CN211628695U - Quick detachable storage device suitable for digital aerial camera - Google Patents

Abstract

The utility model discloses a quick detachable storage device suitable for digital aerial photography appearance, include: a storage module and a base; a heat dissipation shell is arranged outside the storage module, a heat conduction silica gel pad is attached to the inner wall of the heat dissipation shell, and two parallel convex edges are arranged at the lower part of the heat dissipation shell; two parallel sliding chutes are arranged on the base; the two convex edges at the lower part of the heat dissipation shell can be inserted into the two sliding grooves to slide; the sliding groove and the convex edges at the lower part of the heat dissipation shell are provided with matched insertion holes, and when the two convex edges are completely inserted into the sliding groove, the insertion pins are inserted into the insertion holes to prevent the storage module from moving; and a damping device is arranged at the lower part of the base. The equipment is easy to mount and dismount, and meets the requirements of shock absorption and heat dissipation.

Description

Quick detachable storage device suitable for digital aerial camera

Technical Field

The utility model belongs to the technical field of data storage, concretely relates to storage device suitable for digital aerial photography appearance of ultracamX, UltracamXp-WA.

Background

The storage equipment of the UltracamX and UltracamXp series digital aerial cameras usually adopts a mechanical hard disk, needs to consider the reasons of atmospheric pressure and the like, can be provided with a very thick and heavy closed shell, leads to the fact that the whole equipment is heavy, and brings inconvenience for maintenance and replacement. The Solid State Disk (SSD) has the advantages of high read-write speed, low power consumption and the like, and is very suitable for data storage of the digital aerial camera. If the conventional fixed installation is adopted, the original storage equipment needs to be disassembled complexly when being replaced or maintained.

SUMMERY OF THE UTILITY MODEL

Utility model purpose: to the problem that exists among the prior art, the utility model discloses a storage device suitable for be applicable to digital aerial photography appearance, this equipment easily installs the dismantlement, and satisfies shock attenuation, radiating demand.

The technical scheme is as follows: the utility model adopts the following technical scheme:

a readily removable storage device suitable for use in a digital aerial camera, comprising: a storage module and a base; a heat dissipation shell is arranged outside the storage module, a heat conduction silica gel pad is attached to the inner wall of the heat dissipation shell, and two parallel convex edges are arranged at the lower part of the heat dissipation shell;

two parallel sliding grooves are formed in the base; the two convex edges at the lower part of the heat dissipation shell can be inserted into the two sliding grooves to slide; the sliding groove and the convex edges at the lower part of the heat dissipation shell are provided with matched insertion holes, and after the two convex edges are completely inserted into the sliding groove, the insertion pins are inserted into the insertion holes to prevent the storage module from moving;

and a damping device is arranged at the lower part of the base.

Further, the storage module includes: the device comprises a frame structure, at least 2 trays, at least 2 solid state disks, a top plate and a fan;

the frame structure comprises a bottom surface frame and at least 4 vertical rods which are fixedly connected, and external threads are arranged on the upper parts of the vertical rods;

the periphery of each tray and the top plate is provided with openings, the number of the openings is the same as that of the vertical rods on the frame structure, and the positions of the openings are consistent with the projection positions of the vertical rods on the horizontal plane;

the tray comprises a tray substrate, a heat conduction and shock absorption foam silica gel pad positioned at the bottom of the tray substrate and a heat dissipation grid positioned at the upper part of the tray substrate; the heat dissipation grid comprises at least 3 parallel strips to form a heat dissipation channel;

the top plate comprises a top plate substrate and a heat-conducting shock-absorbing foam silica gel pad;

the solid state disks are arranged in layers, each layer comprises N solid state disks, the solid state disks of each layer are placed on the tray, the openings of the tray penetrate through the vertical rods, and the heat dissipation channels on the trays of all layers are arranged in parallel; one end of the heat dissipation channel is provided with a fan;

the opening on the top plate penetrates through the vertical rod and covers the solid state disk on the uppermost layer; and the compression nut is screwed in from the upper end of the vertical rod, and pressure is applied downwards when the compression nut is screwed, so that the top plate, each layer of solid state disk and each layer of tray are tightly attached.

Further, the heat dissipation shell and the heat conduction silica gel pad on the fan side are both net-shaped.

Further, the tray substrate is made of an aluminum alloy material.

Furthermore, all be equipped with the jack on two chimbs and two spouts.

The working principle is as follows: when installing storage device, at first with heat dissipation shell and storage module installation, secondly insert the spout on the base with two chimbs of heat dissipation shell lower part, after the installation targets in place, with inserting the bolt in the jack on the spout, the lock is dead fixed, places the storage module and removes. When the bolt needs to be removed, the convex edge can slide out of the sliding groove only by pulling out the bolt.

Has the advantages that: the utility model discloses an easy detachable storage device installs and dismantles the process simply suitable for digital aerial camera appearance can realize the quick detach fast-assembling, and can satisfy shock attenuation, heat dissipation demand.

Drawings

Fig. 1 is a schematic diagram of the structure of the storage device according to the present invention;

FIG. 2 is a schematic structural diagram of a storage module in an embodiment when a solid state disk is not installed;

FIG. 3 is a top plan view of the tray;

FIG. 4 is a side view of the tray;

FIG. 5 is a schematic diagram of a solid state disk installation mode in the embodiment;

fig. 6 is a schematic diagram after being loaded into a solid-state disk.

Detailed Description

The invention will be further elucidated with reference to the drawings and the detailed description.

As shown in fig. 1, the utility model discloses a quick detachable storage device suitable for digital aerial photography appearance, include: a storage module 1 and a base 2; a heat dissipation shell 3 is arranged outside the storage module, a heat conduction silica gel pad 4 is attached to the inner wall of the heat dissipation shell, and two parallel convex edges 5 are arranged at the lower part of the heat dissipation shell; two parallel sliding chutes 6 are arranged on the base 2; the two convex edges at the lower part of the heat dissipation shell can be inserted into the two sliding grooves to slide; the sliding groove and the convex edges at the lower part of the heat dissipation shell are provided with matched insertion holes 7, and after the two convex edges are completely inserted into the sliding groove, the insertion pins 8 are inserted into the insertion holes to prevent the storage module from moving; and a damping device 9 is arranged at the lower part of the base. In this embodiment, all be equipped with the jack on two chimbs and two spouts, make the position lock more firmly.

The storage module 1 is a core of the storage device, in this embodiment, a solid state disk group is used as the storage module, as shown in fig. 2, the solid state disk group is arranged in layers, and total 16 solid state disks are divided into 8 layers, each layer is 2 blocks, and the entire storage module includes:

the system comprises a frame structure 11, 8 trays 12, 16 solid state disks 13, a top plate 14 and 2 fans 15; wherein the frame structure 11 comprises a bottom frame and 6 vertical rods which are fixedly connected; the 6 vertical rods are respectively positioned on the 4 vertexes and the middle points of the two opposite sides of a quadrangle. The periphery of each tray and the top plate is provided with openings 12-1, the number of the openings is 6, and the positions of the openings are consistent with the projection positions of the vertical rods on the horizontal plane. FIG. 3 is a top view of the tray, and FIG. 4 is a side view of the tray; the tray comprises a tray substrate 12-3, a heat conduction shock absorption foam silica gel pad 12-4 positioned at the bottom of the tray substrate, and a heat dissipation grid 12-2 positioned at the upper part of the tray substrate; the heat dissipation grid comprises at least 3 parallel strips to form a heat dissipation channel. The top plate comprises a top plate substrate and a heat-conducting shock-absorbing foam silica gel pad, is equivalent to a tray without a heat dissipation grid, and is used for covering the solid state disk on the uppermost layer. The tray substrate and the top plate substrate in this embodiment are made of aluminum alloy material capable of conducting heat rapidly.

Each layer of solid state disk is placed on the tray 12, the opening of the tray penetrates through the vertical rod, and the heat dissipation channels on the trays of all layers are arranged in parallel; fans are installed at two ends of the heat dissipation channel.

Data collected by the digital aerial camera of the UltracamX and Ultracamxp series are processed by a computing unit and then sent to a storage device for storage. The computing equipment commonly used by the UltracamX and Ultracamxp series digital aerial cameras comprises a plurality of computing units, the output port of each computing unit is arranged at two sides of the computing equipment, and the output port of each computing unit is connected with a hard disk interface. In order to facilitate wiring, the hard disk interfaces of the memory module are also arranged on two sides of the whole memory module. The method specifically comprises the following steps: the directions of the solid state disk interfaces 13-1 on the upper 4 layers are consistent; the direction of the solid state disk interface 13-1 of the lower 4 layers is consistent with the direction of the solid state disk interface of the upper 4 layers, and the direction is opposite to that of the solid state disk interface of the upper 4 layers, as shown in fig. 5. The solid state disk interface 13-1 on each side is connected to the interface 10 on the external heat dissipation housing of the memory module through a data line.

The upper portion of a vertical rod of the frame structure is provided with external threads, a compression nut 16 is screwed in from the upper end of the vertical rod, and pressure is applied downwards when the compression nut is screwed so that the top plate, each layer of solid state disk and each layer of tray are tightly attached.

The schematic diagram after the solid state disk is installed is shown in fig. 6, a fan is arranged in front and at the back, and wind generated by the fan flows in a heat dissipation channel to accelerate heat dissipation during the operation of the solid state disk.

To facilitate heat dissipation, the fan-side heat dissipation housing and the thermally conductive silicone pad are both mesh-shaped, as shown at 3-1 and 4-1 in FIG. 1.

The utility model discloses a storage device is convenient for install and dismantles, is applicable to the big digital aerial photography appearance storage data of data memory space.

Claims (5)

1. A readily removable storage device suitable for use in a digital aerial camera, comprising: a storage module and a base; a heat dissipation shell is arranged outside the storage module, a heat conduction silica gel pad is attached to the inner wall of the heat dissipation shell, and two parallel convex edges are arranged at the lower part of the heat dissipation shell;

two parallel sliding grooves are formed in the base; the two convex edges at the lower part of the heat dissipation shell can be inserted into the two sliding grooves to slide; the sliding groove and the convex edges at the lower part of the heat dissipation shell are provided with matched insertion holes, and after the two convex edges are completely inserted into the sliding groove, the insertion pins are inserted into the insertion holes to prevent the storage module from moving;

and a damping device is arranged at the lower part of the base.

2. The storage device of claim 1, wherein the storage module comprises:

the device comprises a frame structure, at least 2 trays, at least 2 solid state disks, a top plate and a fan;

the frame structure comprises a bottom surface frame and at least 4 vertical rods which are fixedly connected, and external threads are arranged on the upper parts of the vertical rods;

the periphery of each tray and the top plate is provided with openings, the number of the openings is the same as that of the vertical rods on the frame structure, and the positions of the openings are consistent with the projection positions of the vertical rods on the horizontal plane;

the tray comprises a tray substrate, a heat conduction and shock absorption foam silica gel pad positioned at the bottom of the tray substrate and a heat dissipation grid positioned at the upper part of the tray substrate; the heat dissipation grid comprises at least 3 parallel strips to form a heat dissipation channel;

the top plate comprises a top plate substrate and a heat-conducting shock-absorbing foam silica gel pad;

the solid state disks are arranged in layers, each layer comprises N solid state disks, the solid state disks of each layer are placed on the tray, the openings of the tray penetrate through the vertical rods, and the heat dissipation channels on the trays of all layers are arranged in parallel; one end of the heat dissipation channel is provided with a fan;

the opening on the top plate penetrates through the vertical rod and covers the solid state disk on the uppermost layer; and the compression nut is screwed in from the upper end of the vertical rod, and pressure is applied downwards when the compression nut is screwed, so that the top plate, each layer of solid state disk and each layer of tray are tightly attached.

3. The storage device of claim 2, wherein the fan-side heat-dissipating housing and the thermally conductive silicone pad are each mesh-shaped.

4. The storage device of claim 2, wherein the tray substrate is an aluminum alloy.

5. The storage device of claim 1, wherein the two flanges and the two runners each have a receptacle.

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