CN202797504U - Multifunctional bus connector - Google Patents

Abstract

The utility model provides a multifunctional bus connector. The connector comprises a monitoring element electrically connected with a copper bar in a bus duct, the information interaction end of the monitoring element is connected with a photoelectric transducer; the monitoring element comprises a current monitoring unit, a voltage monitoring unit, a temperature monitoring unit and a vibration monitoring unit; and a control processing unit used for processing various data and information interaction is connected with the photoelectric transducer through an optical fiber and arranged outside the connector. The connector has the advantages that real-time collection of statuses of the bus duct is achieved, and temperature, humidity and the like of the bus duct are controlled timely by the control processing unit.

Description

The Mobyneb bus tie

Technical field

The utility model relates to a kind of Mobyneb bus tie.

Background technology

Develop rapidly along with optical communication, the epoch of cloud computing are coming, and the core that the IDC machine room is stored as the cloud computing data, the main carriers that bus duct is supplied with as IDC machine room electric power, fail safe, stability and the reliability of its equipment self seems particularly outstanding.

At present, the bus duct self of using at the IDC machine room does not possess state-indicating function, needs fully artificially sense organ by outside simple machine or people self go the to patrol states such as vibration, noise of bus duct equipment.And the use of these external accessories is subjected to the restriction of infield and mounting means, can't accomplish comprehensive, Real-time Collection, and measured data can't be uploaded effectively and systematized analysis.

The utility model content

The purpose of this utility model is to solve above-mentioned technical problem, and a kind of Mobyneb bus tie is provided.

The purpose of this utility model is achieved through the following technical solutions:

The Mobyneb bus tie, include with bus duct in the monitoring means that is electrically connected of copper bar, the information interaction end of described monitoring means is connected with optical-electrical converter, and described monitoring means comprises for the current monitoring unit of monitoring the bus duct electric current, for the voltage monitoring unit of monitoring bus duct voltage, for the temperature monitoring unit of monitoring bus duct temperature, for the vibration monitoring unit of monitoring the bus duct vibration frequency;

Described optical-electrical converter by optical fiber be connected in order to the controlled processing unit of processing each data and information interaction, described controlled processing unit is arranged on outside the connector, described controlled processing unit is microprocessor;

Described current monitoring is provided with a current transformer in the unit, described current transformer is connected with a current acquisition unit, described current acquisition unit comprises adjustable resistance, electric capacity and the current amplification unit that is connected in parallel, and the signal output part of described current amplification unit is connected with a resistance;

Be provided with a voltage amplifier in the described voltage monitoring unit, described voltage amplifier is connected with a voltage acquisition unit, described voltage acquisition unit comprises three voltage amplification unit, first, second voltage amplification unit resistance of connecting respectively, and be connected in two signal input parts of tertiary voltage amplifying unit;

Described temperature monitoring unit is temperature sensor, and described vibration monitoring unit is vibrating sensor.

Preferably, described current amplification unit is made of current amplifier and resistance, and described voltage amplification unit is by voltage amplifier and resistance.

Preferably, described connector also comprises a humidity detection unit, and described humidity detection is provided with a humidity sensor in the unit.

The beneficial effects of the utility model are mainly reflected in: by be provided with corresponding monitoring means in connector, and be connected with controlled processing unit, state to bus duct is accomplished Real-time Collection, and by controlled processing unit the temperature of bus duct, humidity etc. is done timely control.

Description of drawings

Below in conjunction with accompanying drawing technical solutions of the utility model are described further:

Fig. 1: structural representation of the present utility model.

Fig. 2: the electrical block diagram of current monitoring unit in the utility model.

Fig. 3: the electrical block diagram of voltage monitoring unit in the utility model.

Fig. 4: the electrical block diagram of temperature monitoring unit in the utility model.

Embodiment

The utility model has disclosed a kind of Mobyneb bus tie, as shown in Figure 1, be provided with monitoring means in the described connector 2, copper bar 1 in the monitoring side of described monitoring means and the bus duct is electrically connected, the information interaction end of described monitoring means is connected with optical-electrical converter, described optical-electrical converter by optical fiber 3 be connected in order to the processing unit of processing each data and information interaction, described controlled processing unit is arranged on outside the connector, described controlled processing unit is microprocessor.

Below sketch the observation process of lower integral body of the present utility model:

Monitoring means gathers by the state to bus duct, converts the signal that collects to light signal by the broadcasting and TV transducer, and light signal is transmitted through the fiber to controlled processing unit and processes.The utility model can effectively in time to the monitoring state of bus duct, be conducive to the maintenance and management of bus duct.

The below sketches respectively syndeton and the course of work of each monitoring means in lower the utility model.

Described monitoring means comprises for the current monitoring unit of monitoring the bus duct electric current, for the voltage monitoring unit of monitoring bus duct voltage, for the temperature monitoring unit of monitoring bus duct temperature, for the vibration monitoring unit of monitoring the bus duct vibration frequency;

Combination is shown in Figure 2, described current monitoring is provided with a current transformer in the unit, described current transformer is connected with a current acquisition unit, described current acquisition unit comprises adjustable resistance, electric capacity and the current amplification unit that is connected in parallel, and the signal output part of described current amplification unit is connected with a resistance R 251.

Described Current Transmit 242 is connected with a current acquisition unit, and described current acquisition unit comprises adjustable resistance RW242, capacitor C 243 and the current amplification unit that is connected in parallel, and the signal output part of described current amplification unit is connected with a resistance R 251.

Described current amplification unit is made of current amplifier and resistance.

In conjunction with shown in Figure 3, be provided with a voltage amplifier in the described voltage monitoring unit, described voltage amplifier is connected with a voltage acquisition unit, and described voltage acquisition unit comprises three voltage amplification unit, is respectively first, second, third voltage acquisition unit.The first voltage amplification units in series one resistance R 243, the second voltage amplifying unit resistance R 247 of connecting respectively.

The resistance output of the series connection on described first, second voltage amplification unit is connected in two signal input parts of tertiary voltage amplifying unit.

Described temperature monitoring unit is temperature sensor, in conjunction with shown in Figure 4, described temperature monitoring unit is temperature sensor, electric current is divided into two-way in the utility model, one the tunnel through resistance R 101, one tunnel process temperature sensor is also exported by the second branch road of temperature sensor, the inner band of this temperature sensor temperature transition function, after the temperature information process inter-process that collects, be converted to light signal with digital signal transfers to optical-electrical converter, be transmitted through the fiber to microprocessor and process output display.

Described vibration monitoring unit is vibrating sensor.During monitoring, signal by vibrating sensor through states such as the vibration frequency that records from output output behind the Sensor monitoring, speed.

In order to monitor the humidity of bus duct, described connector also comprises a humidity detection unit, and described humidity detection is provided with a humidity sensor in the unit.Comprise humistor in the described humidity sensor, when on the humidity-sensitive film of airborne water vapor adsorption in humistor, resistivity and the resistance value of element all change, thereby change the voltage transmission size, last signal is exported by output, through after the analog-to-digital conversion of photovoltaic converter, transfer to microprocessor by optical fiber 3 and process.

The utility model still has multiple concrete execution mode, and all employings are equal to replacement or equivalent transformation and all technical schemes of forming, all drop within the claimed scope of the utility model.

Claims (3)

1. Mobyneb bus tie, it is characterized in that: include with bus duct in the monitoring means that is electrically connected of copper bar, the information interaction end of described monitoring means is connected with optical-electrical converter, and described monitoring means comprises for the current monitoring unit of monitoring the bus duct electric current, for the voltage monitoring unit of monitoring bus duct voltage, for the temperature monitoring unit of monitoring bus duct temperature, for the vibration monitoring unit of monitoring the bus duct vibration frequency;

Described optical-electrical converter by optical fiber be connected in order to the controlled processing unit of processing each data and information interaction, described controlled processing unit is arranged on outside the connector, described controlled processing unit is microprocessor;

Described current monitoring is provided with a current transformer in the unit, described current transformer is connected with a current acquisition unit, described current acquisition unit comprises adjustable resistance, electric capacity and the current amplification unit that is connected in parallel, and the signal output part of described current amplification unit is connected with a resistance;

Be provided with a voltage amplifier in the described voltage monitoring unit, described voltage amplifier is connected with a voltage acquisition unit, described voltage acquisition unit comprises three voltage amplification unit, first, second voltage amplification unit resistance of connecting respectively, and be connected in two signal input parts of tertiary voltage amplifying unit;

Described temperature monitoring unit is temperature sensor, and described vibration monitoring unit is vibrating sensor.

2. Mobyneb bus tie according to claim 1, it is characterized in that: described current amplification unit is made of current amplifier and resistance, and described voltage amplification unit is by voltage amplifier and resistance.

3. Mobyneb bus tie according to claim 2, it is characterized in that: described connector also comprises a humidity detection unit, described humidity detection is provided with a humidity sensor in the unit.

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