CN217563266U - Lightweight bus duct with real-time monitoring function - Google Patents

Abstract

The utility model discloses a lightweight bus duct with real-time supervision function, including the bus duct main part, even there is the inner cover plate in the top of bus duct main part, the bus duct main part passes through the inner cover plate and connects outer apron, the interior both sides inner wall of inner cover plate is through the outer wall looks joint of first fixture block with the bus duct main part, the both sides inner wall of outer apron passes through second fixture block and third fixture block respectively with inner cover plate and bus duct main part looks joint, the upper surface of third fixture block is equipped with a plurality of detachable temperature-detecting device, this device simple structure, it is convenient to detect, carry out dual detection through monitoring devices and temperature-detecting device to the internal conditions of bus duct, but one kind is long-range looking over, another kind can observe the audio-visual monitoring condition to temperature-detecting device through observation window, avoid the temperature in the bus duct, humidity etc. exceed standard, thereby lead to the cable damage.

Description

Lightweight bus duct with real-time monitoring function

Technical Field

The utility model relates to a lightweight bus duct with real-time supervision function.

Background

The bus duct is a closed metal device formed from copper and aluminium bus posts, and is used for distributing large power for every element of dispersion system. Wire and cable have been increasingly replaced in indoor low voltage power transmission mains engineering projects. The bus duct features series matching, commercial production, small volume, large capacity, short design and construction period, convenient assembly and disassembly, no combustion, safety and reliability, and long service life.

Because the bus duct has large transmission current, a large amount of heat can be generated in the working process, and when the heat is high to a certain degree, the bus duct can be burnt, and the circuit is broken down; meanwhile, the humidity of the surrounding environment of the bus duct can also influence the use of the bus duct, and the higher humidity not only can corrode the surface of the bus duct, but also can cause circuit short circuit.

Therefore, it is necessary to solve the above problems in a lightweight bus duct with a real-time monitoring function.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the above prior art not enough, provide a lightweight bus duct with real-time supervision function.

The utility model provides a lightweight bus duct with real-time supervision function, includes the bus duct main part, even there is the inner cover board in the top of bus duct main part, and the bus duct main part passes through the inner cover board and connects outer apron, the interior both sides inner wall of inner cover board is through the outer wall looks joint of first fixture block with the bus duct main part, and the both sides inner wall of outer apron passes through second fixture block and third fixture block respectively with inner cover board and bus duct main part looks joint, the upper surface of third fixture block is equipped with a plurality of detachable temperature-detecting device, the lower surface middle part of outer apron is equipped with the recess, installs monitoring devices in the recess.

As further improvement, all be equipped with a plurality of louvre on the inside and outside both sides wall of bus duct main part, the louvre all is linked together with the heat dissipation chamber at the both sides wall middle part of bus duct main part, the heat dissipation of louvre cooperation heat dissipation chamber in to the bus duct main part is dispelled the heat, the heat exit of louvre is just to temperature monitoring devices, the temperature of guaranteeing that temperature monitoring devices monitors is more accurate, when monitoring devices appears unusually, the inside temperature condition of bus duct is observed to accessible temperature monitoring devices, utilize the space department installation temperature monitoring devices of third fixture block upper surface, structural design is more reasonable, the whole area occupies littleer, and the manufacturing cost is reduced, the design heat dissipation chamber has also effectually reduced the weight of bus duct.

As further improvement, transparent viewing aperture is all installed to the both sides wall of outer apron, and the staff of being convenient for observes temperature monitoring devices's real-time temperature.

As further improvement, the lower surface of the inner cover plate is provided with a plurality of water absorption holes, the water absorption holes are communicated with the cavity in the middle of the inner cover plate, a water absorption bag is arranged in the cavity, water in the bus duct is absorbed through the water absorption bag, the cable is prevented from being damaged due to excessive water in the bus duct, and the inside of the bus duct is guaranteed to be dry.

As a further improvement, the water absorption bags are filled with high-molecular water absorption resin.

As further improvement, monitoring devices embeds there are a plurality of sensors, and the sensor passes through data information transmission to the gateway that LoRA low frequency unlimited transmission technique monitored a plurality of sensors to lead to the gateway and transmit to intelligent Mobile platform, loRA low frequency unlimited transmission technique's information transmission is more stable, and accuracy and reliability all improve greatly, thereby avoid causing the condition that data transmission is inaccurate to lead to the accident because of the use scene of bus duct, thereby the safety in the bus duct use has been guaranteed, the life of bus duct main part and cable has been prolonged.

Has the advantages that:

this device simple structure, it is convenient to detect, carry out dual detection through monitoring devices and temperature-detecting device to the inside condition of bus duct, one kind is for can long-rangely looking over, another kind can observe the monitoring condition of temperature-detecting device through the observation window is audio-visual, avoid the temperature in the bus duct, humidity etc. exceeds standard, thereby lead to the cable to damage, still be provided with the cavity and the heat dissipation chamber of placing the package that absorbs water, play the effect of cooling and absorbing water when lightening the whole weight of bus duct, prolong its life, compared with the prior art, the manufacturing cost of bus duct has been practiced thrift, the reliability of bus duct has been improved, connect the bus duct main part through the mode of joint, outer cover plate and inner decking, the installation is dismantled conveniently, the stability of structure has been improved.

The heat dissipation hole cooperation heat dissipation chamber dispels the heat in to the bus duct main part in this device, the heat exit of louvre is just to temperature monitoring device, it is more accurate to guarantee the temperature that temperature monitoring device monitored, when monitoring device appears unusually, the inside temperature condition of bus duct is observed to accessible temperature monitoring device, utilize the space department installation temperature monitoring device of third fixture block upper surface, structural design is more reasonable, the whole area occupies littleer, reduce manufacturing cost, design heat dissipation chamber has also effectually reduced the weight of bus duct.

A plurality of water absorption bags filled with high-molecular water-absorbent resin are placed in the cavity of the device, and water in the bus duct is absorbed through the water absorption bags, so that the phenomenon that the cable is damaged due to excessive water in the bus duct is avoided, and the dryness of the inside of the bus duct is guaranteed.

The device uses the LoRA low-frequency infinite transmission technology, so that the monitored information transmission is more stable, the accuracy and the reliability are greatly improved, the condition that data transmission is inaccurate and accidents are caused due to the use scene of the bus duct is avoided, the safety in the use process of the bus duct is ensured, and the service lives of a bus duct main body and a cable are prolonged.

Drawings

Fig. 1 is a schematic diagram of an overall structure of a lightweight bus duct with a real-time monitoring function.

1. The bus duct comprises a bus duct main body 2, an outer cover plate 3, a monitoring device 4, a groove 5, a second fixture block 6, a first fixture block 7, a third fixture block 8, an inner cover plate 9, a heat dissipation cavity 10, a temperature detection device 11 and a cavity.

Detailed Description

In order to deepen the understanding of the present invention, the present invention will be further described in detail with reference to the following embodiments and the attached drawings, the embodiments are only used for explaining the present invention, and do not constitute the limitation to the protection scope of the present invention.

As shown in fig. 1, a light bus duct with real-time monitoring function includes a bus duct main body 1, an outer cover plate 2, a monitoring device 3, a groove 4, a second fixture block 5, a first fixture block 6, a third fixture block 7, an inner cover plate 8, a heat dissipation cavity 9, a temperature detection device 10, and a cavity 11.

The utility model provides a lightweight bus duct with real-time supervision function, including bus duct main part 1, even there is interior apron 8 in the top of bus duct main part 1, bus duct main part 1 passes through interior apron 8 and connects outer apron 2, the interior both sides inner wall of interior apron 8 is through the outer joint of first fixture block 6 with bus duct main part 1, the both sides inner wall of outer apron 2 pass through second fixture block 5 and third fixture block 7 respectively with interior apron 8 and bus duct main part 1 looks joint, the upper surface of third fixture block 7 is equipped with a plurality of detachable temperature-detecting device 10, the lower surface middle part of outer apron 2 is equipped with recess 4, install monitoring devices 3 in the recess 4.

All be equipped with a plurality of louvre on the inside and outside both sides wall of bus duct main part 1, the louvre all is linked together with the heat dissipation chamber 9 at the both sides wall middle part of bus duct main part 1, louvre cooperation heat dissipation chamber 9 dispels the heat in bus duct main part 1, the heat exit of louvre is just to temperature monitoring device 10, the temperature of guaranteeing that temperature monitoring device 10 monitors is more accurate, when monitoring device appears unusually, the inside temperature condition of bus duct is observed to accessible temperature monitoring device, utilize the space department installation temperature monitoring device 10 of third fixture block upper surface, structural design is more reasonable, whole area occupies littleer, and manufacturing cost is reduced, design heat dissipation chamber 9 has also effectually reduced the weight of bus duct.

Transparent viewing aperture is all installed to the both sides wall of outer apron 2, and the staff of being convenient for observes temperature monitoring device 10's real-time temperature.

The lower surface of inner cup board 8 is equipped with a plurality of hole that absorbs water, and the hole that absorbs water is linked together with the cavity 11 at inner cup board 8 middle part, is equipped with the package that absorbs water in the cavity 11, adsorbs the moisture in the bus duct through the package that absorbs water, thereby avoids the interior moisture of bus duct too much to damage the cable, guarantees the inside dry of bus duct, and it has polymer water-absorbing resin all to fill in the package that absorbs water.

Monitoring devices 3 embeds there is a plurality of sensors, the data information transmission that the sensor was monitored a plurality of sensors through LoRA low frequency infinite transmission technique is to the gateway, and lead to the gateway transmission to intelligent Mobile platform, the information transmission of LoRA low frequency infinite transmission technique is more stable, accuracy and reliability all improve greatly, thereby avoid causing the condition that data transmission is inaccurate to lead to the accident because of the use scene of bus duct, the safety in the bus duct use has been guaranteed, the life of bus duct main part and cable has been prolonged.

During the use, monitoring devices is to the temperature in the bus duct, humidity and behavior monitor, and data information transmission to the gateway that data information that will monitor is through monitoring a plurality of sensors through LoRA low frequency infinite transmission technique, and transmit to intelligent mobile platform through the gateway and supply the staff to look over, the louvre is with the heat discharge in the bus duct cell, avoid the high temperature in the bus duct, it monitors to be provided with temperature monitoring devices to the exhaust temperature in the bus duct to be provided with the exit end department of louvre, the temperature accessible observation window who monitors in the temperature monitoring devices observes, the package that absorbs water in the cavity can adsorb the moisture in the bus duct, thereby prevent that too much moisture leads to the cable damage in the bus duct use.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. The utility model provides a lightweight bus duct with real-time supervision function, a serial communication port, including the bus duct main part, even there is the inner cover board in the top of bus duct main part, and the bus duct main part passes through the inner cover board and connects outer apron, the interior both sides inner wall of inner cover board is through the outer wall looks joint of first fixture block with the bus duct main part, and the both sides inner wall of outer apron passes through second fixture block and third fixture block respectively with inner cover board and bus duct main part looks joint, the upper surface of third fixture block is equipped with a plurality of detachable temperature-detecting device, the lower surface middle part of outer apron is equipped with the recess, installs monitoring devices in the recess.

2. The light bus duct with the real-time monitoring function according to claim 1, wherein a plurality of heat dissipation holes are formed in the inner side wall and the outer side wall of the bus duct main body, and the heat dissipation holes are communicated with heat dissipation cavities in the middle of the two side walls of the bus duct main body.

3. The light-weight bus duct with the real-time monitoring function according to claim 1, wherein transparent observation ports are mounted on two side walls of the outer cover plate.

4. The light bus duct with the real-time monitoring function as recited in claim 1, wherein a plurality of water suction holes are formed in the lower surface of the inner cover plate, the water suction holes are communicated with a cavity in the middle of the inner cover plate, and a water suction bag is arranged in the cavity.

5. The light bus duct with the real-time monitoring function according to claim 4, wherein the water absorption bags are filled with high-molecular water-absorbent resin.

6. The light bus duct with the real-time monitoring function according to claim 1, wherein a plurality of sensors are arranged in the monitoring device, and the sensors transmit data information monitored by the sensors to the gateway through a LoRA low-frequency infinite transmission technology and transmit the data information to the intelligent mobile platform through the gateway.

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