CN215682499U - Distributed input node device - Google Patents

Abstract

The utility model provides a distributed input node device, and relates to the technical field of node devices. This distributed input node device, including the node device shell, node device shell openly upper end is equipped with the input node interface, the node device shell is close to input node interface one side upper end and is equipped with first node pilot lamp, the node device shell is close to first node pilot lamp one side and keeps away from input node interface one end and is equipped with the output node interface, the node device shell is close to output node interface one side and is equipped with the second node pilot lamp, the node device shell is close to input node interface one side and keeps away from input node interface one end and is equipped with epitaxial plate piece, epitaxial plate piece keeps away from node device shell one side upper end and is equipped with control switch, epitaxial plate piece is close to control switch one side lower extreme and is equipped with reset switch. This distributed input node device, pivot and heat dissipation fan can dispel the heat to node device inside to reduce the mainboard temperature, improve its efficiency.

Description

Distributed input node device

Technical Field

The utility model relates to the technical field of node devices, in particular to a distributed input node device.

Background

At present, in some data centers, the architectures of traditional storage, switch networks and servers are still used, or some similar distributed architectures are realized based on installing corresponding storage virtualization software in an operating system, the output and the input of distributed nodes are switched and transmitted by using a switch, and the switch is provided with a plurality of input and output node connections.

The input node device has the following disadvantages in actual operation:

1. heat is generated during operation.

2. The fixation is inconvenient.

Therefore, a distributed input node apparatus is desired to solve the above-mentioned problems.

SUMMERY OF THE UTILITY MODEL

The present invention provides a distributed input node device, in which a rotating shaft and a heat dissipation fan can dissipate heat inside the node device, thereby reducing the temperature of a motherboard and improving the efficiency thereof.

In order to achieve the purpose, the utility model is realized by the following technical scheme: a distributed input node device comprises a node device shell, an input node interface, a first node indicator lamp, an upper end cover plate, a fixing screw, a first side end cover plate, a heat dissipation hole, a control switch, an epitaxial plate, a reset switch, a second side end cover plate, a circuit interface, a back positioning block, a back connecting block, a fixing slider, a fixing hole, a circuit board, a heat dissipation fan, a rotating shaft, a second node indicator lamp and an output node interface, wherein the input node interface is arranged at the upper end of the front side of the node device shell, the first node indicator lamp is arranged at the upper end of the side of the node device shell, which is close to the input node interface, the output node interface is arranged at the end of the node device shell, which is close to the input node interface, far away from the input node interface, the second node indicator lamp is arranged at the side of the node device shell, which is close to the input node interface, the epitaxial plate is arranged at the end of the node device shell, which is close to the input node interface, the upper end of one side of the epitaxial plate block, which is far away from the node device shell, is provided with a control switch, the lower end of one side of the epitaxial plate block, which is close to the control switch, is provided with a reset switch, one side of the node device shell is provided with a first side end cover plate, one side of the first side end cover plate, which is far away from the node device shell, is provided with a heat dissipation hole, the upper end of the node device shell is provided with an upper end cover plate, one side of the upper end cover plate, which is far away from the node device shell, is provided with a fixing screw, one side of the node device shell, which is far away from the first side end cover plate, is provided with a second side end cover plate, one side of the second side cover plate, which is far away from the node device shell, is provided with a circuit interface, one end of the node device shell, which is far away from the epitaxial plate block is provided with a back positioning block, one end of the node device shell, which is near to the back positioning block, is provided with a fixing slide block, the node device comprises a fixed sliding block, a circuit board, a first side end cover plate and a second side end cover plate, wherein a fixed hole is formed in one side of the fixed sliding block, the circuit board is arranged at the middle end inside a node device shell, a rotating shaft is arranged at the middle end of one side, close to the node device shell, of the first side end cover plate, and a cooling fan is arranged at one end, far away from the first side end cover plate, of the rotating shaft.

The input node interface is inlayed with node device shell openly upper end and is connected, first node pilot lamp is inlayed with node device shell and is connected near input node interface one side upper end, the output node interface is inlayed with node device shell and is connected near input node interface one end of keeping away from on one side of first node pilot lamp, second node pilot lamp is inlayed with node device shell and is connected near output node interface one side.

The extension plate is connected with one end, close to the input node interface, of the node device shell, far away from the input node interface in an embedded mode, the upper end, close to the input node interface, of the control switch and the extension plate is far away from the upper end of one side of the node device shell, and the lower end, close to the control switch, of the reset switch and the extension plate is connected with the lower end of one side of the extension plate.

The first side end cover plate is embedded and connected with one side of the node device shell, the heat dissipation holes are embedded and connected with one side, away from the node device shell, of the first side end cover plate, the upper end cover plate is embedded and connected with the upper end of the node device shell, and the fixing screws and the upper end cover plate are fixedly connected with one side, away from the node device shell, of the upper end cover plate.

The second side end cover plate node device shell is far away from one side of the first side end cover plate and is connected in an embedded mode, and the line interface and the second side end cover plate are connected in an embedded mode and are far away from one side of the node device shell.

The back positioning block is fixedly connected with one end, far away from the epitaxial plate, of the node device shell, the back connecting block is fixedly connected with one end, close to the back positioning block, of the node device shell, far away from the back positioning block, the fixing slide block is slidably connected with one side, far away from the node device shell, of the back connecting block, and the fixing slide block is connected with one side, far away from the node device shell, of the fixing hole in an embedded mode.

The circuit board is fixedly connected with the middle end inside the node device shell, the rotating shaft is fixedly connected with the middle end of one side, close to the node device shell, of the first side end cover plate, and the cooling fan is rotatably connected with one end, far away from the first side end cover plate, of the rotating shaft.

The utility model provides a distributed input node device. The method has the following beneficial effects:

1. the utility model can radiate the inside of the node device through the rotating shaft and the radiating fan, thereby reducing the temperature of the mainboard and improving the efficiency of the mainboard.

2. The utility model is convenient to fix the back connecting block and the back connecting block.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of a first structure of the present invention;

FIG. 3 is a second schematic structural view of the present invention;

FIG. 4 is a schematic diagram of a third structure of the present invention.

In the figure: the device comprises a 1 node device shell, 2 input node interfaces, 3 first node indicator lamps, 4 upper end cover plates, 5 fixing screws, 6 first side end cover plates, 7 heat dissipation holes, 8 control switches, 9 epitaxial plates, 10 reset switches, 11 second side end cover plates, 12 line interfaces, 13 back positioning blocks, 14 back connecting blocks, 15 back connecting blocks, 16 fixing holes, 17 circuit boards, 18 heat dissipation fans, 19 rotating shafts, 20 second node indicator lamps and 21 output node interfaces.

Detailed Description

As shown in fig. 1-4, a distributed input node device includes a node device housing 1, an input node interface 2, a first node indicator light 3, an upper end cover plate 4, a fixing screw 5, a first side end cover plate 6, a heat dissipation hole 7, a control switch 8, an epitaxial plate 9, a reset switch 10, a second side end cover plate 11, a circuit interface 12, a back positioning block 13, a back connecting block 14, a fixing slider 15, a fixing hole 16, a circuit board 17, a heat dissipation fan 18, a rotating shaft 19, a second node indicator light 20, and an output node interface 21, wherein the upper end of the front of the node device housing 1 is provided with the input node interface 2, the upper end of the node device housing 1 near the input node interface 2 is provided with the first node indicator light 3, the end of the node device housing 1 near the first node indicator light 3 far from the input node interface 2 is provided with the output node interface 21, the side of the node device housing 1 near the output node interface 21 is provided with the second node indicator light 20, an epitaxial plate 9 is arranged at one end of a node device shell 1, which is close to an input node interface 2 and is far away from the input node interface 2, a control switch 8 is arranged at the upper end of one side of the epitaxial plate 9, which is far away from the node device shell 1, a reset switch 10 is arranged at the lower end of one side of the epitaxial plate 9, which is close to the control switch 8, a first side end cover plate 6 is arranged at one side of the node device shell 1, a heat dissipation hole 7 is arranged at one side of the first side end cover plate 6, which is far away from the node device shell 1, an upper end cover plate 4 is arranged at the upper end of the node device shell 1, a fixing screw 5 is arranged at one side of the upper end cover plate 4, which is far away from the node device shell 1, a second side end cover plate 11 is arranged at one side of the node device shell 1, which is far away from the first side end cover plate 6, a circuit interface 12 is arranged at one side of the second side cover plate 11, which is far away from the node device shell 1, a back positioning block 13 is far away from the end of the epitaxial plate 9, a back positioning block 14 is arranged at one side of the node device shell 1, which is close to the back positioning block 13, the back connecting block 14 is provided with a fixed sliding block 15 on one side far away from the node device shell 1, a fixed hole 16 is formed in one side of the fixed sliding block 15, a circuit board 17 is arranged at the middle end inside the node device shell 1, a rotating shaft 19 is arranged at the middle end of one side, close to the node device shell 1, of the first side end cover plate 6, and a cooling fan is arranged at one end, far away from the first side end cover plate 6, of the rotating shaft 19.

The input node interface 2 is inlayed with the positive upper end of node device shell 1 and is connected, and first node pilot lamp 3 is inlayed with node device shell 1 and is connected near input node interface 2 one side upper end, and output node interface 21 is inlayed with node device shell 1 and is connected near the one end that input node interface 2 was kept away from to first node pilot lamp 3 one side and is connected, and second node pilot lamp 20 is inlayed with node device shell 1 and is connected near output node interface 21 one side.

Epitaxial plate 9 is connected with node device shell 1 and is close to input node interface 2 one side and keeps away from input node interface 2 one end inlay, and control switch 8 keeps away from node device shell 1 one side upper end with epitaxial plate 9, and reset switch 10 is close to control switch 8 one side lower extreme with epitaxial plate 9.

First side end cover plate 6 is inlayed with node device shell 1 one side and is connected, and louvre 7 is inlayed with first side end cover plate 6 and is kept away from node device shell 1 one side and is connected, and upper end cover plate 4 is inlayed with node device shell 1 upper end and is connected, and fixed screw 5 is equipped with fixed connection with upper end cover plate 4 and keeps away from node device shell 1 one side.

The side, far away from the first side end cover plate 6, of the second side end cover plate 11 node device shell 1 is connected in an embedded mode, and the line interface 12 and the side, far away from the node device shell 1, of the second side end cover plate 11 are connected in an embedded mode.

The back positioning block 13 is fixedly connected with one end, far away from the epitaxial plate 9, of the node device shell 1, the back connecting block 14 is fixedly connected with one end, far away from the back positioning block 13, of the node device shell 1, the side, close to the back positioning block 13, of the node device shell, the fixing slide block 15 is in sliding connection with the back connecting block 14, one side, far away from the node device shell 1, of the fixing slide block 15 is connected with one side, far away from the epitaxial plate 9, of the fixing hole 16 in an embedded mode.

The circuit board 17 is fixedly connected with the middle end inside the node device shell 1, the rotating shaft 19 is fixedly connected with the middle end of one side, close to the node device shell 1, of the first side end cover plate 6, and the cooling fan is rotatably connected with one end, far away from the first side end cover plate 6, of the rotating shaft 19.

When the circuit board is used, the circuit interface 12 is electrically connected with an external circuit, the fixed sliding block 15 is fixed on a wall, the fixed sliding block 15 is fixed on the wall through the fixing hole 16 by using a bolt, the fixed sliding block 15 is connected with the back connecting block 14, the input node interface 2 and the output node interface 21 are connected with the external circuit, and the heat dissipation fan 18 is arranged inside the circuit board 17 for dissipating heat.

Claims (7)

1. The utility model provides a distributed input node device, including node device shell (1), input node interface (2), first node pilot lamp (3), upper end cover plate (4), fixed screw (5), first side end cover plate (6), louvre (7), control switch (8), epitaxial plate piece (9), reset switch (10), second side end cover plate (11), line interface (12), back locating piece (13), back connecting block (14), fixed sliding block (15), fixed orifices (16), circuit board (17), heat dissipation fan (18), pivot (19), second node pilot lamp (20), output node interface (21), its characterized in that: an input node interface (2) is arranged at the upper end of the front face of the node device shell (1), a first node indicator lamp (3) is arranged at the upper end of one side, close to the input node interface (2), of the node device shell (1), an output node interface (21) is arranged at one end, close to the first node indicator lamp (3), of the node device shell (1), far away from the input node interface (2), a second node indicator lamp (20) is arranged at one side, close to the output node interface (21), of the node device shell (1), an epitaxial plate block (9) is arranged at one end, close to the input node interface (2), of the node device shell (1), far away from the input node interface (2), of the epitaxial plate block (9), a control switch (8) is arranged at the upper end of one side, far away from the node device shell (1), of the epitaxial plate block (9), a reset switch (10) is arranged at the lower end of one side, close to the control switch (8), of the epitaxial plate block (9), a first side end cover plate (6) is arranged on one side of the node device shell (1), a heat dissipation hole (7) is formed in one side, away from the node device shell (1), of the first side end cover plate (6), an upper end cover plate (4) is arranged at the upper end of the node device shell (1), a fixing screw (5) is arranged on one side, away from the node device shell (1), of the upper end cover plate (4), a second side end cover plate (11) is arranged on one side, away from the first side end cover plate (6), of the node device shell (1), a circuit interface (12) is arranged on one side, away from the node device shell (1), of the second side end cover plate (11), a back positioning block (13) is arranged at one end, away from the epitaxial plate (9), of the node device shell (1), close to the back positioning block (13), and a back connecting block (14) is arranged at one end, away from the back positioning block (13), of the node device shell (1), keep away from node device shell (1) one side in back connecting block (14) and be equipped with solid fixed sliding block (15), gu fixed sliding block (15) one side is equipped with fixed orifices (16), node device shell (1) inside middle-end is equipped with circuit board (17), first side end cover board (6) are close to node device shell (1) one side middle-end and are equipped with pivot (19), first side end cover board (6) one end is kept away from in pivot (19) is equipped with radiator fan.

2. A distributed input node arrangement according to claim 1, characterized by: input node interface (2) and node device shell (1) openly upper end inlay and be connected, first node pilot lamp (3) are close to input node interface (2) one side upper end with node device shell (1) and are inlayed and be connected, output node interface (21) are close to first node pilot lamp (3) one side with node device shell (1) and keep away from input node interface (2) one end and inlay and be connected, second node pilot lamp (20) are close to output node interface (21) one side with node device shell (1) and are inlayed and be connected.

3. A distributed input node arrangement according to claim 1, characterized by: epitaxial plate piece (9) and node device shell (1) are close to input node interface (2) one side and keep away from input node interface (2) one end and inlay the connection, node device shell (1) one side upper end is kept away from with epitaxial plate piece (9) control switch (8), reset switch (10) and epitaxial plate piece (9) are close to control switch (8) one side lower extreme.

4. A distributed input node arrangement according to claim 1, characterized by: first side end cover board (6) are inlayed with node device shell (1) one side and are connected, louvre (7) are inlayed with first side end cover board (6) and are kept away from node device shell (1) one side and are connected, upper end cover board (4) are inlayed with node device shell (1) upper end and are connected, fixed screw (5) are equipped with fixed connection with upper end cover board (4) keep away from node device shell (1) one side.

5. A distributed input node arrangement according to claim 1, characterized by: the second side end cover plate (11) and the node device shell (1) are connected in an embedded mode on the side far away from the first side end cover plate (6), and the line interface (12) and the second side end cover plate (11) are connected in an embedded mode on the side far away from the node device shell (1).

6. A distributed input node arrangement according to claim 1, characterized by: the back positioning block (13) and the node device shell (1) are fixedly connected with one end, far away from the epitaxial plate (9), of the node device shell, the back connecting block (14) and one side, close to the back positioning block (13), of the node device shell (1) are fixedly connected with one end, far away from the back positioning block (13), of the node device shell, the fixing slide block (15) and the back connecting block (14) are connected in a sliding mode, and the fixing slide block (15) of the fixing hole (16) is connected in an embedded mode.

7. A distributed input node arrangement according to claim 1, characterized by: circuit board (17) and the inside middle-end fixed connection of node device shell (1), pivot (19) and first side end cover board (6) are close to node device shell (1) one side middle-end fixed connection, radiator fan keeps away from first side end cover board (6) one end rotation with pivot (19) and is connected.

Images