CN215437496U - Remote sensing equipment strorage device - Google Patents

Abstract

The utility model provides a remote sensing equipment strorage device, it includes the box, the capsule, the buffer board and glue the frame, through set up a plurality of unit cavity in the box, the capsule is located the unit cavity, set up the buffer board respectively and glue the frame from top to bottom every capsule, set up the sponge board on the box one side articulated chamber door, through placing remote sensing equipment in the unit cavity, the sponge board is contradicted with remote sensing equipment after the chamber door is closed, when remote sensing equipment rocked, the rubber bent plate in the gluey frame plays the cushioning effect, capsule and sponge board and buffer board play anticollision effect. The utility model overcomes the problems that the original remote sensing equipment has complex damping structure and high cost when being stored, and can not be effectively protected by collision with the box body when shaking, and has the characteristics of simple structure, omnibearing protection of the remote sensing equipment, good anti-collision and buffering effects, simple and convenient operation and low cost.

Description

Remote sensing equipment strorage device

Technical Field

The utility model belongs to the technical field of remote sensing, and relates to a storage device for remote sensing equipment.

Background

The geological remote sensing detection is a method for researching geological rules by comprehensively applying modern remote sensing technology to carry out geological survey and resource investigation. From the macroscopic perspective, the geological information obtained from the air is focused, namely the reaction of various geological bodies to electromagnetic radiation is taken as a basic basis, and the comprehensive application of other various geological data and remote sensing data is combined to analyze and judge the geological structure condition in a certain area.

The basic contents of geological remote sensing work are as follows: ground and aviation remote sensing tests, which exert a remote sensing system suitable for geological prospecting and geological environment, and carry out image and digital data processing and geological interpretation. Geological remote sensing needs to apply electronic computer technology, electromagnetic radiation theory, modern optical and electronic technology and mathematical geological theory and method, and is an important technical field for promoting the modernization of geological work.

The existing storage device for the remote sensing equipment only has a storage function, cannot protect the remote sensing equipment and does not have a damping effect.

In the prior art, patent publication No. CN210102341U discloses a case and remote sensing equipment strorage device are deposited in shock attenuation, relates to the geological detection equipment field. The damping storage box comprises a box body, a partition plate is arranged in the box body, and a damping support group is arranged at the bottom of the box body; the damping support group comprises support legs which are oppositely arranged on two sides of the box body and a damping cylinder which is movably connected with the support legs, the damping cylinder is in a hollow cylinder shape with one open end, and the top wall of the damping cylinder is abutted against the bottom wall of the box body; one end of the supporting leg extends into the damping cylinder and is connected with one end of the stand column along the extension direction of the supporting leg, the other end of the stand column penetrates out of the top wall of the damping cylinder and the bottom wall of the box body and is connected with the partition plate, a compression spring is sleeved on the stand column, and two elastic ends of the compression spring respectively support against the inner side of the top wall of the damping cylinder and the top end of the supporting leg. The remote sensing equipment storage device comprises the shock absorption storage box, and the remote sensing equipment is stored on the partition plate of the shock absorption storage box. This case and remote sensing equipment strorage device are deposited in shock attenuation can effective shock attenuation.

Above-mentioned technical scheme adopts the shock attenuation of multiple damping spring structure realization box, has solved the shock attenuation to a certain extent and has deposited the problem of protection, but its structure is complicated relatively, adopts multiple mechanical structure to cooperate, and the manufacturing degree of difficulty is big, and is with high costs, and can not protect equipment when rocking in the box with the collision of box.

Disclosure of Invention

The utility model aims to solve the technical problem of providing a remote sensing equipment storage device which is simple in structure, a plurality of unit cavities are arranged in a box body, capsules are located in the unit cavities, a buffer plate and a rubber frame are respectively arranged above and below each capsule, a sponge plate is arranged on a box door hinged to one side of the box body, remote sensing equipment is placed in the unit cavities, the sponge plates are abutted to the remote sensing equipment after the box door is closed, when the remote sensing equipment shakes, a rubber bent plate in the rubber frame plays a role in buffering, the capsules, the sponge plates and the buffer plates play a role in collision prevention, the remote sensing equipment is protected in all directions, the collision prevention and buffering effects are good, the operation is simple and convenient, and the cost is low.

In order to solve the technical problems, the technical scheme adopted by the utility model is as follows: a remote sensing equipment storage device comprises a box body, a capsule, a buffer plate and a rubber frame; the box is separated into a plurality of unit cavities by horizontal baffle and vertical baffle, and the capsule is located the unit cavity, sets up buffer board and gluey frame respectively from top to bottom for every capsule, is located box one side and sets up articulated chamber door.

The box is a hollow rectangular box, and handles are arranged on two sides outside the rectangular box.

The box door is provided with a plurality of sponge plates, and the sponge plates face the interior of the box body and correspond to each unit cavity.

One side of the box door, which is far away from the hinged point, is provided with a door lock which is matched with the box body to open and close.

The capsule is open-ended arc structure, and open-ended one side is connected rather than dorsal part in towards the box, and both ends are contradicted with the unit cavity.

The rubber frame is a hollow rectangular frame body, a rubber bent plate connected with the rubber frame is arranged in the rectangular frame body, and the rubber bent plates are arranged in a mirror image mode.

A remote sensing equipment storage device comprises a box body, a capsule, a buffer plate and a rubber frame; the box is separated into a plurality of unit cavities by horizontal baffle and vertical baffle, and the capsule is located the unit cavity, sets up buffer board and gluey frame respectively from top to bottom for every capsule, is located box one side and sets up articulated chamber door. Simple structure, through set up a plurality of unit cavities in the box, the capsule is located the unit cavity, set up the buffer board respectively from top to bottom and glue the frame about every capsule, set up the sponge board on box one side articulated chamber door, through placing remote sensing equipment in the unit cavity, the sponge board is contradicted with remote sensing equipment after the chamber door is closed, when remote sensing equipment rocks, the rubber bent plate of gluing in the frame plays the cushioning effect, capsule and sponge board and buffer board play the anticollision effect, all-round protection remote sensing equipment, anticollision and buffering are effectual, easy operation is convenient, and is low in cost.

In a preferred scheme, the box body is a hollow rectangular box body, and handles are arranged on two sides outside the rectangular box body. Simple structure, during the use, the handle that is located box both sides is used for as the point of application of force when shifting.

In a preferred scheme, a plurality of sponge plates are arranged on the box door, and the sponge plates face the inside of the box body and correspond to each unit cavity. Simple structure, during the use, after the remote sensing equipment put into the unit cavity, close the chamber door, the front and back side is contradicted with sponge board and capsule respectively, avoids the collision to lead to damaging when remote sensing equipment rocks.

In a preferred scheme, one side of the box door, which is far away from the hinge point, is provided with a door lock which is matched with the box body to open and close. Simple structure, during the use, after remote sensing equipment put into the unit cavity, lock and box locking, sponge board and capsule contradict the compression with remote sensing equipment.

In a preferred scheme, the capsule is of an open arc structure, one side of the opening faces the back side in the box body and is connected with the box body, and two ends of the opening are abutted against the unit cavities. Simple structure, during the installation, the opening side of capsule is connected fixedly with the backplate in the box, and remote sensing equipment contradicts with the arc outer wall of capsule, applys remote sensing equipment thrust after the capsule compression.

In a preferred scheme, the rubber frame is a hollow rectangular frame body, a rubber bent plate connected with the rubber frame is arranged in the rectangular frame body, and the rubber bent plates are arranged in a mirror image mode. Simple structure, during the use, the rubber bent plate contact in remote sensing equipment bottom and the gluey frame, when remote sensing equipment rocked, the rubber bent plate that the mirror image was laid played the cushioning effect, was favorable to reducing the displacement volume when remote sensing equipment rocked.

The utility model provides a remote sensing equipment strorage device, it includes the box, the capsule, the buffer board and glue the frame, through set up a plurality of unit cavity in the box, the capsule is located the unit cavity, set up the buffer board respectively and glue the frame from top to bottom every capsule, set up the sponge board on the box one side articulated chamber door, through placing remote sensing equipment in the unit cavity, the sponge board is contradicted with remote sensing equipment after the chamber door is closed, when remote sensing equipment rocked, the rubber bent plate in the gluey frame plays the cushioning effect, capsule and sponge board and buffer board play anticollision effect. The utility model overcomes the problems that the original remote sensing equipment has complex damping structure and high cost when being stored, and can not be effectively protected by collision with the box body when shaking, and has the characteristics of simple structure, omnibearing protection of the remote sensing equipment, good anti-collision and buffering effects, simple and convenient operation and low cost.

Drawings

The utility model is further illustrated by the following examples in conjunction with the accompanying drawings:

fig. 1 is a schematic view of the internal structure of the present invention.

Fig. 2 is a schematic structural view of the opened door of the present invention.

FIG. 3 is a schematic view of the structure of the capsule of the present invention

In the figure: the capsule box comprises a box body 1, a horizontal partition plate 11, a vertical partition plate 12, a unit cavity 13, a box door 14, a handle 15, a sponge plate 16, a door lock 17, a capsule 2, a buffer plate 3, a rubber frame 4 and a rubber bent plate 41.

Detailed Description

As shown in fig. 1 to 3, a remote sensing equipment storage device comprises a box body 1, a capsule 2, a buffer plate 3 and a rubber frame 4; the box body 1 is divided into a plurality of unit cavities 13 by horizontal partition plates 11 and vertical partition plates 12, the capsules 2 are located in the unit cavities 13, each capsule 2 is vertically provided with a buffer plate 3 and a rubber frame 4 respectively, and one side of the box body 1 is provided with a hinged box door 14. Simple structure, through set up a plurality of unit cavities 13 in box 1, capsule 2 is located unit cavity 13, every capsule 2 sets up buffer board 3 and gluey frame 4 from top to bottom respectively, set up sponge board 16 on box 1 one side articulated chamber door 14, through placing remote sensing equipment in unit cavity 13, sponge board 16 contradicts with remote sensing equipment after chamber door 14 is closed, when remote sensing equipment rocks, rubber bent plate 41 in gluey frame 4 plays the cushioning effect, capsule 2 and sponge board 16 and buffer board 3 play the anticollision effect, all-round protection remote sensing equipment, anticollision and buffering are effectual, and easy operation is convenient, and is with low costs.

Preferably, the buffer plate 3 is a foam plate or a foam plate.

In a preferred scheme, the box body 1 is a hollow rectangular box body, and handles 15 are arranged on two sides outside the rectangular box body. The structure is simple, and when the box body is used, the handles 15 positioned at the two sides of the box body 1 are used as force application points when being transferred.

In a preferred embodiment, a plurality of sponge plates 16 are disposed on the box door 14, and the sponge plates 16 face the inside of the box body 1 and correspond to each unit cavity 13. Simple structure, during the use, after remote sensing equipment put into unit cavity 13, close chamber door 14, the front and back side is contradicted with sponge board 16 and capsule 2 respectively, avoids the collision to lead to damaging when remote sensing equipment rocks.

In a preferable scheme, a door lock 17 is arranged on one side of the box door 14 far away from a hinge point and is matched with the box body 1 for opening and closing. Simple structure, during the use, after remote sensing equipment put into unit cavity 13, lock 17 locks with box 1, and sponge board 16 and capsule 2 contradict the compression with remote sensing equipment.

In the preferred scheme, the capsule 2 is an open arc structure, one side of the opening faces the inner back side of the box body 1 and is connected with the box body, and two ends of the opening are abutted to the unit cavity 13. Simple structure, during the installation, the opening side of capsule 2 is connected fixedly with the backplate in the box 1, and remote sensing equipment contradicts with the arc outer wall of capsule 2, applys remote sensing equipment thrust after the compression of capsule 2.

In a preferred embodiment, the rubber frame 4 is a hollow rectangular frame body, a rubber bending plate 41 connected to the hollow rectangular frame body is arranged in the rectangular frame body, and the rubber bending plates 41 are arranged in a mirror image manner. Simple structure, during the use, the remote sensing equipment bottom contacts with the rubber bent plate 41 of gluing in the frame 4, and when remote sensing equipment rocked, the rubber bent plate 41 that the mirror image was laid played the cushioning effect, was favorable to reducing the displacement volume when remote sensing equipment rocked.

As above-mentioned remote sensing equipment strorage device, when installing and using, a remote sensing equipment strorage device, set up a plurality of unit cavity 13 in box 1, capsule 2 is located unit cavity 13, every capsule 2 sets up buffer board 3 and gluey frame 4 from top to bottom respectively, set up sponge board 16 on the articulated chamber door 14 in box 1 one side, place remote sensing equipment in unit cavity 13, sponge board 16 contradicts with remote sensing equipment after chamber door 14 closes, when remote sensing equipment rocked, rubber bent plate 41 in gluey frame 4 plays the cushioning effect, capsule 2 and sponge board 16 and buffer board 3 play the anticollision effect, all-round protection remote sensing equipment, anticollision and buffering are effectual, easy operation is convenient, and is with low costs.

In use, the handles 15 on both sides of the case 1 are used as force application points during transfer.

When the remote sensing device is used, after the remote sensing device is placed into the unit cavity 13, the box door 14 is closed, the front side and the rear side of the box door are respectively abutted against the sponge plate 16 and the capsule 2, and the remote sensing device is prevented from being damaged due to collision when shaking.

When the remote sensing device is used, after the remote sensing device is placed in the unit cavity 13, the door lock 17 is locked with the box body 1, and the sponge plate 16 and the capsule 2 are pressed against the remote sensing device.

During the installation, the opening side of capsule 2 is connected fixedly with the backplate in the box 1, and remote sensing equipment contradicts with the arc outer wall of capsule 2, applys remote sensing equipment thrust after the compression of capsule 2.

When the remote sensing device is used, the bottom of the remote sensing device is in contact with the rubber bent plate 41 in the rubber frame 4, and when the remote sensing device shakes, the rubber bent plate 41 arranged in a mirror image plays a role in buffering, so that the displacement when the remote sensing device shakes is reduced.

The above-described embodiments are merely preferred embodiments of the present invention, and should not be construed as limiting the present invention, and features in the embodiments and examples in the present application may be arbitrarily combined with each other without conflict. The protection scope of the present invention is defined by the claims, and includes equivalents of technical features of the claims. I.e., equivalent alterations and modifications within the scope hereof, are also intended to be within the scope of the utility model.

Claims (6)

1. The utility model provides a remote sensing equipment strorage device which characterized by: the capsule filling machine comprises a box body (1), a capsule (2), a buffer plate (3) and a rubber frame (4); the box body (1) is divided into a plurality of unit cavities (13) by a horizontal partition plate (11) and a vertical partition plate (12), the capsules (2) are located in the unit cavities (13), each capsule (2) is vertically provided with a buffer plate (3) and a rubber frame (4) respectively, and a hinged box door (14) is arranged on one side of the box body (1).

2. The remote sensing device storage unit of claim 1, wherein: the box body (1) is a hollow rectangular box body, and handles (15) are arranged on two sides outside the rectangular box body.

3. The remote sensing device storage unit of claim 1, wherein: the box door (14) is provided with a plurality of sponge plates (16), and the sponge plates (16) face the interior of the box body (1) and correspond to each unit cavity (13).

4. The remote sensing device storage unit of claim 1, wherein: and a door lock (17) is arranged on one side of the box door (14) far away from the hinged point and is matched with the box body (1) for opening and closing.

5. The remote sensing device storage unit of claim 1, wherein: the capsule (2) is of an open arc structure, one side of the opening faces the inner back side of the box body (1) and is connected with the box body, and two ends of the opening are abutted to the unit cavities (13).

6. The remote sensing device storage unit of claim 1, wherein: the rubber frame (4) is a hollow rectangular frame body, a rubber bent plate (41) connected with the rubber frame is arranged in the rectangular frame body, and the rubber bent plates (41) are arranged in a mutual mirror image mode.

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