CN216210769U - IDV desktop cloud terminal based on container technology - Google Patents

Abstract

The utility model relates to the technical field of IDV (integrated digital video) and discloses an IDV desktop cloud terminal based on a container technology. The clamp positioning mechanism is used for positioning the clamp of the terminal shell, so that an IDV desktop cloud terminal can be conveniently assembled and positioned by a worker, the clamp positioning mechanism can be fixed on a corresponding platform in a clamp or screw fastening mode, safety and usability are improved, the clamp positioning mechanism can be conveniently disassembled and carried, mechanical heat generated by the IDV desktop cloud terminal can be quickly exchanged with external air through matching and combining the heat conduction mechanism and the ventilation window in the use process, and heat dissipation efficiency of the mechanical heat is improved.

Description

IDV desktop cloud terminal based on container technology

Technical Field

The utility model relates to the technical field of IDV, in particular to an IDV desktop cloud terminal based on a container technology.

Background

The IDV intelligent desktop virtualization system has the advantages that the IDV intelligent desktop virtualization system can enable the whole system for managing user computing to be more intelligent, can provide required management functions for IT people while maximizing user experience, has centralized management and local execution, reduces the new construction amount of a data center to the minimum, simultaneously uses the processing capacity of an intelligent client, optimizes the user experience, and intelligently provides layer images, so that updating and patching operation are improved, storage is simplified, image drift is avoided, management independent of an operating system is provided, safety is enhanced, and the like.

But there are some shortcomings about IDV desktop cloud terminal in the existing market, and traditional IDV cloud terminal structure is comparatively single, and its nimble assembly performance is comparatively low, is mostly the condition that the form of directly placing is very easily appeared dropping and is damaged, and in the use, its radiating efficiency is comparatively low. Accordingly, those skilled in the art provide an IDV desktop cloud terminal based on container technology to solve the problems set forth in the background art described above.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an IDV desktop cloud terminal based on a container technology to solve the problems in the background technology.

In order to achieve the purpose, the utility model provides the following technical scheme: IDV desktop cloud terminal based on container technology, including the terminal shell, the middle part of terminal shell is located both sides position department symmetry and has seted up positioning channel groove, and the terminal shell passes through positioning channel groove and cutting ferrule mechanism clamp connection, one side of terminal shell is provided with controls the panel, and the opposite side of terminal shell is provided with the wiring panel, the inboard of terminal shell is located front position department and is provided with the terminal body, and the inboard of terminal shell is located rear position department and is provided with heat conduction mechanism, the ventilation window has just been seted up to heat conduction mechanism's both ends in the upper and lower both ends of terminal shell.

As a still further scheme of the utility model: the clamping sleeve mechanism comprises an installation plate frame, an elastic liner is connected to the front end face of the installation plate frame, clamps are symmetrically arranged at positions, located at the top ends, of the front side of the installation plate frame, arc-shaped clamping sleeves are arranged at positions, located at the middle of the top ends, of the rear side of the installation plate frame, and fastening screw holes are symmetrically formed in the end faces of the arc-shaped clamping sleeves.

As a still further scheme of the utility model: installation grillage, clamp, arc cutting ferrule all adopt PVC material component, elastic pad adopts natural rubber material component.

As a still further scheme of the utility model: the heat conduction mechanism comprises a heat conduction frame, heat conduction ports are symmetrically formed in the upper end and the lower end of the heat conduction frame, heat conduction fin plates are symmetrically arranged on the inner sides of the heat conduction frame, circulation grooves are formed in the positions, on one sides of the heat conduction fin plates, and dustproof baffle plates are symmetrically arranged at the two ends of the heat conduction fin plates.

As a still further scheme of the utility model: the dustproof baffle is of an L-shaped structure, and the dustproof baffle and the heat conduction port are in one-to-one correspondence.

As a still further scheme of the utility model: the number of the heat conduction fin plates is not less than five groups, and the spacing distances among the heat conduction fin plates are the same.

As a still further scheme of the utility model: the ventilation window is just to heat conduction mechanism's vent position department, and the window frame inside of ventilation window is provided with dustproof mesh enclosure.

Compared with the prior art, the utility model has the beneficial effects that:

the clamp positioning mechanism is used for positioning the clamp of the terminal shell, so that an IDV desktop cloud terminal can be conveniently assembled and positioned by a worker, the clamp positioning mechanism can be fixed on a corresponding platform in a clamp or screw fastening mode, the traditional manual placement mode is replaced, the safety and the usability are improved, meanwhile, the clamp positioning mechanism is convenient to disassemble and carry, and in the using process, the heat conducting mechanism and the ventilation window are matched and combined, so that the mechanical heat generated by the IDV desktop cloud terminal can be quickly exchanged with the outside air for circulation, the heat radiating efficiency of the mechanical heat is improved, and the long-term safety and the usability of the IDV desktop cloud terminal are ensured.

Drawings

Fig. 1 is a schematic structural diagram of an IDV desktop cloud terminal based on a container technology;

fig. 2 is a schematic structural diagram of the inside of an IDV desktop cloud terminal based on a container technology;

fig. 3 is a schematic structural diagram of a card sleeve mechanism in an IDV desktop cloud terminal based on a container technology;

fig. 4 is a schematic structural diagram of a heat conducting mechanism in an IDV desktop cloud terminal based on a container technology.

In the figure: 1. a terminal housing; 2. a ferrule mechanism; 21. installing a plate frame; 22. an elastic pad; 23. clamping a hoop; 24. an arc-shaped cutting sleeve; 25. fastening screw holes; 3. a control panel; 4. a wiring panel; 5. positioning the clamping groove; 6. a terminal body; 7. a heat conducting mechanism; 71. a thermally conductive frame; 72. a heat-conducting fin plate; 73. a circulation tank; 74. a dust-proof baffle plate; 75. a thermally conductive port; 8. a ventilation window.

Detailed Description

Referring to fig. 1 to 4, in the embodiment of the present invention, an IDV desktop cloud terminal based on a container technology includes a terminal housing 1, positioning slots 5 are symmetrically formed in positions on both sides of the middle of the terminal housing 1, the terminal housing 1 is connected to a clip mechanism 2 through the positioning slots 5, the clip mechanism 2 includes a mounting plate frame 21, an elastic gasket 22 is connected to a front end face of the mounting plate frame 21, clips 23 are symmetrically disposed on a front end of the mounting plate frame 21, an arc-shaped clip 24 is disposed on a middle position of a top end of the mounting plate frame 21, fastening screw holes 25 are symmetrically formed in an end face of the arc-shaped clip 24, the mounting plate frame 21, the clips 23, and the arc-shaped clip 24 are all made of PVC material members, the elastic gasket 22 is made of natural rubber material, when the IDV desktop cloud terminal is assembled, the clips 23 are pressed onto the positioning slots 5, carry out interference block location to terminal enclosure 1, synchronous staff is according to site environment to 24 clamps of arc cutting ferrule or fastening screw 25 bolt-up's form, fixes IDV desktop cloud at the job site at the end, and when needs overhaul the work to IDV desktop cloud terminal, through the interference block of clamp 23 with positioning channel section 5, can be convenient for the staff directly take off IDV cloud terminal, carry out maintenance work.

A control panel 3 is arranged on one side of a terminal shell 1, a wiring panel 4 is arranged on the other side of the terminal shell 1, a terminal body 6 is arranged at the position, located at the front end, of the inner side of the terminal shell 1, a heat conduction mechanism 7 is arranged at the position, located at the rear end, of the inner side of the terminal shell 1, the heat conduction mechanism 7 comprises a heat conduction frame 71, heat conduction ports 75 are symmetrically arranged at the upper end and the lower end of the heat conduction frame 71, heat conduction fin plates 72 are symmetrically arranged on the inner side of the heat conduction frame 71, circulation grooves 73 are formed in one side of each heat conduction fin plate 72 at intervals, dustproof baffles 74 are symmetrically arranged at the two ends of each heat conduction fin plate 72, each dustproof baffle 74 is of an L-shaped structure, the dustproof baffles 74 and the heat conduction ports 75 are in one-to-one correspondence, the number of the heat conduction fin plates 72 is not less than five, the interval distances among the heat conduction fin plates 72 are the same, and in the IDV desktop cloud terminal working process, mechanical heat generated by the terminal body 6 is diffused into the circulation grooves 73 of the heat conduction mechanism 7, and then through ventilation of ventilation window 8, under the link-up of heat conduction port 75, make external cold air can circulate in circulation groove 73, carry out heat transfer treatment with the mechanical heat in circulation groove 73, reduce the mechanical heat that IDV desktop cloud terminal produced, and through set up the dust guard 74 of L shape structure on one side of heat conduction port 75, can avoid the dust to get into IDV desktop cloud terminal inside in a large number.

The ventilation window 8 has been seted up just to the both ends of heat conduction mechanism 7 in the upper and lower both ends of terminal shell 1, ventilation window 8 is just to the vent position department of heat conduction mechanism 7, and the inside dust screen that is provided with of window frame of ventilation window 8, through the supporting combination of heat conduction mechanism 7 and ventilation window 8, the mechanical heat that can make IDV desktop cloud terminal produce carries out quick heat transfer circulation with the outside air, improve the radiating efficiency of mechanical heat, ensure IDV desktop cloud terminal's permanent safety nature.

The working principle of the utility model is as follows: when the IDV desktop cloud terminal is assembled, the hoop 23 is pressed on the positioning clamping groove 5 to perform interference clamping positioning on the terminal shell 1, synchronous workers fix the IDV desktop cloud terminal on a working site in the form of arc-shaped clamping sleeves 24 or fastening screw holes 25 fastened by bolts according to a field environment, and when the IDV desktop cloud terminal needs to be overhauled, the IDV desktop cloud terminal can be conveniently taken down by the workers directly through the interference clamping of the hoop 23 and the positioning clamping groove 5 to perform maintenance work, further, in the working process of the IDV desktop cloud terminal, mechanical heat generated by the terminal body 6 is diffused into the circulation groove 73 of the heat conducting mechanism 7, and then through ventilation of the ventilation window 8, under the through of the heat conducting port 75, external cold air can flow in the circulation groove 73 to perform heat exchange treatment with the mechanical heat in the circulation groove 73, reduce the mechanical heat that IDV desktop cloud terminal produced, and through set up the dust guard 74 of L shape structure in heat conduction port 75 one side, can avoid the dust to get into IDV desktop cloud terminal inside in a large number.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the scope of the present invention, and the technical solutions and the utility model concepts of the present invention are equivalent to or changed within the scope of the present invention.

Claims (7)

1. IDV desktop cloud terminal based on container technology, including terminal shell (1), its characterized in that, the middle part of terminal shell (1) is located both sides position department symmetry and has seted up positioning channel groove (5), and terminal shell (1) passes through positioning channel groove (5) and cutting ferrule mechanism (2) clamp connection, one side of terminal shell (1) is provided with controls panel (3), and the opposite side of terminal shell (1) is provided with wiring panel (4), the inboard of terminal shell (1) is located front position department and is provided with terminal body (6), and the inboard of terminal shell (1) is located rear position department and is provided with heat conduction mechanism (7), ventilation window (8) have just been seted up to the both ends of heat conduction mechanism (7) in the upper and lower both ends of terminal shell (1).

2. The IDV desktop cloud terminal based on container technology as claimed in claim 1, wherein the card sleeve mechanism (2) comprises a mounting plate frame (21), the front side end face of the mounting plate frame (21) is connected with an elastic gasket (22), the front side of the mounting plate frame (21) is symmetrically provided with a clamp hoop (23) at the top end position, the rear side of the mounting plate frame (21) is provided with an arc-shaped card sleeve (24) at the top end middle position, and the end face of the arc-shaped card sleeve (24) is symmetrically provided with fastening screw holes (25).

3. The IDV desktop cloud terminal based on container technology as claimed in claim 2, wherein the mounting plate frame (21), the clamping hoop (23) and the arc-shaped clamping sleeve (24) are all made of PVC material, and the elastic gasket (22) is made of natural rubber material.

4. The IDV desktop cloud terminal based on container technology as claimed in claim 1, wherein the heat conducting mechanism (7) comprises a heat conducting frame (71), the upper and lower ends of the heat conducting frame (71) are symmetrically provided with heat conducting ports (75), the inner side of the heat conducting frame (71) is symmetrically provided with heat conducting fin plates (72), one side of the heat conducting fin plates (72) is spaced with a flow groove (73), and the two ends of the heat conducting fin plates (72) are symmetrically provided with dust baffles (74).

5. The IDV desktop cloud terminal based on container technology of claim 4, wherein the dustproof baffle (74) is L-shaped, and the dustproof baffle (74) and the heat conducting ports (75) are in one-to-one correspondence with each other.

6. The IDV desktop cloud terminal based on container technology of claim 4, wherein the number of heat-conducting fins (72) is not less than five groups, and the spacing distance between the heat-conducting fins (72) is the same.

7. The IDV desktop cloud terminal based on container technology as claimed in claim 1, wherein said ventilation window (8) is right opposite to the ventilation opening position of the heat conducting mechanism (7), and a dust screen is arranged inside the window frame of the ventilation window (8).

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