CN115135116A

CN115135116A - DTU equipment with multi-information perception and edge computing capability

Info

Publication number: CN115135116A
Application number: CN202210871047.XA
Authority: CN
Inventors: 林恺丰; 李一鸣; 苏毅方; 王凯; 张波; 杨昶宇
Original assignee: Jinhua Power Supply Co of State Grid Zhejiang Electric Power Co Ltd
Current assignee: Jinhua Power Supply Co of State Grid Zhejiang Electric Power Co Ltd
Priority date: 2022-07-23
Filing date: 2022-07-23
Publication date: 2022-09-30
Anticipated expiration: 2042-07-23
Also published as: CN115135116B

Abstract

The invention discloses a DTU device with multi-information perception and edge computing capabilities, belonging to the field of DTU devices, a DTU device with multi-information perception and edge computing capabilities, comprising a cabinet, a heat dissipation mechanism, a transmission mechanism and a cooling mechanism, In this scheme, the wind is radiated through the heat dissipation mechanism, and the equipment on the transmission mechanism is blown to dissipate heat through the transmission mechanism, and then the hollow net discharges the heat to complete the heat dissipation of the equipment on the transmission mechanism, and the cold air blown by the transmission mechanism simultaneously The cooling mechanism will also cool down and dissipate heat, and the cooling mechanism will also be cooled twice by the cooling mechanism, so that the cooling mechanism can maintain an efficient operating state, which can enhance the heat dissipation effect inside the special cabinet, so that the equipment can be used in After being placed separately, the influence of high temperature is reduced and the entry of dust can be effectively reduced, so as to maintain the original work efficiency and stability.

Description

DTU equipment with multi-information perception and edge computing capability

Technical Field

The invention relates to the field of DTU (data transfer unit) equipment, in particular to DTU equipment with multi-information perception and edge computing capability.

Background

The DTU is a wireless terminal device which is specially used for converting serial port data into IP data or converting the IP data into the serial port data and transmitting the serial port data through a wireless communication network, the DTU is widely applied to industries such as meteorology, hydrology and water conservancy, geology and the like, and the data transmission unit DTU is a wireless terminal device which is specially used for converting the serial port data into the IP data or converting the IP data into the serial port data and transmitting the serial port data through the wireless communication network.

In the prior art, the DTU device terminal is placed in a dedicated cabinet, and in order to facilitate the use and maintenance of the device, the power storage power supply and the information processing terminal are generally placed separately, but the heat dissipation effect inside the dedicated cabinet is poor after the storage power supply and the information processing terminal are placed separately, so that the working efficiency of the device and the safety of the device may be reduced due to high temperature.

Disclosure of Invention

Aiming at the problems in the prior art, the invention aims to provide DTU equipment with multi-information perception and edge calculation capacity, wind power is emitted through a heat dissipation mechanism (2), air blowing and heat dissipation are carried out on the equipment on the transmission mechanism (3) through the transmission mechanism (3), then heat is discharged through a hollow net (11) to complete heat dissipation on the equipment on the transmission mechanism (3), cold air blown out by the transmission mechanism (3) can carry out cooling and heat dissipation on a cooling mechanism (4) at the same time, and the cooling mechanism (4) can carry out secondary cooling on the cooling mechanism (4) through the heat dissipation mechanism (2), so that the cooling mechanism (4) can keep an efficient operation state; can realize strengthening the inside radiating effect of special cabinet, make equipment separately place the back, reduce the entering that receives the influence of high temperature and can effectual reduction dust to this keeps original work efficiency and stability.

In order to solve the above problems, the present invention adopts the following technical solutions.

A DTU device with multi-information sensing and edge computing capabilities comprises a cabinet body, a heat dissipation mechanism, a transmission mechanism and a cooling mechanism;

a pair of symmetrical hollowed-out nets is embedded at the outer end of the cabinet body and is positioned at the outer side of the transmission mechanism;

the cooling mechanism is arranged in the cabinet body and is positioned at the lower side of the transmission mechanism;

wind power is distributed through the heat dissipation mechanism, air is discharged through the transmission mechanism to blow air to dissipate heat of equipment on the transmission mechanism, then the hollow net discharges heat to finish heat dissipation of the equipment on the transmission mechanism, air conditioning blown out by the transmission mechanism can cool the cooling mechanism and dissipate heat at the same time, and the cooling mechanism can also cool the cooling mechanism for the second time through the heat dissipation mechanism, so that the cooling mechanism can keep an efficient running state, the heat dissipation effect inside the special cabinet can be enhanced, after the equipment is placed separately, the influence of high temperature is reduced, and the entering of dust can be effectively reduced, and the original working efficiency and stability are kept.

Preferably, the heat dissipation mechanism comprises a storage frame, an air cooling device, a liquid cooling device, a connecting pipe and a guide pipe;

store frame fixed mounting on the internal top of the cabinet body, air cooling equipment and liquid cooling equipment symmetric distribution are in storing the frame, connecting pipe quantity is a plurality of, and symmetric distribution is at the lower extreme of storing the frame, and is a plurality of the connecting pipe all communicates with air cooling equipment, pipe quantity is two, and the equidistance distributes at the lower extreme of storing the frame, and communicates with liquid cooling equipment mutually.

Preferably, the transmission mechanism comprises a protection mechanism, a transmission frame, a bearing pipe frame and a spray head;

the transmission frame is located the lower extreme of storing the frame, and switches on mutually with the connecting pipe, protection machanism quantity is a plurality ofly, and evenly distributed is in the outer end of transmission frame, bear pipe support fixed connection at the lower extreme of transmission frame, and with fretwork net inner wall fixed connection, shower nozzle quantity is a plurality of, and the equidistance distributes at the up end that bears the pipe support, the shower nozzle is linked together with protection machanism through bearing the pipe support.

Preferably, the protection mechanism comprises a fixed frame, a driving module, an electric telescopic rod, a fire extinguishing ball, a first baffle, a transmission pipe and a second baffle;

the fire extinguishing ball transmission device comprises a driving module, an electric telescopic rod, a transmission pipe, a transmission frame and a transmission shaft, wherein the driving module is fixedly arranged at the inner top end of the driving module, the electric telescopic rod is fixedly connected to the lower end of the driving module and vertically moves along the length of the fixing frame, the fire extinguishing ball is arranged in the fixing frame and is positioned at the lower side of the electric telescopic rod, the transmission pipe is inserted at the lower end of the fixing frame and penetrates through the fixing frame to be communicated with the lower end of the fire extinguishing ball, and the transmission pipe is embedded at the outer end of the transmission frame; the first blocking piece is arranged at the joint of the transmission pipe and the fire extinguishing ball, and the second blocking piece is arranged in the transmission pipe and is positioned at the lower side of the first blocking piece.

Preferably, the cooling mechanism comprises a placing box, an electric power storage pack, a cooling component and a through hole;

the storage box is arranged at the inner bottom end of the cabinet body, the storage power supply pack is installed in the storage box, the cooling component is installed in the storage box, the number of the through holes is multiple, the through holes are distributed in the outer end of the storage box in an equidistant mode, and the through holes are located on the lower side of the cooling component.

Preferably, the cooling part comprises a heat conducting plate and a radiating pipe; the heat conducting plates are distributed on the inner wall of the placing box at equal intervals and positioned at the outer end of the power storage pack; the radiating tubes are distributed in the placing box vertically and penetrate through the heat conducting plate, and the outer ends of the radiating tubes are communicated with the guide tubes.

Preferably, the fire extinguishing ball consists of a small bag and a big bag; the small bag is positioned at the upper end of the big bag, and a sealing sheet is arranged at the joint of the small bag and the big bag; the big bag is filled with fire extinguishing agent, and the small bag is filled with gas.

Preferably, the inner wall of the cabinet body is fixedly connected with a fire extinguishing sensor, and the fire extinguishing sensor is located on the outer side of the cooling mechanism and is electrically connected with the driving module.

Preferably, the heat-conducting plate comprises semiconductor refrigeration piece and diamond plate, semiconductor refrigeration piece fixed mounting places between box and the electric power storage power supply package, diamond plate inlays to be established in placing the box, and diamond plate and semiconductor refrigeration piece install in the outer end of cooling tube, and be the clamping state.

Compared with the prior art, the invention has the advantages that:

one, this scheme gives out wind-force through heat dissipation mechanism, and blow the heat dissipation through the equipment of transmission device on the transmission device, then the fretwork net discharges the heat with this completion to the heat dissipation of equipment on the transmission device, and the air conditioning that transmission device blew off also can be to the heat dissipation of cooling down of mechanism simultaneously, and cooling down mechanism still can carry out the secondary cooling to it by heat dissipation mechanism, thereby make the efficient running state that cooling down mechanism can keep, can realize the inside radiating effect of reinforcing special cabinet, make equipment separately place the back, reduce the entering that receives the influence of high temperature and can effectual reduction dust, with this original work efficiency and stability of keeping.

Secondly, manufacturing cold air through air cooling equipment, guiding the cold air into a transmission frame through a connecting pipe, then radiating the heat through the transmission frame, guiding the cold air into a spray head through a bearing pipe frame by using the cold air in the transmission frame, then spraying the cold air out of the spray head to cool the equipment on the bearing pipe frame, and discharging the heat on the equipment through a hollow net; the liquid cooling equipment leads out liquid and conducts the liquid through the guide pipe, and then the guide pipe carries heat back to the liquid cooling equipment for cooling when passing through a high-temperature position, so that the heat flows circularly.

Three, can the loss appear in electric power storage pack use, and probably lead to the possibility that the spontaneous combustion can appear in the electric power storage pack because of the influence of external multifactor, let drive module accept the feedback and react through the conflagration inductor this moment, then extrude the ball of putting out a fire through driving electronic telescopic link, make its inside fire extinguishing agent derive by the transmission pipe, scatter by the shower nozzle blowout at last and put out a fire on electric power storage pack, influence that this can effectual suppression spontaneous combustion arouses enlarges.

Fourthly, the heat dissipated by the power storage power supply pack is absorbed and led out through the heat conducting plate, then the heat is carried away by liquid flowing through the heat radiating pipe, and finally the heat is transmitted back to the liquid cooling equipment through the guide pipe, so that the service life of the power storage power supply pack is prolonged.

Drawings

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

FIG. 2 is a schematic structural diagram of a heat dissipation mechanism according to the present invention;

FIG. 3 is a schematic cross-sectional view of the shielding mechanism of the present invention;

FIG. 4 is a schematic view of the load-bearing tube carrier of the present invention;

FIG. 5 is a schematic view of the cooling mechanism of the present invention;

fig. 6 is a schematic structural view of the cooling member of the present invention.

The reference numbers in the figures illustrate:

1, a cabinet body, 11 hollow nets, 2 heat dissipation mechanisms, 21 storage frames, 22 air cooling equipment, 23 liquid cooling equipment, 24 connecting pipes and 25 guide pipes;

3, a transmission mechanism, a 31 protection mechanism, a 311 fixing frame, a 312 driving module, 313 electric telescopic rods, 314 fire extinguishing balls, 315 first baffle plates, 316 transmission pipes, 317 second baffle plates, 32 transmission frames, 33 bearing pipe frames and 34 spray heads;

4 cooling mechanism, 41 placing box, 42 electric power storage pack, 43 cooling component, 431 heat conducting plate, 432 heat radiating pipe and 44 through hole.

Detailed Description

Example 1:

referring to fig. 1-6, a DTU device with multi-information sensing and edge computing capabilities includes a cabinet 1, a heat dissipation mechanism 2, a transmission mechanism 3, and a cooling mechanism 4;

a pair of symmetrical hollow nets 11 are embedded at the outer end of the cabinet body 1, and the hollow nets 11 are positioned at the outer side of the transmission mechanism 3;

the heat dissipation mechanism 2 is fixedly arranged at the top end in the cabinet body 1, the transmission mechanism 3 is fixedly arranged in the cabinet body 1 and is positioned at the lower side of the heat dissipation mechanism 2, and the cooling mechanism 4 is arranged in the cabinet body 1 and is positioned at the lower side of the transmission mechanism 3;

wind power is distributed out through the heat dissipation mechanism 2, and the air is blown out and dissipated to the equipment on the transmission mechanism 3 through the discharge of the transmission mechanism 3, then the heat dissipation to the equipment on the transmission mechanism 3 is completed through the heat dissipation of the heat dissipation mechanism 3 through the heat dissipation of the hollow net 11, the air conditioning blown out by the transmission mechanism 3 can cool down and dissipate the heat of the heat dissipation mechanism 4 at the same time, and the heat dissipation mechanism 4 can also cool down the equipment for the second time through the heat dissipation mechanism 2, thereby the efficient operation state that the heat dissipation mechanism 4 can be kept is realized, the heat dissipation effect inside the special cabinet can be enhanced, the equipment is enabled to be placed separately, the influence of high temperature is reduced, and the entering of dust can be effectively reduced, and the original working efficiency and stability are kept.

Referring to fig. 2, the heat dissipation mechanism 2 includes a storage frame 21, an air cooling device 22, a liquid cooling device 23, a connecting pipe 24 and a conduit 25;

store frame 21 fixed mounting at the interior top of cabinet body 1, air-cooled equipment 22 and liquid cooling equipment 23 symmetric distribution are in storing frame 21, and connecting pipe 24 quantity is a plurality of, and symmetric distribution is at the lower extreme of storing frame 21, and a plurality of connecting pipes 24 all communicate with air-cooled equipment 22, and pipe 25 quantity is two, and the equidistance distributes at the lower extreme of storing frame 21, and communicates with liquid cooling equipment 23.

Referring to fig. 2-4, the transmission mechanism 3 includes a protection mechanism 31, a transmission rack 32, a carrier rack 33 and a nozzle 34;

the transmission frame 32 is located the lower extreme of storing the frame 21, and communicates with each other with connecting pipe 24, and protection machanism 31 quantity is a plurality of, and evenly distributed is in the outer end of transmission frame 32, bears the weight of pipe support 33 fixed connection at the lower extreme of transmission frame 32, and with fretwork net 11 inner wall fixed connection, shower nozzle 34 quantity is a plurality of, and the equidistance distributes at the up end that bears the weight of pipe support 33, and shower nozzle 34 is linked together with protection machanism 31 through bearing pipe support 33.

Referring to fig. 3, the protection mechanism 31 includes a fixing frame 311, a driving module 312, an electric telescopic rod 313, a fire extinguishing ball 314, a first blocking piece 315, a transmission pipe 316 and a second blocking piece 317;

the driving module 312 is fixedly installed at the inner top end of the driving module 312, the electric telescopic rod 313 is fixedly connected at the lower end of the driving module 312 and vertically moves along the length of the fixed frame 311, the fire extinguishing ball 314 is arranged in the fixed frame 311 and is positioned at the lower side of the electric telescopic rod 313, the transmission pipe 316 is inserted at the lower end of the fixed frame 311 and is communicated with the lower end of the fire extinguishing ball 314 by penetrating through the fixed frame 311, and the transmission pipe 316 is embedded at the outer end of the transmission frame 32; a first baffle 315 is disposed in the transfer tube 316 where the fire extinguishing ball 314 meets, and a second baffle 317 is disposed in the transfer tube 316 and on the underside of the first baffle 315.

Referring to fig. 5-6, the cooling mechanism 4 includes a placing box 41, a power storage pack 42, a cooling member 43, and a through hole 44;

the placing box 41 is arranged at the inner bottom end of the cabinet body 1, the power storage power supply pack 42 is arranged in the placing box 41, the cooling component 43 is arranged in the placing box 41, the number of the through holes 44 is multiple, the through holes are distributed at the outer end of the placing box 41 at equal intervals, and the cooling component 43 is positioned at the lower side.

Referring to fig. 6, the cooling part 43 includes a heat conducting plate 431 and a heat dissipating pipe 432; the heat conducting plates 431 are distributed on the inner wall of the placing box 41 at equal intervals and positioned at the outer end of the power storage pack 42; the heat pipe 432 is provided in plural number and vertically distributed in the placing case 41, and penetrates the heat conducting plate 431, and the outer end of the heat pipe 432 is connected to the pipe 25.

Referring to FIG. 3, the fire extinguishing ball 314 is composed of a small bag and a large bag; the small bag is positioned at the upper end of the big bag, and a sealing sheet is arranged at the joint of the small bag and the big bag; the big bag is filled with fire extinguishing agent, and the small bag is filled with gas.

Referring to fig. 1, a fire extinguishing sensor is fixedly connected to an inner wall of the cabinet 1, and the fire extinguishing sensor is located outside the cooling mechanism 4 and electrically connected to the driving module 312.

Referring to fig. 6, the heat conducting plate 431 is composed of a semiconductor refrigeration plate and a diamond plate, the semiconductor refrigeration plate is fixedly installed between the placing box 41 and the power storage pack 42, the diamond plate is embedded in the placing box 41, and the diamond plate and the semiconductor refrigeration plate are installed at the outer end of the heat dissipating pipe 432 and are in a clamped state.

According to the scheme, wind power is emitted through the heat dissipation mechanism (2), air is discharged through the transmission mechanism (3) to blow and dissipate heat of equipment on the transmission mechanism (3), then the hollow net (11) discharges heat to dissipate heat of the equipment on the transmission mechanism (3), cold air blown out by the transmission mechanism (3) can cool and dissipate heat of the cooling mechanism (4), and the cooling mechanism (4) can cool the cooling mechanism for the second time through the heat dissipation mechanism (2), so that the cooling mechanism (4) can keep an efficient operation state; cold air is produced by air cooling equipment (22), the cold air is led out to a transmission frame (32) through a connecting pipe (24), then the transmission frame (32) dissipates heat, then a bearing pipe frame (33) utilizes the cold air in the transmission frame (32) to lead the cold air into a spray head (34), then the cold air is sprayed out by the spray head (34) to cool the equipment on the bearing pipe frame (33), and the heat on the equipment is discharged through a hollow net (11); the liquid cooling device (23) leads out liquid and conducts the liquid through the guide pipe (25), and then the guide pipe (25) carries heat back to the liquid cooling device (23) to be cooled when passing through a high-temperature position, so that the heat flows in a circulating mode; can realize strengthening the inside radiating effect of special cabinet, make equipment separately place the back, reduce the entering that receives the influence of high temperature and can effectual reduction dust to this keeps original work efficiency and stability.

As described above; but are merely preferred embodiments of the invention; the scope of the invention is not limited thereto; any person skilled in the art is within the technical scope of the present disclosure; the technical scheme and the improved concept of the invention are equally replaced or changed; are intended to be covered by the scope of the present invention.

Claims

1. A DTU device with multi-information perception and edge computing capabilities, characterized in that: it comprises a cabinet (1), a cooling mechanism (2), a transmission mechanism (3) and a cooling mechanism (4);

A pair of mutually symmetrical hollow nets (11) are embedded at the outer ends of the cabinet body (1), and the hollow nets (11) are located outside the transmission mechanism (3);

The heat dissipation mechanism (2) is fixedly installed on the inner top of the cabinet body (1), the transmission mechanism (3) is fixedly installed in the cabinet body (1), and is located on the lower side of the heat dissipation mechanism (2), and the cooling mechanism (4) is installed in the cabinet (1), and is located on the lower side of the transmission mechanism (3).

2. A DTU device with multi-information perception and edge computing capabilities according to claim 1, characterized in that: the heat dissipation mechanism (2) comprises a storage frame (21), an air cooling device (22), a liquid cooling equipment (23), connecting pipes (24) and conduits (25);

The storage frame (21) is fixedly installed on the inner top of the cabinet (1), the air cooling equipment (22) and the liquid cooling equipment (23) are symmetrically distributed in the storage frame (21), and the connecting pipe (24) ) is multiple in number, and is symmetrically distributed at the lower end of the storage frame (21), the multiple connecting pipes (24) are all connected to the air-cooling equipment (22), and the number of the pipes (25) is two, They are equally spaced at the lower end of the storage frame (21), and are connected to the liquid cooling device (23).

3. A DTU device with multi-information perception and edge computing capabilities according to claim 1, characterized in that: the transmission mechanism (3) comprises a protection mechanism (31), a transmission rack (32), a bearing pipe rack (33) and spray head (34);

The transmission rack (32) is located at the lower end of the storage frame (21) and is connected to the connecting pipe (24), and the number of the protection mechanisms (31) is multiple, and is evenly distributed outside the transmission rack (32). The bearing pipe frame (33) is fixedly connected to the lower end of the transmission frame (32), and is fixedly connected to the inner wall of the hollow net (11). The upper end surface of the frame (33), the spray head (34) communicates with the protection mechanism (31) through the carrying pipe frame (33).

4. A DTU device with multi-information perception and edge computing capabilities according to claim 3, characterized in that: the protection mechanism (31) comprises a fixed frame (311), a drive module (312), an electric telescopic rod (313), fire extinguishing ball (314), first blocking piece (315), transmission pipe (316) and second blocking piece (317);

The drive module (312) is fixedly installed on the inner top end of the drive module (312), and the electric telescopic rod (313) is fixedly connected to the lower end of the drive module (312) and moves vertically along the length of the fixed frame (311). , the fire extinguishing ball (314) is arranged in the fixing frame (311), and is located on the lower side of the electric telescopic rod (313), the transmission pipe (316) is inserted in the lower end of the fixing frame (311), and penetrates through the fixed frame (311). The frame (311) is connected with the lower end of the fire extinguishing ball (314), the transmission pipe (316) is embedded in the outer end of the transmission frame (32); the first blocking piece (315) is arranged on the transmission pipe (316) Where the fire extinguishing ball (314) is connected, the second blocking piece (317) is arranged in the transmission pipe (316), and is located on the lower side of the first blocking piece (315).

5. A DTU device with multi-information perception and edge computing capabilities according to claim 1, characterized in that: the cooling mechanism (4) comprises a placing box (41), a power storage power pack (42), a cooling mechanism part (43) and through hole (44);

The placement box (41) is arranged at the inner bottom end of the cabinet (1), the storage power pack (42) is installed in the placement box (41), and the cooling component (43) is installed in the placement box (41) ), the through holes (44) are multiple in number, and are equally spaced at the outer end of the placing box (41) and on the lower side of the cooling component (43).

6. A DTU device with multi-information perception and edge computing capabilities according to claim 5, characterized in that: the cooling component (43) comprises a heat-conducting plate (431) and a heat-dissipating pipe (432); The number of the plates (431) is multiple, and they are equally spaced on the inner wall of the placement box (41) and at the outer end of the power storage power pack (42); the number of the heat dissipation pipes (432) is multiple and vertically distributed Inside the placing box (41) and through the heat conducting plate (431), the outer end of the heat dissipation pipe (432) is connected with the conduit (25).

7. A DTU device with multi-information perception and edge computing capabilities according to claim 4, characterized in that: the fire extinguishing ball (314) is composed of a small bag and a large bag; the small bag is located in the The upper end of the large bag is provided with a sealing sheet at the joint of the small bag and the large bag; the large bag is filled with fire extinguishing agent, and the small bag is filled with gas.

8. A DTU device with multi-information perception and edge computing capabilities according to claim 1, characterized in that: a fire extinguishing sensor is fixedly connected to the inner wall of the cabinet (1), and the fire extinguishing sensor is located in the cooling mechanism The outer side of (4) is electrically connected to the driving module (312).

9. A DTU device with multi-information perception and edge computing capabilities according to claim 6, characterized in that: the heat-conducting plate (431) is composed of a semiconductor refrigeration sheet and a diamond plate, and the semiconductor refrigeration sheet is fixedly installed Between the placing box (41) and the power storage power pack (42), the diamond plate is embedded in the placing box (41), and the diamond plate and the semiconductor refrigeration chip are installed on the outer end of the heat dissipation pipe (432), and in a clamped state.