CN110758886A

CN110758886A - Electromechanical device transport case

Info

Publication number: CN110758886A
Application number: CN201911093522.XA
Authority: CN
Inventors: 彭加山; 彭晓芳
Original assignee: Suzhou Laijin Mechanical And Electrical Automation Co Ltd
Current assignee: Suzhou Laijin Mechanical And Electrical Automation Co Ltd
Priority date: 2019-11-11
Filing date: 2019-11-11
Publication date: 2020-02-07

Abstract

The invention relates to the technical field of electromechanical equipment, in particular to an electromechanical equipment transport case which comprises a case body and a case door, wherein a mounting seat is arranged on the top wall of the case body; the electromechanical device transport case is characterized in that a lower supporting plate and an upper pressing plate are arranged in the case body, fastening components used for fastening electromechanical devices are arranged on one side faces, facing the case door, of the lower supporting plate and the one side faces, facing the case door, of the upper pressing plate, a lower side plate and an upper side plate are fixed on the lower supporting plate and the upper pressing plate respectively, and the electromechanical device transport case further comprises a damping mechanism. This electromechanical device transport case passes through top board and lower backup plate and grasps electromechanical device, through rotating the threaded rod, makes the rubber briquetting support electromechanical device, cooperates curb plate and last curb plate down simultaneously, can be fixed electromechanical device, utilizes the shock attenuation of first spring and second spring to effectively protect electromechanical device, avoids appearing the condition of electromechanical device and the inner wall collision of box.

Description

Electromechanical device transport case

Technical Field

The invention relates to the technical field of electromechanical equipment, in particular to an electromechanical equipment transport case.

Background

Electromechanical devices are typically shipped in shipping containers. However, the transport case in the prior art cannot well protect the electromechanical device, so that the electromechanical device is easily vibrated in the transport process, and even collides with the inner wall of the transport case to cause damage.

Disclosure of Invention

The invention aims to provide an electromechanical equipment transport case to solve the problems in the background technology.

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

an electromechanical equipment transport case comprises a case body and a case door, wherein a handle is arranged on the case door, a supporting leg is arranged at the bottom of the case body, a fixing plate is arranged at the bottom of the supporting leg, and a through hole is formed in the fixing plate; the top wall of the box body is provided with a mounting seat, the box door is hinged on the mounting seat, and the box body and the box door are provided with lock catch components; the box door can rotate through the hinged fit of the box door and the mounting seat, so that electromechanical equipment can be conveniently taken and placed, and the box door can be locked through the lock catch assembly after being rotationally closed;

a lower supporting plate and an upper pressing plate are arranged in the box body, fastening components for fastening electromechanical equipment are arranged on one side faces, facing the box door, of the lower supporting plate and the one side faces, facing the box door, of the upper pressing plate, a lower side plate and an upper side plate are fixed on the lower supporting plate and the upper pressing plate respectively, and the electromechanical equipment transport box further comprises a damping mechanism; during the use, place electromechanical device under on the fagging, push down electromechanical device through the top board to it is fixed with electromechanical device through fastening components, rethread damper's cooperation can protect electromechanical device, alleviates the vibrations in the transportation, avoids appearing electromechanical device and the condition of the inner wall collision of box.

As a further scheme of the invention: the lock catch assembly comprises a wedge-shaped clamping block, a wedge-shaped locking block and a locking seat;

a support rod is fixed at the bottom of the box door, a connecting rod is connected between the support rod and the wedge-shaped locking block, a locking seat is fixed on the bottom wall of the box body, and a locking groove is formed in the locking seat;

the wedge-shaped fixture block is arranged in the locking groove, a vertical rod is connected to the wedge-shaped fixture block, the vertical rod penetrates through the bottom wall of the locking seat and is connected with the bottom wall of the locking seat in a sliding mode, a second stop block and a second pull ring are arranged on the vertical rod, a fifth spring is arranged between the wedge-shaped fixture block and the bottom wall of the locking seat, and the fifth spring is sleeved on the vertical rod; through the sliding fit of the vertical rod and the bottom wall of the locking seat, the fifth spring can drive the wedge-shaped clamping block to move, when the box door is rotated and closed, the wedge-shaped locking block is driven to extend into the locking groove, the wedge-shaped locking block is in contact with the wedge-shaped clamping block and extrudes the wedge-shaped clamping block, so that the wedge-shaped clamping block moves downwards, and after the wedge-shaped locking block moves in place, the fifth spring drives the wedge-shaped clamping block to move upwards, and the wedge-shaped locking block is blocked by the wedge-shaped clamping block; when the box door needs to be opened, the second pull ring is pulled downwards to drive the wedge-shaped clamping block to move downwards to be separated from the wedge-shaped locking block, and then the box door can be opened.

As a still further scheme of the invention: the fastening assembly comprises a rotating rod, a threaded seat and a threaded rod;

the lower supporting plate and the upper pressing plate are both provided with a hinge seat, the rotating rod is hinged on the hinge seat, and a locking bolt is arranged on a hinge shaft of the hinge seat and the rotating rod;

the threaded seat is fixed on the rotating rod, a threaded rod is installed on the threaded seat in a threaded mode, and a rubber pressing block is arranged at the end of the threaded rod; the rotating rod can rotate through the hinged fit of the rotating rod and the hinged seat so as to pick and place the electromechanical equipment, and after the electromechanical equipment is arranged between the lower supporting plate and the upper pressing plate, the rotating rod is rotated to the left side of the electromechanical equipment and is fixed through a locking bolt on the hinged shaft; and then rotating the threaded rod to enable the rubber pressing block to abut against the electromechanical equipment, and simultaneously matching the lower side plate and the upper side plate to fix the electromechanical equipment.

As a still further scheme of the invention: the shock absorption mechanism comprises a guide assembly and a lifting assembly.

As a still further scheme of the invention: the guide assembly comprises a first sliding rod, a first spring, a second sliding rod and a second spring;

the first sliding rod is fixed at the bottom of the lower supporting plate, a first sliding sleeve in sliding fit with the first sliding rod is embedded in the bottom wall of the box body, and the first spring is arranged between the lower supporting plate and the bottom wall of the box body;

the second sliding rod is fixed at the top of the upper pressing plate, a second sliding sleeve in sliding fit with the second sliding rod is embedded in the top wall of the box body, and a second spring is arranged between the upper pressing plate and the top wall of the box body; through the sliding fit of the first sliding sleeve and the first sliding rod, the sliding fit of the second sliding rod and the second sliding sleeve, and the cooperation of the first spring and the second spring, the electromechanical equipment can be clamped by the upper pressure plate and the lower supporting plate, and the damping effect is achieved.

As a still further scheme of the invention: the lifting component comprises a pull rod, a first stop block and a supporting block;

the pull rod is fixed at the top of the upper pressure plate, a third sliding sleeve which is in sliding fit with the pull rod is embedded in the top wall of the box body, and the pull rod is provided with a first pull ring and a first stop block;

a sliding seat is arranged on the top wall of the box body, and a supporting block is arranged on the sliding seat in a sliding manner; the pull rod is pulled upwards through the first pull ring to drive the upper pressure plate to move upwards, the first stop block moves upwards along with the pull rod, the supporting block is moved to the lower side of the first stop block, and after the first pull ring is released, the supporting block can be used for supporting the first stop block, so that the position of the upper pressure plate is maintained, and therefore the electromechanical equipment can be taken and placed conveniently.

As a still further scheme of the invention: a lower guide block and an upper guide block are respectively fixed on the lower side plate and the upper side plate, a lower support plate and an upper support plate are fixed on the inner wall of the box body, a first guide rod is connected between the lower support plate and the upper support plate, the first guide rod penetrates through the lower guide block and the upper guide block and is in sliding connection with the lower guide block and the upper guide block, a third spring is arranged between the lower guide block and the lower support plate, and a fourth spring is arranged between the upper guide block and the upper support plate; through the sliding fit of the upper guide block, the lower guide block and the first guide rod, the stability of the electromechanical device during vibration is further improved, and the damping effect is also improved by the aid of the third spring and the fourth spring.

As a still further scheme of the invention: the sliding seat is provided with a groove, a second guide rod is arranged in the groove, the second guide rod is provided with a moving seat in a sliding manner, and the supporting block is arranged on the moving seat; through the sliding fit of the moving seat and the second guide rod, the moving seat can move, the supporting block can be moved, when the electromechanical equipment is required to be pressed down by the upper pressing plate, the supporting block is moved to the periphery, the downward movement of the first stop block is not influenced, and when the first stop block is required to be supported, the supporting block is moved to the lower side of the first stop block.

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

1. the electromechanical equipment transport case can enable an upper pressure plate and a lower support plate to clamp electromechanical equipment through sliding fit of a first sliding sleeve and a first sliding sleeve, sliding fit of a second sliding sleeve and a second sliding sleeve, and then cooperation of a first spring and a second spring, enables a rotating rod to rotate through hinged fit of the rotating rod and a hinged seat so as to take and place the electromechanical equipment, and enables the rotating rod to rotate to the left side of the electromechanical equipment after the electromechanical equipment is placed between the lower support plate and the upper pressure plate and fixed through a locking bolt on a hinged shaft; and then the rubber pressing block is abutted against the electromechanical equipment by rotating the threaded rod, and the electromechanical equipment can be fixed by matching with the lower side plate and the upper side plate, so that the electromechanical equipment is effectively protected by damping of the first spring and the second spring, and the condition that the electromechanical equipment collides with the inner wall of the box body is avoided.

2. The electromechanical equipment transport case has the advantages that the case door can rotate through the hinged fit of the case door and the mounting seat, the fifth spring can drive the wedge-shaped fixture block to move through the sliding fit of the vertical rod and the bottom wall of the locking seat, when the case door is rotationally closed, the wedge-shaped locking block is driven to extend into the locking groove, the wedge-shaped locking block is contacted with the wedge-shaped fixture block and extrudes the wedge-shaped fixture block, the wedge-shaped fixture block moves downwards, after the wedge-shaped locking block moves in place, the fifth spring drives the wedge-shaped fixture block to move upwards, and the wedge-shaped fixture block is blocked, so that the purpose; when the box door needs to be opened, the second pull ring is pulled downwards to drive the wedge-shaped fixture block to move downwards to be separated from the wedge-shaped locking block, the box door can be opened, and the box door is convenient to open and close.

3. The electromechanical equipment transport case pulls the pull rod upwards through the first pull ring to drive the upper pressing plate to move upwards, the first stop block moves upwards along with the pull rod, the supporting block is moved to the lower side of the first stop block, and after the first pull ring is released, the supporting block can be used for supporting the first stop block, so that the position of the upper pressing plate is maintained, and therefore electromechanical equipment can be conveniently taken and placed.

4. This electromechanical device transport case passes through the sliding fit of last guide block, lower guide block and first guide arm, and steadiness when further having promoted electromechanical device vibrations utilizes third spring and fourth spring also to improve the shock attenuation effect.

5. This electromechanical device transport case is through the sliding fit who removes seat and second guide arm for remove the seat and can remove, and then can remove the supporting shoe, when needing top board pushing down electromechanical device, remove the supporting shoe to the periphery, so that it does not influence moving down of first dog, when needing to prop first dog, it can to remove the downside of first dog with the supporting shoe.

Drawings

Fig. 1 is a schematic structural diagram of embodiment 1 of the present invention.

FIG. 2 is a left side view structural diagram of the case, the support legs, and the fixing plate in embodiment 1 of the present invention.

Fig. 3 is an enlarged schematic structural view of a part a in embodiment 1 of the present invention.

Fig. 4 is an enlarged schematic structural view of a part B in embodiment 1 of the present invention.

Fig. 5 is a schematic structural view of a lower support plate and a lower side plate in embodiment 1 of the present invention.

Fig. 6 is a schematic structural diagram of the support block, the movable base, and the slide base in embodiment 2 of the present invention.

In the figure: 1-box door, 2-electromechanical equipment, 3-handle, 4-lower support plate, 5-first sliding sleeve, 6-first sliding rod, 7-first spring, 8-lower support plate, 9-third spring, 10-lower guide block, 11-lower side plate, 12-first guide rod, 13-upper side plate, 14-upper guide block, 15-fourth spring, 16-upper support plate, 17-box body, 18-second sliding rod, 19-sliding seat, 20-support block, 21-first stop block, 22-first pull ring, 23-pull rod, 24-third sliding sleeve, 25-second sliding sleeve, 26-upper press plate, 27-second spring, 28-supporting leg, 29-block fixing plate, 30-through hole, 31-supporting rod, 32-wedge-shaped block fixing plate, 33-a second stop block, 34-a second pull ring, 35-a vertical rod, 36-a fifth spring, 37-a locking seat, 38-a wedge-shaped locking block, 39-a connecting rod, 40-a hinging seat, 41-a rubber pressing block, 42-a threaded seat, 43-a threaded rod, 44-a rotating rod, 45-a groove, 46-a second guide rod, 47-a moving seat, 48-a locking groove and 49-a mounting seat.

Detailed Description

The technical solution of the present patent will be described in further detail with reference to the following embodiments.

Example 1

Referring to fig. 1-5, in the embodiment of the present invention, an electromechanical device transportation box includes a box body 17 and a box door 1, wherein the box door 1 is provided with a handle 3, the bottom of the box body 17 is provided with a supporting leg 28, the bottom of the supporting leg 28 is provided with a fixing plate 29, and the fixing plate 29 is provided with a through hole 30; the top wall of the box body 17 is provided with a mounting seat 49, the box door 1 is hinged on the mounting seat 49, and the box body 17 and the box door 1 are provided with lock catch components; the box door 1 can rotate through the hinged fit of the box door 1 and the mounting seat 49, so that the electromechanical device 2 can be conveniently taken and placed, and the box door 1 can be locked through the lock catch component after the box door 1 is rotated and closed;

a lower supporting plate 4 and an upper pressing plate 26 are arranged in the box body 17, a fastening assembly for fastening the electromechanical device 2 is arranged on one side surface of the lower supporting plate 4 and the upper pressing plate 26 facing the box door 1, a lower side plate 11 and an upper side plate 13 are respectively fixed on the lower supporting plate 4 and the upper pressing plate 26, and the electromechanical device transport box further comprises a damping mechanism; during the use, place electromechanical device 2 on backup pad 4 down, push down electromechanical device 2 through top board 26 to it is fixed with electromechanical device 2 through fastening components, rethread damper's cooperation can protect electromechanical device 2, alleviates the vibrations in the transportation, avoids appearing electromechanical device 2 and the condition of the inner wall collision of box 17.

Further, the locking assembly comprises a wedge-shaped fixture block 32, a wedge-shaped locking block 38 and a locking seat 37;

a supporting rod 31 is fixed at the bottom of the box door 1, a connecting rod 39 is connected between the supporting rod 31 and a wedge-shaped locking block 38, a locking seat 37 is fixed on the bottom wall of the box body 17, and a locking groove 48 is formed in the locking seat 37;

the wedge-shaped fixture block 32 is arranged in the locking groove 48, the wedge-shaped fixture block 32 is connected with a vertical rod 35, the vertical rod 35 penetrates through the bottom wall of the locking seat 37 and is in sliding connection with the bottom wall, the vertical rod 35 is provided with a second fixture block 33 and a second pull ring 34, a fifth spring 36 is arranged between the wedge-shaped fixture block 32 and the bottom wall of the locking seat 37, and the fifth spring 36 is sleeved on the vertical rod 35; through the sliding fit of the vertical rod 35 and the bottom wall of the locking seat 37, the fifth spring 36 can drive the wedge-shaped fixture block 32 to move, when the box door 1 is rotated and closed, the wedge-shaped locking block 38 is driven to extend into the locking groove 48, the wedge-shaped locking block 38 is in contact with the wedge-shaped fixture block 32 and extrudes the wedge-shaped fixture block 32, so that the wedge-shaped fixture block 32 moves downwards, and after the wedge-shaped locking block 38 moves to the right position, the fifth spring 36 drives the wedge-shaped fixture block 32 to move upwards, and the wedge-shaped fixture block 32 is used for blocking the wedge; when the door 1 needs to be opened, the second pull ring 34 is pulled downwards to drive the wedge-shaped fixture block 32 to move downwards to be separated from the wedge-shaped locking block 38, so that the door 1 can be opened.

Further, the fastening assembly comprises a rotating rod 44, a threaded seat 42 and a threaded rod 43;

the lower supporting plate 4 and the upper pressing plate 26 are both provided with a hinge seat 40, the rotating rod 44 is hinged on the hinge seat 40, and a hinge shaft of the hinge seat 40 and the rotating rod 44 is provided with a locking bolt (not shown in the figure);

the threaded seat 42 is fixed on the rotating rod 44, a threaded rod 43 is installed on the threaded seat 42 in a threaded mode, and a rubber pressing block 41 is arranged at the end portion of the threaded rod 43; the rotating rod 44 can rotate through the hinged fit of the rotating rod 44 and the hinge seat 40 so as to pick and place the electromechanical device 2, and after the electromechanical device 2 is placed between the lower supporting plate 4 and the upper pressing plate 26, the rotating rod 44 is rotated to the left side of the electromechanical device 2 and is fixed through a locking bolt on a hinge shaft; and then the threaded rod 43 is rotated to enable the rubber pressing block 41 to prop against the electromechanical device 2, and meanwhile, the electromechanical device 2 can be fixed by matching with the lower side plate 11 and the upper side plate 13.

Further, the shock-absorbing mechanism comprises a guide assembly and a lifting assembly.

In particular, the guide assembly comprises a first slide bar 6, a first spring 7, a second slide bar 18 and a second spring 27;

the first sliding rod 6 is fixed at the bottom of the lower supporting plate 4, a first sliding sleeve 5 in sliding fit with the first sliding rod 6 is embedded in the bottom wall of the box body 17, and a first spring 7 is arranged between the lower supporting plate 4 and the bottom wall of the box body 17;

the second sliding rod 18 is fixed on the top of the upper pressing plate 26, a second sliding sleeve 25 in sliding fit with the second sliding rod 18 is embedded on the top wall of the box body 17, and a second spring 27 is arranged between the upper pressing plate 26 and the top wall of the box body 17; the electromechanical device 2 can be clamped by the upper pressing plate 26 and the lower supporting plate 4 through the sliding fit of the first sliding sleeve 5 and the first sliding rod 6, the sliding fit of the second sliding rod 18 and the second sliding sleeve 25, and the cooperation of the first spring 7 and the second spring 27, and has a shock absorption function.

Specifically, the lifting assembly comprises a pull rod 23, a first stop block 21 and a supporting block 20;

the pull rod 23 is fixed on the top of the upper pressure plate 26, a third sliding sleeve 24 which is in sliding fit with the pull rod 23 is embedded on the top wall of the box body 17, and the pull rod 23 is provided with a first pull ring 22 and a first stop block 21;

a sliding seat 19 is arranged on the top wall of the box body 17, and a supporting block 20 is arranged on the sliding seat 19 in a sliding manner; the pull rod 23 is pulled upwards through the first pull ring 22 to drive the upper press plate 26 to move upwards, the first stop block 21 moves upwards along with the pull rod, the support block 20 is moved to the lower side of the first stop block 21, and after the first pull ring 22 is released, the support block 20 can be used for supporting the first stop block 21, so that the position of the upper press plate 26 is maintained, and the electromechanical device 2 is convenient to pick and place.

Further, a lower guide block 10 and an upper guide block 14 are respectively fixed on the lower side plate 11 and the upper side plate 13, a lower support plate 8 and an upper support plate 16 are fixed on the inner wall of the box body 17, a first guide rod 12 is connected between the lower support plate 8 and the upper support plate 16, the first guide rod 12 penetrates through the lower guide block 10 and the upper guide block 14 and is in sliding connection with the lower guide block 10 and the upper guide block 14, a third spring 9 is arranged between the lower guide block 10 and the lower support plate 8, and a fourth spring 15 is arranged between the upper guide block 14 and the upper support plate 16; through the sliding fit of the upper guide block 14, the lower guide block 10 and the first guide rod 12, the stability of the electromechanical device 2 during vibration is further improved, and the damping effect is also improved by the third spring 9 and the fourth spring 15.

The working principle of the embodiment of the invention is as follows: when the electromechanical device 2 is used, the fixing plate 29 is fixed on the transportation equipment by the aid of the mounting bolts penetrating through the through holes 30, the box door 1 can rotate by the aid of hinged fit of the box door 1 and the mounting seat 49, after the box door 1 is opened, the electromechanical device 2 is placed on the lower supporting plate 4, the electromechanical device 2 can be clamped by the aid of sliding fit of the first sliding sleeve 5 and the first sliding rod 6 and sliding fit of the second sliding rod 18 and the second sliding sleeve 25, the electromechanical device 2 can be taken and placed by the aid of the first spring 7 and the second spring 27, the rotating rod 44 can rotate by the aid of hinged fit of the rotating rod 44 and the hinged seat 40, the electromechanical device 2 can be taken and placed, and after the electromechanical device 2 is placed between the lower supporting plate 4 and the upper supporting plate 26, the rotating rod 44 rotates to the left side of the electromechanical device 2 and is fixed by the locking bolts on the hinged shafts; then, the rubber pressing block 41 is abutted against the electromechanical device 2 by rotating the threaded rod 43, and the electromechanical device 2 can be fixed by matching with the lower side plate 11 and the upper side plate 13, so that the electromechanical device 2 is effectively protected by using the shock absorption of the first spring 7 and the second spring 27, and the situation that the electromechanical device 2 collides with the inner wall of the box body 17 is avoided; through the sliding fit of the vertical rod 35 and the bottom wall of the locking seat 37, the fifth spring 36 can drive the wedge-shaped fixture block 32 to move, when the box door 1 is rotated and closed, the wedge-shaped locking block 38 is driven to extend into the locking groove 48, the wedge-shaped locking block 38 is in contact with the wedge-shaped fixture block 32 and extrudes the wedge-shaped fixture block 32, so that the wedge-shaped fixture block 32 moves downwards, and after the wedge-shaped locking block 38 moves to the right position, the fifth spring 36 drives the wedge-shaped fixture block 32 to move upwards, and the wedge-shaped fixture block 32 is used for blocking the wedge; when the door 1 needs to be opened, the second pull ring 34 is pulled downwards to drive the wedge-shaped fixture block 32 to move downwards to be separated from the wedge-shaped locking block 38, so that the door 1 can be opened; the pull rod 23 is pulled upwards through the first pull ring 22 to drive the upper pressing plate 26 to move upwards, the first stop block 21 moves upwards along with the pull rod, the supporting block 20 moves to the lower side of the first stop block 21, and after the first pull ring 22 is released, the supporting block 20 can support the first stop block 21, so that the position of the upper pressing plate 26 is maintained, and the electromechanical device 2 is convenient to pick and place; through the sliding fit of the upper guide block 14, the lower guide block 10 and the first guide rod 12, the stability of the electromechanical device 2 during vibration is further improved, and the damping effect is also improved by the third spring 9 and the fourth spring 15.

Example 2

Referring to fig. 6, in an embodiment of the present invention, unlike embodiment 1, a groove 45 is formed in the sliding seat 19, a second guide rod 46 is disposed in the groove 45, a moving seat 47 is slidably disposed on the second guide rod 46, and the supporting block 20 is disposed on the moving seat 47; through the sliding fit of the moving seat 47 and the second guide rod 46, the moving seat 47 can move, and further the supporting block 20 can be moved, when the electromechanical device 2 is required to be pressed down by the upper pressing plate 26, the supporting block 20 is moved to the periphery, so that the downward movement of the first stop block 21 is not influenced, and when the first stop block 21 is required to be supported, the supporting block 20 is moved to the lower side of the first stop block 21.

While the preferred embodiments of the present invention have been described in detail, the present invention is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present invention within the knowledge of those skilled in the art.

Claims

1. The utility model provides an electromechanical device transport case, includes box (17) and chamber door (1), is equipped with handle (3) on chamber door (1), and the bottom of box (17) is equipped with supporting leg (28), and the bottom of supporting leg (28) is equipped with fixed plate (29), is equipped with through-hole (30), its characterized in that on fixed plate (29):

the top wall of the box body (17) is provided with a mounting seat (49), the box door (1) is hinged on the mounting seat (49), and the box body (17) and the box door (1) are provided with lock catch components;

be equipped with down fagging (4) and top board (26) in box (17), be equipped with the fastening components who is used for fastening electromechanical device (2) on fagging (4) and top board (26) the side towards chamber door (1) down, be fixed with down curb plate (11) and last curb plate (13) on fagging (4) and top board (26) respectively, electromechanical device transport case still includes damper.

2. The electromechanical device transport case of claim 1, wherein:

the locking assembly comprises a wedge-shaped clamping block (32), a wedge-shaped locking block (38) and a locking seat (37);

a supporting rod (31) is fixed at the bottom of the box door (1), a connecting rod (39) is connected between the supporting rod (31) and a wedge-shaped locking block (38), a locking seat (37) is fixed on the bottom wall of the box body (17), and a locking groove (48) is formed in the locking seat (37);

the wedge-shaped fixture block (32) is arranged in the locking groove (48), a vertical rod (35) is connected onto the wedge-shaped fixture block (32), the vertical rod (35) penetrates through the bottom wall of the locking seat (37) and is in sliding connection with the bottom wall, a second fixture block (33) and a second pull ring (34) are arranged on the vertical rod (35), a fifth spring (36) is arranged between the wedge-shaped fixture block (32) and the bottom wall of the locking seat (37), and the fifth spring (36) is sleeved on the vertical rod (35).

3. The electromechanical device transport case of claim 2, wherein:

the fastening assembly comprises a rotating rod (44), a threaded seat (42) and a threaded rod (43);

hinge seats (40) are arranged on the lower supporting plate (4) and the upper pressing plate (26), the rotating rod (44) is hinged on the hinge seats (40), and locking bolts are arranged on hinged shafts of the hinge seats (40) and the rotating rod (44);

the screw thread seat (42) is fixed on the rotating rod (44), a screw thread (43) is installed on the screw thread seat (42) in a threaded mode, and a rubber pressing block (41) is arranged at the end portion of the screw thread (43).

4. The electromechanical device transport case of claim 3, wherein:

the shock absorption mechanism comprises a guide assembly and a lifting assembly.

5. The electromechanical device transport case of claim 4, wherein:

the guide assembly comprises a first slide bar (6), a first spring (7), a second slide bar (18) and a second spring (27);

the first sliding rod (6) is fixed at the bottom of the lower supporting plate (4), a first sliding sleeve (5) in sliding fit with the first sliding rod (6) is embedded in the bottom wall of the box body (17), and the first spring (7) is arranged between the lower supporting plate (4) and the bottom wall of the box body (17);

the second sliding rod (18) is fixed to the top of the upper pressing plate (26), a second sliding sleeve (25) in sliding fit with the second sliding rod (18) is embedded in the top wall of the box body (17), and a second spring (27) is arranged between the upper pressing plate (26) and the top wall of the box body (17).

6. The electromechanical device transport case of claim 5, wherein:

the lifting assembly comprises a pull rod (23), a first stop block (21) and a supporting block (20);

the pull rod (23) is fixed on the top of the upper pressure plate (26), a third sliding sleeve (24) which is in sliding fit with the pull rod (23) is embedded on the top wall of the box body (17), and a first pull ring (22) and a first stop block (21) are arranged on the pull rod (23);

the top wall of the box body (17) is provided with a sliding seat (19), and the sliding seat (19) is provided with a supporting block (20) in a sliding manner.

7. The electromechanical device transport case of any of claims 1 to 6, wherein:

lower guide block (10) and upper guide block (14) are fixed on lower side plate (11) and upper side plate (13) respectively, lower supporting plate (8) and upper supporting plate (16) are fixed on the inner wall of box (17), first guide rod (12) is connected between lower supporting plate (8) and upper supporting plate (16), first guide rod (12) runs through lower guide block (10) and upper guide block (14) and is connected with sliding of lower guide block (10) and lower supporting plate (8), third spring (9) is arranged between lower guide block (10) and lower supporting plate (8), and fourth spring (15) is arranged between upper guide block (14) and upper supporting plate (16).

8. The electromechanical device transport case of claim 6, wherein:

a groove (45) is formed in the sliding seat (19), a second guide rod (46) is arranged in the groove (45), a moving seat (47) is arranged on the second guide rod (46) in a sliding mode, and the supporting block (20) is arranged on the moving seat (47).