CN220333313U - Adjustable detecting instrument transport case - Google Patents

Abstract

The utility model relates to an adjustable detection instrument transport case, and relates to the technical field of transport protection equipment. The box cover is connected to the box body, and the limiting mechanism, the telescopic mechanism and the damping mechanism are all arranged on the box body; the limiting mechanism comprises a buffering bottom plate, a limiting plate, a spring and a guiding assembly, wherein the buffering bottom plate is horizontally arranged in the box body, the limiting plate is arranged in the box body and perpendicular to the buffering bottom plate, one end of the spring is connected with one end face, close to the inner peripheral face of the box body, of the limiting plate, the other end of the spring is connected with the inner peripheral face of the box body, and the guiding assembly is used for guiding the spring. The utility model improves the application range of the detection instrument transport case.

Description

Adjustable detecting instrument transport case

Technical Field

The utility model relates to the technical field of transportation protection equipment, in particular to an adjustable detection instrument transportation box.

Background

The detection instrument transportation box is a box body for placing the detection instrument, generally has the characteristics of strong bearing capacity, firmness, attractive appearance and the like, and with the rising of domestic scientific research industry in recent years, the requirements on the integrity and the protectiveness in the instrument packaging and transportation process are gradually increased, so that the normal operation of a precise instrument is related.

When the instrument is transported at present, because the instrument is noble, the instrument needs to be protected, the existing instrument transport case is more provided with aluminum cases or suitcases with different specifications, and a large amount of foam sponge is wrapped around the instrument for packaging, so that the effects of shock absorption and fixation are achieved.

According to the scheme, in the process of packaging and transportation, according to instruments with different specifications, aluminum boxes or suitcases with different specifications are required to be customized, the volume cannot be adjusted, the application range is limited, and the purpose is single.

Disclosure of Invention

The utility model provides an adjustable detection instrument transportation box, which aims to solve the problem that the application range of the existing instrument transportation box is limited.

The utility model provides an adjustable detection instrument transport case, which adopts the following technical scheme:

the utility model provides an adjustable detecting instrument transport case, includes box, case lid, stop gear, telescopic machanism and damper, the case lid is connected on the box, stop gear, telescopic machanism with damper all set up on the box; the limiting mechanism comprises a buffering bottom plate, a limiting plate, a spring and a guiding assembly, wherein the buffering bottom plate is horizontally arranged in the box body, the limiting plate is arranged in the box body and perpendicular to the buffering bottom plate, one end of the spring is connected with one end face, close to the inner peripheral face of the box body, of the limiting plate, the other end of the spring is connected with the inner peripheral face of the box body, and the guiding assembly is used for guiding the spring.

By adopting the technical scheme, the instrument is placed on the buffer bottom plate, the instrument extrudes the spring through the limiting plate, the spring slides in the guide assembly, the limiting plate is continuously abutted with the instrument through the elastic force of the spring, the fixed limiting effect is achieved on the instrument, the instrument with different widths is adapted, and the application range of the transport case of the detection instrument is improved; the spring is guided by the guide assembly, so that the spring is maintained in a horizontal state, and the influence of ageing bending on the elasticity of the spring is reduced.

Optionally, the direction subassembly includes uide bushing, direction slide rail, first stopper and second stopper, the uide bushing cover is established on the spring, uide bushing fixed connection is in on the limiting plate is close to an terminal surface of box inner peripheral surface, direction slide rail fixed connection is in on the box inner peripheral surface, the direction slide rail slides and sets up the outer peripheral surface of uide bushing, first stopper fixed connection is in on the uide bushing is kept away from on the outer peripheral surface of limiting plate one end, second stopper fixed connection is in on the direction slide rail is close to on the inner peripheral surface of limiting plate one end.

By adopting the technical scheme, when an instrument is placed, the limiting plate extrudes the spring, the spring slides in the guide sleeve to drive the guide sleeve to slide in the guide sliding rail, so that the spring is beneficial to maintaining the horizontal state; when the instrument is taken out, the second limiting block, which is close to one end of the limiting plate, of the guide sliding rail limits the first limiting block, which is far away from one end of the limiting plate, of the guide sleeve in the guide sliding rail, so that the guide sleeve is not easy to fall off, and the stability of the spring is facilitated.

Optionally, telescopic machanism includes flexible box, slide rail and flexible subassembly, flexible box slides and sets up on the box, the case lid is connected flexible box is last, the outside of box has been seted up the slide rail, the inboard of flexible box has been seted up the spout, flexible subassembly is used for control flexible box's slip.

Through adopting above-mentioned technical scheme, place the instrument in the box, when the high of instrument is higher than the height of box, through flexible subassembly control flexible box, reciprocate certain distance along slide rail and spout to the instrument of adaptation not co-altitude has improved the application scope of transport case.

Optionally, the flexible subassembly includes button, dwang, wire rope, expansion spring and socket, the button sets up on the flexible box, the dwang rotates to be connected on the flexible box, the chamber of holding has been seted up on the flexible box, socket sliding connection is in hold the chamber, the expansion spring sets up hold in the chamber, the one end of expansion spring with socket butt, the other end of expansion spring with flexible box butt, the wire rope activity sets up on the box, the one end of wire rope with the dwang is connected, the other end of wire rope passes the expansion spring with the socket is connected, the button with the dwang is kept away from the one end butt of wire rope, the slot has been seted up on the box.

Through adopting above-mentioned technical scheme, when adjusting the height of flexible box, press the button, the button promotes the dwang and rotates, and the dwang slides through steel cable pulling socket, and the telescopic spring compresses, and the socket pulls out from the slot, can reciprocate flexible box, loosens the button, and the socket inserts the slot, and flexible box fixed in position, and then the instrument of adaptation certain height has improved the application scope of transport case.

Optionally, one end of the socket, which is far away from the telescopic spring, is a cylinder, and one end of the socket, which is far away from the telescopic spring, is provided with an inverted inclined plane.

Through adopting above-mentioned technical scheme, offer the inclined plane of falling in the cylinder one end of socket, reduced the condition that causes the socket to be difficult for inserting the slot because of reasons such as dislocation, be favorable to the quick fixed of flexible box, improved the convenience of flexible subassembly.

Optionally, the damper includes first buffering sponge, second buffering sponge, third buffering sponge and damping rubber, first buffering sponge fixed connection is in on the limiting plate kept away from an terminal surface of spring, damping rubber one end fixed connection is in on the box, damping rubber other end fixed connection is in on the buffering bottom plate, second buffering sponge fixed connection is in on the buffering bottom plate is kept away from an terminal surface of damping rubber, third buffering sponge fixed connection is in on the inner peripheral surface of box.

By adopting the technical scheme, the instrument is placed on the buffer bottom plate, the bottom of the instrument is abutted with the second buffer sponge, the buffer bottom plate extrudes the damping rubber, so that the up-and-down jolt degree of the instrument can be weakened, and the instrument is protected in the vertical direction; the instrument side and first buffering sponge and third buffering sponge butt can weaken the degree that instrument horizontal direction rocked, plays the guard action to the instrument in the horizontal direction.

Optionally, a handle and a spanner are fixedly connected to the box cover, one end of the box cover is hinged to the telescopic box body, and the other end of the box cover is connected to the telescopic box body through the spanner; the bottom of the box body is also provided with universal wheels.

By adopting the technical scheme, when the box cover is closed, the box cover is fixed on the telescopic box body by using the spanner, so that the firmness of the box cover is improved; the box body moves on the plane through the universal wheels, so that the labor intensity of workers is reduced, meanwhile, the universal wheels can be fixed on the ground, the box body is not easy to slide, and the stability of the box body is improved.

In summary, the present utility model includes at least one of the following beneficial technical effects:

1. through stop gear's setting, play fixed spacing effect to the instrument of the different width of adaptation has improved the application scope of transport case.

2. Through telescopic machanism's setting, make the transport case can adapt to the instrument of not co-altitude, improved the application scope of transport case.

3. Through damper's setting, can weaken the instrument level and the degree that rocks in the vertical direction, play the guard action to the instrument.

Drawings

FIG. 1 is a schematic overall structure of an embodiment of the present utility model;

FIG. 2 is a schematic overall structure of another view of an embodiment of the present utility model;

FIG. 3 is a cross-sectional view taken along the direction A-A in FIG. 1 in accordance with an embodiment of the present utility model;

FIG. 4 is an enlarged view of portion A of FIG. 3 in accordance with an embodiment of the present utility model;

fig. 5 is an enlarged view of portion B of fig. 3 in accordance with an embodiment of the present utility model.

Reference numerals illustrate: 100. a case; 200. a case cover; 300. a limiting mechanism; 310. a buffer bottom plate; 320. a limiting plate; 330. a spring; 340. a guide assembly; 341. a guide sleeve; 342. a guide rail; 343. a first limiting block; 344. a second limiting block; 400. a telescoping mechanism; 410. a telescopic case; 420. a slide rail; 430. a chute; 440. a telescoping assembly; 441. a button; 442. a rotating lever; 443. a steel rope; 444. a telescopic spring; 445. a socket; 446. a receiving chamber; 447. a slot; 500. a damping mechanism; 510. a first cushioning sponge; 520. a second cushioning sponge; 530. a third buffer sponge; 540. damping rubber; 600. a grip; 700. pulling and buckling; 800. and a universal wheel.

Detailed Description

The utility model is described in further detail below in connection with fig. 1-3.

The embodiment of the utility model discloses an adjustable detection instrument transportation box, which comprises a box body 100, a box cover 200, a limiting mechanism 300, a telescopic mechanism 400 and a damping mechanism 500, wherein the box cover 200 is connected to the box body 100, and the limiting mechanism 300, the telescopic mechanism 400 and the damping mechanism 500 are all arranged on the box body 100, referring to fig. 1, 2 and 3. The device has the technical effect of improving the application range of the transport case of the detection instrument.

Referring to fig. 1, 2 and 3, the limiting mechanism 300 includes a buffer bottom plate 310, two limiting plates 320, eighteen springs 330 and eighteen guide assemblies 340, the guide assemblies 340 include a guide sleeve 341, a guide sliding rail 342, a first limiting block 343 and a second limiting block 344, the buffer bottom plate 310 is horizontally disposed at the bottom of the case 100, the limiting plates 320 are disposed in the case 100 and perpendicular to the buffer bottom plate 310, one ends of the springs 330 are connected with one end surface of the limiting plates 320 near the inner peripheral surface of the case 100, and the other ends of the springs 330 are connected with the inner peripheral surface of the case 100; the guide sleeve 341 is sleeved on the spring 330, the guide sleeve 341 is fixedly connected to an end face, close to the inner peripheral surface of the box body 100, of the limiting plate 320, the guide sliding rail 342 is fixedly connected to the inner peripheral surface of the box body 100, the guide sliding rail 342 is slidably arranged on the outer peripheral surface of the guide sleeve 341, the first limiting block 343 is fixedly connected to the outer peripheral surface, far away from one end of the limiting plate 320, of the guide sleeve 341, and the second limiting block 344 is fixedly connected to the inner peripheral surface, close to one end of the limiting plate 320, of the guide sliding rail 342.

The device is arranged on the buffer bottom plate 310, the device extrudes the spring 330 through the limiting plate 320, the limiting plate 320 drives the spring 330 and the guide sleeve 341 to slide in the guide sliding rail 342, the spring 330 is beneficial to maintaining the horizontal state, the elastic force of the spring 330 enables the limiting plate 320 to continuously abut against the device, the device is fixed and limited, the device is matched with devices with different widths, and the application range of the transport case is improved; when the instrument is taken out, the second limiting block 344 of the guide rail 342 near the end of the limiting plate 320 limits the first limiting block 343 of the end of the guide sleeve 341 away from the limiting plate 320 in the guide rail 342, so that the guide sleeve 341 is not easy to fall off.

Referring to fig. 1, 2 and 3, the telescopic mechanism 400 includes a telescopic housing 410, a slide rail 420 and a telescopic assembly 440, the telescopic assembly 440 includes a button 441, a rotary rod 442, a steel rope 443, a telescopic spring 444 and a socket 445, the telescopic housing 410 is slidably disposed on the housing 100, the case cover 200 is connected to the telescopic housing 410, the slide rail 420 is provided on the outer side of the housing 100, and the slide groove 430 is provided on the inner side of the telescopic housing 410; the push button 441 is disposed on the telescopic box 410, the rotating rod 442 is rotatably connected to the telescopic box 410, the telescopic box 410 is provided with a receiving cavity 446, the socket 445 is slidably connected to the receiving cavity 446, one end of the socket 445, which is far away from the telescopic spring 444, is a cylinder, one end of the socket 445, which is far away from the telescopic spring 444, is provided with an inverted slope, the telescopic spring 444 is disposed in the receiving cavity 446, one end of the telescopic spring 444 is abutted to the socket 445, the other end of the telescopic spring 444 is abutted to the telescopic box 410, the steel rope 443 is movably disposed on the box 100, one end of the steel rope 443 is connected to the rotating rod 442, the other end of the steel rope 443 passes through the telescopic spring 444 and is connected to the socket 445, the push button 441 is abutted to one end of the rotating rod 442, which is far away from the steel rope 443, and the box 100 is provided with a slot 447; the box cover 200, the box body 100 and the telescopic box body 410 are rectangular, a handle 600 and three wrenches 700 are fixedly connected to the box cover 200, one side of the box cover 200 is hinged to the telescopic box body 410, the other three sides of the box cover 200 are connected to the telescopic box body 410 through the wrenches 700, and four universal wheels 800 are further arranged at the bottom of the box body 100.

So arranged, the instrument is placed on the buffer bottom plate 310, when the height of the instrument is higher than that of the box body 100, the button 441 is pressed, the button 441 pushes the rotating rod 442 to rotate, the rotating rod 442 pulls the socket 445 to slide through the steel rope 443, the telescopic spring 444 is compressed, the socket 445 is pulled out from the slot 447, the telescopic box body 410 can move up and down along the sliding rail 420 and the sliding slot 430 for a certain distance, the button 441 is released, the cylinder socket 445 with an inverted inclined surface is quickly inserted into the slot 447, the position of the telescopic box body 410 is quickly fixed, and then the instrument with a certain height is adapted; when the cover 200 is closed, the cover 200 is fixed to the telescopic case 410 using the spanner 700; when being carried, the box body 100 moves on a plane through the universal wheel 800; during transportation, the universal wheel 800 can be fixed on the ground, so that the box 100 is not easy to slide.

Referring to fig. 1, 2 and 3, the damping mechanism 500 includes two first damping sponges 510, a second damping sponge 520, two third damping sponges 530 and damping rubber 540, the first damping sponges 510 are fixedly connected to an end surface of the limiting plate 320, which is far away from the spring 330, one end of the damping rubber 540 is fixedly connected to the case 100, the other end of the damping rubber 540 is fixedly connected to the damping bottom plate 310, the second damping sponge 520 is fixedly connected to an end surface of the damping bottom plate 310, which is far away from the damping rubber 540, and the third damping sponges 530 are fixedly connected to an inner circumferential surface of the case 100.

The instrument is placed on the buffer bottom plate 310, the bottom of the instrument is abutted with the second buffer sponge 520, the buffer bottom plate 310 extrudes the damping rubber 540, the jolt degree of the instrument can be weakened, and the instrument is protected in the vertical direction; the instrument side is abutted with the first buffer sponge 510 and the third buffer sponge 530, so that the shaking degree of the instrument in the horizontal direction can be weakened, and the instrument is protected in the horizontal direction.

The implementation principle of the transport case of the adjustable detection instrument provided by the embodiment of the utility model is as follows:

the instrument is placed on the buffer bottom plate 310, the bottom of the instrument is abutted with the second buffer sponge 520, the buffer bottom plate 310 extrudes the damping rubber 540, the jolt degree of the instrument can be weakened, and the instrument is protected in the vertical direction; the side surface of the instrument is abutted with the first buffer sponge 510 and the third buffer sponge 530, so that the shaking degree of the instrument in the horizontal direction can be weakened, and the instrument is protected in the horizontal direction; the spring 330 is extruded by the limiting plates 320 at two sides of the instrument, the limiting plates 320 drive the spring 330 and the guide sleeve 341 to slide in the guide sliding rail 342, so that the spring 330 is beneficial to maintaining the horizontal state, the elastic force of the spring 330 enables the limiting plates 320 to be continuously abutted with the instrument, the effect of fixing and limiting the instrument is achieved, the instrument with different widths is adapted, and the application range of the transport case is improved; when the height of the instrument is higher than that of the box body 100, the button 441 is pressed, the button 441 pushes the rotating rod 442 to rotate, the rotating rod 442 pulls the socket 445 to slide through the steel rope 443, the telescopic spring 444 is compressed, the socket 445 is pulled out of the slot 447, the telescopic box body 410 can be moved up and down by a certain distance along the sliding rail 420 and the sliding slot 430, the button 441 is released, the cylinder socket 445 with an inverted inclined surface is quickly inserted into the slot 447, the position of the telescopic box body 410 is quickly fixed, and then the instrument with a certain height is adapted; when the cover 200 is closed, the cover 200 is fixed to the telescopic case 410 using the spanner 700; when being carried, the box body 100 moves on a plane through the universal wheel 800; when in transportation, the universal wheel 800 can be fixed on the ground, so that the box body 100 is not easy to slide; when the instrument is taken out, the second limiting block 344 of the guide rail 342 near the end of the limiting plate 320 limits the first limiting block 343 of the end of the guide sleeve 341 away from the limiting plate 320 in the guide rail 342, so that the guide sleeve 341 is not easy to fall off.

The above embodiments are not intended to limit the scope of the present utility model, so: all equivalent changes in structure, shape and principle of the utility model should be covered in the scope of protection of the utility model.

Claims (7)

1. An adjustable detecting instrument transport case, its characterized in that: the novel anti-theft box comprises a box body (100), a box cover (200), a limiting mechanism (300), a telescopic mechanism (400) and a damping mechanism (500), wherein the box cover (200) is connected to the box body (100), and the limiting mechanism (300), the telescopic mechanism (400) and the damping mechanism (500) are all arranged on the box body (100); stop gear (300) are including buffering bottom plate (310), limiting plate (320), spring (330) and direction subassembly (340), buffering bottom plate (310) level sets up in box (100), limiting plate (320) set up in box (100) and with buffering bottom plate (310) are perpendicular, spring (330) one end with limiting plate (320) are close to one end face connection of box (100) inner peripheral face, the spring (330) other end with the inner peripheral face of box (100) is connected, direction subassembly (340) are used for leading to spring (330).

2. An adjustable test equipment carrier case according to claim 1, wherein: the guide assembly (340) comprises a guide sleeve (341), a guide sliding rail (342), a first limiting block (343) and a second limiting block (344), the guide sleeve (341) is sleeved on the spring (330), the guide sleeve (341) is fixedly connected to one end face, close to the inner peripheral face of the box body (100), of the limiting plate (320), the guide sliding rail (342) is fixedly connected to the inner peripheral face of the box body (100), the guide sliding rail (342) is slidably arranged on the outer peripheral face of the guide sleeve (341), the first limiting block (343) is fixedly connected to the outer peripheral face, away from the limiting plate (320), of the guide sleeve (341), and the second limiting block (344) is fixedly connected to the inner peripheral face, close to the limiting plate (320), of the guide sliding rail (342).

3. An adjustable test equipment carrier case according to claim 2, wherein: the telescopic mechanism (400) comprises a telescopic box body (410), a sliding rail (420) and a telescopic assembly (440), wherein the telescopic box body (410) is arranged on the box body (100) in a sliding mode, the box cover (200) is connected to the telescopic box body (410), the sliding rail (420) is arranged on the outer side of the box body (100), the sliding groove (430) is arranged on the inner side of the telescopic box body (410), and the telescopic assembly (440) is used for controlling the telescopic box body (410) to slide.

4. An adjustable test equipment transportation case according to claim 3, wherein: the telescopic assembly (440) comprises a button (441), a rotating rod (442), a steel rope (443), a telescopic spring (444) and a socket (445), wherein the button (441) is arranged on the telescopic box body (410), the rotating rod (442) is rotationally connected with the telescopic box body (410), a containing cavity (446) is formed in the telescopic box body (410), the socket (445) is slidingly connected with the containing cavity (446), the telescopic spring (444) is arranged in the containing cavity (446), one end of the telescopic spring (444) is abutted with the socket (445), the other end of the telescopic spring (444) is abutted with the telescopic box body (410), the steel rope (443) is movably arranged on the box body (100), one end of the steel rope (443) is connected with the rotating rod (442), the other end of the steel rope (443) penetrates through the telescopic spring (443) to be connected with the socket (445), and the button (441) is abutted with one end of the steel rope (443) away from the box body (447).

5. An adjustable test equipment carrier case according to claim 4, wherein: the socket (445) is a cylinder far away from one end of the telescopic spring (444), and one end of the socket (445) far away from the telescopic spring (444) is provided with an inverted inclined plane.

6. An adjustable test equipment carrier case according to claim 1, wherein: the damping mechanism (500) comprises a first damping sponge (510), a second damping sponge (520), a third damping sponge (530) and damping rubber (540), wherein the first damping sponge (510) is fixedly connected to one end face of the limiting plate (320) away from the spring (330), one end of the damping rubber (540) is fixedly connected to the box body (100), the other end of the damping rubber (540) is fixedly connected to the damping bottom plate (310), the second damping sponge (520) is fixedly connected to the damping bottom plate (310) and is far away from one end face of the damping rubber (540), and the third damping sponge (530) is fixedly connected to the inner peripheral face of the box body (100).

7. An adjustable test equipment carrier according to any one of claims 3-5, wherein: the box cover (200) is fixedly connected with a handle (600) and a spanner (700), one end of the box cover (200) is hinged to the telescopic box body (410), and the other end of the box cover (200) is connected to the telescopic box body (410) through the spanner (700); the bottom of the box body (100) is also provided with a universal wheel (800).