CN211509169U - Novel digital high-definition hybrid matrix - Google Patents

Abstract

The utility model discloses a novel digital high-definition hybrid matrix, which comprises an installation shell, a mainboard, a plurality of input board cards, a plurality of output board cards, a dual-power redundancy module, a dual-network serial port module and a plurality of heat dissipation modules, wherein the mainboard, the plurality of input board cards, the plurality of output board cards, the dual-power redundancy module, the dual-network serial port module and the plurality of; the main board is arranged in the mounting shell along the vertical direction, and the plurality of input board cards and the plurality of output board cards are arranged on one side of the main board in a parallel and laminated manner along the horizontal direction and are electrically connected with the main board; the dual-network serial port module and the dual-power redundancy module are respectively and correspondingly arranged below the input board card and the output board card, and a heat dissipation module is respectively arranged at one end, away from each other, of the input board card and the output board card. The utility model discloses can realize the incessant heat dissipation to matrix inner space, the radiating effect is good, simultaneously, whole reasonable in design, compact structure, and input integrated circuit board, output integrated circuit board and heat dissipation module all adopt the mode of plug to install in the installation casing, the installation is simple, dismantle convenient, the maintenance of being convenient for, the practicality is strong.

Description

Novel digital high-definition hybrid matrix

Technical Field

The utility model relates to a digit high definition hybrid matrix technical field especially relates to a novel digit high definition hybrid matrix.

Background

The high-definition hybrid matrix is a high-performance high-definition video signal switching device and supports multi-channel signal input and multi-channel signal output. The matrix is used for the input and output exchange of a plurality of high-definition digital signals, any one path of signal output can freely select any one path of signal source without interfering other output, the signal transmission attenuation is reduced to the minimum, and the image and sound signals can be output in high fidelity. The existing high-definition hybrid matrix generally has the defects of complex installation, inconvenient maintenance, poor heat dissipation effect, disordered structure and the like.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a novel digit high definition mixes matrix, this mix matrix inner space is great, can place a plurality of input integrated circuit boards and a plurality of output integrated circuit boards respectively, and respectively arrange a heat dissipation module at the both ends of matrix, can realize the incessant heat dissipation to matrix inner space, the radiating effect is good, and simultaneously, overall design is reasonable, compact structure, and the mode that input integrated circuit board, output integrated circuit board and heat dissipation module all adopted the plug is installed in the installation casing, the installation is simple, it is convenient to dismantle, be convenient for maintain, therefore, the clothes hanger is strong in practicability.

In order to realize the purpose, the following technical scheme is adopted:

a novel digital high-definition hybrid matrix comprises an installation shell, a mainboard, a plurality of input board cards, a plurality of output board cards, a dual-power redundancy module, a dual-network serial port module and a plurality of heat dissipation modules, wherein the mainboard, the plurality of input board cards, the plurality of output board cards, the dual-power redundancy module, the dual-network serial port module and the plurality of heat dissipation; the main board is arranged in the mounting shell along the vertical direction, and the plurality of input board cards and the plurality of output board cards are arranged on one side of the main board in a parallel and laminated manner along the horizontal direction and are electrically connected with the main board; the dual-network serial port module and the dual-power redundancy module are respectively and correspondingly arranged below the input board card and the output board card, and one ends, far away from each other, of the input board card and the output board card are respectively provided with a heat dissipation module; the mainboard is also respectively electrically connected with the two heat dissipation modules, the dual-network serial port module and the dual-power redundancy module, and the dual-power redundancy module and the heat dissipation module are respectively used for supplying power and dissipating heat for the whole hybrid matrix.

Further, the mounting shell comprises a front plate, a rear plate and two side plates, wherein the front plate and the rear plate are arranged in parallel and at intervals, and the two side plates are arranged between the front plate and the rear plate; an installation cavity is defined between the front plate, the rear plate and the two side plates, and the main plate, the plurality of input board cards, the plurality of output board cards, the dual-power redundancy module, the dual-network serial port module and the two heat dissipation modules are all arranged in the installation cavity.

Furthermore, the mounting shell also comprises a mounting plate, and the mounting plate is arranged between the two side plates in parallel with the front plate; the main board is arranged on one side, close to the rear board, of the mounting board, and a plurality of first sockets are correspondingly arranged in parallel on one side, opposite to the rear board, of the main board in the vertical direction; each first socket is provided with a first slot along the horizontal direction, and a plurality of input board cards and a plurality of output board cards are inserted between the main board and the rear board in a stacking mode through the first slots on the main board and the rear board.

Furthermore, second sockets are respectively and correspondingly arranged at two ends of one side of the main board opposite to the rear board, and each second socket is also provided with a second slot along the vertical direction; each heat dissipation module comprises a heat dissipation plate and a plurality of heat dissipation fans arranged on the heat dissipation plate, and the heat dissipation plate of each heat dissipation module is inserted between the main plate and the rear plate through the second slots on the main plate and the rear plate.

Furthermore, the two side plates are respectively and correspondingly provided with a plurality of heat dissipation holes for dissipating heat to the outside.

Furthermore, a display module and a plurality of key modules electrically connected with the main board are arranged on the outer side of the front board, and handles are respectively arranged at two ends of the outer side of the front board.

Adopt above-mentioned scheme, the beneficial effects of the utility model are that:

1) the integrated heat dissipation module is reasonable in overall design and compact in structure, the input board card, the output board card and the heat dissipation module are installed in the installation shell in a plugging mode, and the integrated heat dissipation module is simple to install, convenient to detach and maintain and high in practicability;

2) the heat dissipation modules are respectively arranged at the two ends of the installation shell, so that air convection is formed inside the installation shell, the internal operation temperature of the installation shell can be greatly reduced, and the service life of a product is effectively prolonged;

3) the dual-power redundancy module is tiled below the output board card, so that signal interference can be avoided, and the stability of signal transmission is ensured.

Drawings

Fig. 1 is a perspective view of the present invention;

FIG. 2 is a perspective view of FIG. 1 with front and side panels omitted;

wherein the figures identify the description:

1, mounting a shell; 2, a main board;

3, inputting a board card; 4, outputting a board card;

5-dual power redundancy module; 6-double network serial port module;

7-heat dissipation module; 11-front panel;

12-a rear panel; 13-side plate;

14-a mounting plate; 71-heat sink plate;

72-radiator fan; 111-a display module;

112-key module; 113-handle;

131-heat dissipation holes; 141 — a first socket;

142 — a second receptacle.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings and specific embodiments.

Referring to fig. 1 to 2, the utility model provides a novel digital high-definition hybrid matrix, which comprises an installation shell 1, a mainboard 2 arranged in the installation shell 1, a plurality of input board cards 3, a plurality of output board cards 4, a dual-power redundancy module 5, a dual-network serial port module 6 and a plurality of heat dissipation modules 7; the main board 2 is installed in the installation shell 1 along the vertical direction, and the plurality of input board cards 3 and the plurality of output board cards 4 are parallelly and hierarchically arranged on one side of the main board 2 along the horizontal direction and are electrically connected with the main board 2; the dual-network serial port module 6 and the dual-power redundancy module 5 are respectively and correspondingly arranged below the input board card 3 and the output board card 4, and a heat dissipation module 7 is respectively arranged at one end, away from each other, of the input board card 3 and the output board card 4; the mainboard 2 is also electrically connected with two heat dissipation modules 7, a dual-network serial port module 6 and a dual-power redundancy module 5 respectively, and the dual-power redundancy module 5 and the heat dissipation module 7 are used for supplying power and dissipating heat for the whole hybrid matrix respectively.

With reference to fig. 1-2, in this embodiment, an input board card 3 is located on the left side of fig. 2, an output board card 4 is located on the right side of fig. 2, the input board cards 3 and the output board cards 4 are stacked in parallel in the mounting housing 1, each input board card 3 is designed to input 4 paths, and each output board card 4 is designed to output 4 paths; the dual-power redundancy module 5 and the dual-network serial port module 6(RS232 serial port plate) are respectively and correspondingly paved below the output board card 4 and the input board card 3, so that the interference of a power supply to signals can be effectively isolated, and the stability of signal transmission is ensured; the dual-power redundancy module 5 is electrically connected with the mainboard 2 through a power supply flat cable, and the dual-power design can ensure the power-on stability of the hybrid matrix and avoid the influence on the normal work of a product due to the damage of one power supply; two heat dissipation module 7 arrange respectively in the one end that input integrated circuit board 3 and output integrated circuit board 4 kept away from each other, can make the inside air convection that forms of installation casing 1, can reduce the inside operating temperature of installation casing 1 by a wide margin, prolong product life effectively.

Specifically, the mounting shell 1 comprises a front plate 11, a rear plate 12 arranged in parallel and at a distance, and two side plates 13 arranged between the front plate 11 and the rear plate 12; a mounting cavity is defined by the front plate 11, the rear plate 12 and the two side plates 13, and the main plate 2, the input board cards 3, the output board cards 4, the dual-power redundancy module 5, the dual-network serial port module 6 and the two heat dissipation modules 7 are all arranged in the mounting cavity. The installation cavity has a large internal space, and can be used for placing a plurality of input board cards 3 and a plurality of output board cards 4 respectively, so that the input board cards 3 and the output board cards 4 can be conveniently installed; a display module 111 (display screen) and a plurality of key modules 112 which are electrically connected with the main board 2 are arranged on the outer side of the front board 11 and can be used for controlling and debugging the mixed matrix, and two handles 113 are respectively arranged at two ends of the outer side of the front board 11, so that the mixed matrix is convenient to carry and install; the back plate 12 is a function plate through which different devices can be accessed into the mixing matrix.

Specifically, the mounting shell 1 further comprises a mounting plate 14, wherein the mounting plate 14 is arranged between the two side plates 13 in parallel with the front plate 11; the main board 2 is arranged on one side of the mounting plate 14 close to the rear plate 12, and a plurality of first sockets 141 are correspondingly arranged in parallel on one side of the main board 2 opposite to the rear plate 12 in the vertical direction; each first socket 141 is provided with a first slot along the horizontal direction, and the plurality of input board cards 3 and the plurality of output board cards 4 are inserted between the main board 2 and the rear board 12 in a stacking manner through the first slots on the main board 2 and the rear board 12; two ends of one side of the main board 2 opposite to the rear board 12 are respectively and correspondingly provided with a second socket 142, and each second socket 142 is also provided with a second slot along the vertical direction; each heat dissipation module 7 comprises a heat dissipation plate 71 and a plurality of heat dissipation fans 72 arranged on the heat dissipation plate 71, and the heat dissipation plate 71 of each heat dissipation module 7 is inserted between the main board 2 and the rear board 12 through the second slots on the main board 2 and the rear board 12; the two side plates 13 are further respectively and correspondingly provided with a plurality of heat dissipation holes 131 for dissipating heat to the outside. The input board card 3, the output board card 4 and the heat dissipation module 7 are installed in the installation shell 1 in a plugging mode, so that the installation is simple, the disassembly is convenient, and the maintenance is convenient; each heat dissipation module 7 is provided with two heat dissipation fans 72, air convection is formed between the heat dissipation fans 72 of the two heat dissipation modules and the outside through the heat dissipation holes 131, heat generated during the operation of the product can be dissipated to the outside in time, cooling of the inside of the installation shell 1 is realized, and the service life of the product is prolonged.

The above description is only exemplary of the present invention and should not be construed as limiting the present invention, and any modifications, equivalents and improvements made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (6)

1. A novel digital high-definition hybrid matrix is characterized by comprising an installation shell, a mainboard, a plurality of input board cards, a plurality of output board cards, a dual-power redundancy module, a dual-network serial port module and a plurality of heat dissipation modules, wherein the mainboard, the plurality of input board cards, the plurality of output board cards, the dual-power redundancy module, the dual-network serial port module and the plurality of heat dissipation modules; the main board is arranged in the mounting shell along the vertical direction, and the plurality of input board cards and the plurality of output board cards are arranged on one side of the main board in a parallel and laminated manner along the horizontal direction and are electrically connected with the main board; the dual-network serial port module and the dual-power redundancy module are respectively and correspondingly arranged below the input board card and the output board card, and one ends, far away from each other, of the input board card and the output board card are respectively provided with a heat dissipation module; the mainboard is also respectively electrically connected with the two heat dissipation modules, the dual-network serial port module and the dual-power redundancy module, and the dual-power redundancy module and the heat dissipation module are respectively used for supplying power and dissipating heat for the whole hybrid matrix.

2. The novel digital high definition hybrid matrix according to claim 1, wherein said mounting housing comprises a front plate, a back plate arranged in parallel and spaced apart from each other, and two side plates arranged between the front plate and the back plate; an installation cavity is defined between the front plate, the rear plate and the two side plates, and the main plate, the plurality of input board cards, the plurality of output board cards, the dual-power redundancy module, the dual-network serial port module and the two heat dissipation modules are all arranged in the installation cavity.

3. The novel digital high definition hybrid matrix according to claim 2, wherein said mounting housing further comprises a mounting plate disposed parallel to the front plate between the two side plates; the main board is arranged on one side, close to the rear board, of the mounting board, and a plurality of first sockets are correspondingly arranged in parallel on one side, opposite to the rear board, of the main board in the vertical direction; each first socket is provided with a first slot along the horizontal direction, and a plurality of input board cards and a plurality of output board cards are inserted between the main board and the rear board in a stacking mode through the first slots on the main board and the rear board.

4. The novel digital high-definition hybrid matrix according to claim 3, wherein second sockets are respectively arranged at two ends of one side of the main board opposite to the rear board, and each second socket is further provided with a second slot along the vertical direction; each heat dissipation module comprises a heat dissipation plate and a plurality of heat dissipation fans arranged on the heat dissipation plate, and the heat dissipation plate of each heat dissipation module is inserted between the main plate and the rear plate through the second slots on the main plate and the rear plate.

5. The novel digital high-definition hybrid matrix according to claim 4, wherein a plurality of heat dissipation holes are correspondingly formed on the two side plates for dissipating heat to the outside.

6. The new digital high-definition hybrid matrix as claimed in claim 2, wherein a display module and a plurality of key modules electrically connected to the main board are disposed on the outer side of the front board, and a handle is disposed at each of the two ends of the outer side of the front board.

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