting slots 1.9 is equal to that of the second horizontal slots, the limiting slots are in one-to-one correspondence, each limiting slot 1.9 comprises a first vertical slot and a second vertical slot communicated with the second horizontal slots, each first vertical slot extends to the top end of the corresponding second side plate, a limiting inserting plate 3.1 is installed in each limiting slot, each limiting inserting plate 3.1 is inserted into the corresponding second vertical slot, limiting lugs 3.2 are arranged on two sides of the top end of each limiting inserting plate 3.1, each limiting lug 3.2 can move up and down in the corresponding first vertical slot, a tension spring 3.4 is connected between each limiting lug 3.2 and the bottom end of the corresponding first vertical slot, and an elastic pressing strip 1.13 for pressing the upper surface of the bearing substrate 6.1 is arranged on the top end of each first horizontal slot 1.10 (the rectangular sealing gasket is more tightly abutted to the annular sealing ring through the elastic pressing strip); the space between the limiting inserting plate 3.1 and the movable base plate 5.1 can be in a use state and a standby state, in the use state, the bottom end of the limiting inserting plate 3.1 is abutted against the lower surface of the second horizontal slot, the end part of the movable base plate 5.1 is abutted against the side surface of the limiting inserting plate 3.1, and the air outlet 1.12 is communicated with the air injection hole 6.5; in the standby state, the movable base plate 5.1 is abutted to the end part of the second horizontal slot, the bottom end of the limiting inserting plate 3.1 is abutted to the upper surface of the movable base plate 5.1, and the rectangular sealing gasket 6.4 is sealed with the air outlet hole 1.12. The first side plate is also provided with a vertical detection groove 1.6, all first horizontal slots 1.10 are communicated with the bottom end of the detection groove 1.6, two sides of the detection groove 1.6 are provided with horizontal limiting sliding grooves 1.7, a bearing frame 1.8 capable of bearing a code scanning device is arranged between the two limiting sliding grooves 1.7, and two sides of the bearing frame 1.8 are provided with limiting sliding blocks matched with the limiting sliding grooves 1.7; the upper surface of the bearing substrate 6.1 is provided with an identification code 6.3, and in the use state, the identification code 6.3 of the bearing substrate 6.1 is positioned in the detection groove 1.6 and can be read by the code scanning device; in the standby state, the identification code 6.3 of the carrier substrate 6.1 is not located in the detection slot, so that the code scanning device cannot read the identification code.

The number of the bearing units 6 is 2-6; the top of the box body 1 is provided with a step-shaped embedded groove 1.5, and an elastic embedded block 2.2 inserted into the embedded groove 1.5 is arranged in the top cover 2; the cover part 2 is positioned at the top of the box body 2, and the cover part 3 surrounds the top end of the box body 2; two compression springs 5.3 are provided at each mobile unit 5; one end of the compression spring 5.3 is connected with the movable base plate 5.1, and the other end is connected with the closed end of the first horizontal slot 1.10. Still include the detecting element, the detecting element include pump, the control unit, battery, touch-sensitive screen unit and sweep a yard device.

In addition, the device also comprises a tool unit, the top end of the limiting inserting plate 3.1 is provided with an arc-shaped channel hole 3.3, and the upper surface of the movable base plate 5.1 is provided with a rectangular groove 5.5; the tool unit comprises a hook unit and a translation unit, wherein the hook unit is used for being inserted into the arc-shaped channel hole 3.3 and enabling the limiting insertion plate 3.1 to move upwards, and the translation unit is used for enabling the end part to be inserted into the rectangular groove 5.5 and enabling the moving base plate 5.1 to translate. The side surface of the box body 1 is provided with a first accommodating space and a second accommodating space, and the first accommodating space is provided with a first side cover 8.1 for closing the first accommodating space; the second accommodating space is provided with a second side cover 8.2 for closing the second accommodating space; the first accommodating space is used for accommodating the detection unit, and the second accommodating space is used for accommodating the tool unit. A lock catch structure 2.1 is arranged between the box body 1 and the cover part 2; the bottom of the box body 1 is provided with a plurality of supporting feet 1.2; the outer sides of the third side plate and the fourth side plate of the box body 1 are provided with handle grooves 1.1 for carrying the box body.

As shown in the figure, the safety box of this application through the bottom of dismantling the bottom, can change the different load-bearing unit to according to the precision instruments of different grade type, thereby can select the load-bearing unit that needs the use. When different bearing units are selected, after inflation, the airbag is inflated to expand to be just used for supporting the precision instrument, and good fitting is realized, so that the precision instrument is well protected.

In addition, for example, in the present embodiment, there are 5 load bearing units. The selection of the 5 bearing units can select the bearing unit with higher corresponding carrying frequency. And the 5 load-bearing unit airbags can correspond to different kinds of precision instruments. For example, the 5 carrying units are numbers 1-5 respectively. Since the plasticity of the balloon is very strong, theoretically, it can be manufactured in various shapes corresponding to various types of precision instruments. For example, no. 1-No. 5 bearing units can bear the accurate instrument when the air bags of No. 1, no. 3 and No. 5 bearing units are selected; when the air bags of the No. 2 and No. 4 bearing units are selected, a second precision instrument can be borne (for example, the No. 2 air bag supports one side of the second precision instrument in an inflated mode, and the No. 4 air bag supports the other side of the second precision instrument in an inflated mode); of course, other matching modes can be selected, and the selection can be made according to the type of the precision instrument and the shape of the air bag.

During specific selection, as shown in the figure, if the bearing unit is not needed to be used, the bearing unit is selected to be in a standby state, the limiting inserting plate moves upwards, so that the moving unit and the bearing unit move together towards the direction of the second horizontal slot under the action of the compression spring, the gas injection hole of the bearing substrate is shielded, and the airbag at the position cannot be inflated; when the bearing unit at a certain position needs to be used, the movable unit and the bearing unit move together in the direction of the first horizontal slot by utilizing the rectangular groove, and the limiting insertion plate moves downwards under the action of the tension spring, so that the gas injection hole is communicated with the gas outlet hole. And no matter in stand-by state or use state, the elastic pressing strip enables the rectangular sealing gasket and the annular sealing ring to realize good sealing. In addition, the identification code on the bearing substrate in the using state is exposed and detected at the groove. The specific using steps are as follows, and an operator selects each bearing unit to be in a using state or a standby state according to the type of the precision instrument required to be loaded. The user then mounts the identification code reading device at the carrier and slides it from one end of the test slot to the other. The controller stores the type and sequence of the identification codes scanned by the code scanning device corresponding to each precise instrument and the inflating quantity of the inflator pump, so that the control unit compares the type of the selected precise instrument with the identification code information read by the identification code reading device, and when the type of the selected precise instrument corresponds to the identification code information, the identification code information is displayed correctly; when there is no correspondence, an error is displayed. Thereby alerting the operator to review. When the display is correct, the precision instrument is placed in the box body, the cover part is covered, and then the air pump is used for inflating, so that the precision instrument can be well shaped and protected after a set amount of air is filled. The precise instrument is placed first and then the air is inflated, so that the air bag can be tightly pressed with the precise instrument in the unfolding process, and a part of the air bag can extend into the hollow space inside the precise instrument, so that the air bag can be attached more tightly. Avoid aerifing earlier the back and place precision instrument, what lead to because the gasbag is full, place precision instrument and need great friction, place the difficulty. When the precision instrument is taken out, air can be firstly pumped out, and then the precision instrument can be taken out.

While the invention has been shown and described with respect to the preferred embodiments, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the scope of the invention as defined in the following claims.

Claims (10)

1. The utility model provides a precision instruments transportation is with high-efficient protection safety box, its characterized in that, includes box and cover, the bearing unit has in the box, the bearing unit includes the bearing substrate and installs the gasbag in bearing substrate department, the lateral wall of box still has and is used for right the gas cock that the gasbag was aerifyd.

2. The efficient protective safety box for precision instrument transportation of claim 1, wherein the bearing substrate is provided with an air bag groove, and the air bag is mounted at the air bag groove; the lower surface of the bearing substrate is provided with a rectangular sealing gasket and a gas injection hole communicated with the air bag, and the rectangular sealing gasket is provided with a sealing gasket opening surrounding the gas injection hole.

3. The efficient protective safety box for precision instrument transportation according to claim 2, wherein the carrying unit is provided in plurality; the box body comprises a first side plate, a second side plate, a third side plate, a fourth side plate, a bottom plate and a bottom cover, wherein the first side plate and the second side plate are opposite, the third side plate and the fourth side plate are opposite, the inner side of the first side plate is provided with a plurality of first horizontal slots, and the inner side of the second side plate is provided with a plurality of second horizontal slots; the bottom plate is provided with a rectangular bottom through hole, the lower surface of the bottom plate is also provided with a rectangular accommodating groove communicated with the bottom through hole, the bottom cover comprises a bottom base plate capable of being accommodated in the accommodating groove and a bottom base plate fixedly connected with the bottom base plate and capable of being inserted into the bottom through hole, the upper surfaces of the bottom base plate, the upper surfaces of all the first horizontal slots and the upper surfaces of all the second horizontal slots are flush, and the bottom base plate and the bottom plate are fixed through fixing bolts; the box body is also provided with a plurality of moving units, each moving unit comprises a rectangular frame-shaped moving base plate, each moving base plate is provided with a placing through hole, each placing through hole is used for placing the bearing base plate, the top end of each placing through hole is provided with a rectangular frame-shaped limiting convex edge, the upper surface of each bearing base plate is abutted to the corresponding limiting convex edge, the lower surface of each bearing base plate is abutted to the corresponding bottom base plate, the end part of each moving base plate is provided with a compression spring, the first horizontal slot, the second horizontal slot, the moving unit and the bearing unit are equal in number, one end of each moving base plate is inserted into the corresponding first horizontal slot, and the other end of each moving base plate is inserted into the corresponding second horizontal slot; the bottom of the first horizontal slot is provided with an air outlet and an annular sealing ring surrounding the air outlet, and the air outlets at all the first horizontal slots are communicated with the air faucet.

4. The efficient protection safety box for the transportation of precision instruments according to claim 3, wherein a plurality of limiting slots are arranged at the second side plate, the number of the limiting slots is equal to the number of the second horizontal slots, the limiting slots correspond to one another, the limiting slots comprise a first vertical slot and a second vertical slot communicated with the second horizontal slots, the first vertical slot extends to the top end of the second side plate, a limiting inserting plate is installed in each limiting slot, the limiting inserting plate is inserted into the second vertical slot, limiting convex blocks are arranged on two sides of the top end of the limiting inserting plate, the limiting convex blocks can move up and down in the first vertical slot, a tension spring is connected between each limiting convex block and the bottom end of the first vertical slot, and an elastic pressing strip used for pressing the upper surface of the bearing substrate is arranged at the top end of the first horizontal slot; the spacing inserting plate and the movable base plate can be in a use state and a standby state, in the use state, the bottom end of the spacing inserting plate is abutted against the lower surface of the second horizontal slot, the end part of the movable base plate is abutted against the side surface of the spacing inserting plate, and the air outlet hole is communicated with the air injection hole; in the standby state, the movable base plate is abutted to the end part of the second horizontal slot, the bottom end of the limiting insertion plate is abutted to the upper surface of the movable base plate, and the rectangular sealing gasket is sealed in the air outlet.

5. The efficient protection safety box for the transportation of precise instruments according to claim 4, wherein the first side plate is further provided with vertical detection grooves, all the first horizontal slots are communicated with the bottom ends of the detection grooves, horizontal limiting sliding grooves are formed in two sides of each detection groove, a bearing frame capable of bearing a code scanning device is installed between the two limiting sliding grooves, and limiting sliding blocks matched with the limiting sliding grooves are arranged in two sides of the bearing frame; the upper surface of the bearing substrate is provided with an identification code, and in the use state, the identification code of the bearing substrate is positioned in the detection groove and can be read by the code scanning device; in the standby state, the identification code of the bearing substrate is not positioned in the detection groove, so that the code scanning device cannot read the identification code.

6. The efficient protective safety box for precision instrument transportation of claim 3, wherein the number of the bearing units is 2-6; the top of the box body is provided with a step-shaped embedded groove, and an elastic embedded block inserted into the embedded groove is arranged in the top cover; the cover part is positioned at the top of the box body and surrounds the top end of the box body; two compression springs are arranged at each mobile unit; one end of the compression spring is connected with the movable base plate, and the other end of the compression spring is connected with the closed end of the first horizontal slot.

7. The efficient protective safety box for precision instrument transportation according to claim 5, further comprising a detection unit, wherein the detection unit comprises an inflator pump, a control unit, a storage battery, a touch screen unit and the code scanning device.

8. The efficient protective safety box for precision instrument transportation according to claim 5, further comprising a tool unit, wherein the top end of the limiting insertion plate is provided with an arc-shaped channel hole, and the upper surface of the movable base plate is provided with a rectangular groove; the tool unit comprises a hook unit and a translation unit, wherein the hook unit is used for being inserted into the arc-shaped channel hole and enabling the limiting insertion plate to move upwards, and the translation unit enables the end part to be inserted into the rectangular groove and enables the moving substrate to translate.

9. The efficient protective safety box for the transportation of precise instruments according to claim 8, wherein the side surface of the box body is provided with a first accommodating space and a second accommodating space, and the first accommodating space is provided with a first side cover for closing the first accommodating space; the second accommodating space is provided with a second side cover for closing the second accommodating space; the first accommodating space is used for accommodating the detection unit, and the second accommodating space is used for accommodating the tool unit.

10. The efficient protective safety box for the transportation of the precision instruments as claimed in claim 1, wherein a locking structure is arranged between the box body and the cover part; the bottom of the box body is provided with a plurality of supporting legs; the outer sides of the third side plate and the fourth side plate of the box body are respectively provided with a handle groove for carrying the box body.

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