CN203732099U - Underground measurement power supplying and communication device - Google Patents

Abstract

Disclosed in the utility model is an underground measurement power supplying and communication device comprising a ground power supplying system installed on the ground and a signal receiving system installed on the ground, an underground measurement and control system installed under the ground, and a single insulated lead connecting the ground power supplying system and the signal receiving system with the underground measurement and control system. The underground measurement and control system is installed in an insulated waterproof enclosed housing; one und terminal of the underground measurement and control system is led out from the housing and then is grounded; and the other ground terminal of the underground measurement and control system is led out from the housing and then is connected with an underground terminal of a core of the single insulated lead. The ground power supplying system includes a direct-current power supply; the positive electrode of the direct-current power supply is grounded; and the negative electrode is connected to a core of a ground terminal of the single insulated lead. The provided underground measurement power supplying and communication device has advantages of simple principle, low cost, easy implementation, high reliability and is suitable for long-term power supplying of underground, underwater, under-well, in-well low power measurement and control systems as well as data communication with low baud rate.

Description

A kind of underground survey power supply and communicator

Technical field

The utility model belongs to underground survey systems technology field, is specifically related to a kind of underground survey power supply and communicator.

Background technology

At present, underground survey system adopts powered battery conventionally, or through 2 or the power supply of multi-cable composition current supply circuit, also needs in addition telecommunication cable or optical cable to communicate.Specifically, when needing underground TT&C system to work long hours, mainly there is the problem of following several respects in classic method:

(1) while adopting powered battery, the working time is limited by battery capacity, changes battery also inconvenient, is difficult to ensure the need of work of long-time or long-term underground or underwater measurement system;

(2), while adopting power transmission line to connect direct current of ground power supply to underground measuring system power supply, need to adopt 2 or many service cables to power to underground measurement mechanism;

(3) measuring the data obtained usually also needs to increase in addition telecommunication cable for signal transmission from the underground ground that uploads to, and the cable of required use is multiplied;

(4) the underground survey device particularly having a large capacity and a wide range at some or to lower or measurement mechanism power supply under water deeper when communicate by letter, the application of many cables can make system cost fast rise, reliability reduction, practicality variation.

Summary of the invention

The purpose of this utility model is for the above-mentioned defect existing in prior art, and a kind of principle is simple, with low cost, enforcement is easy, reliability is higher underground survey power supply and communicator are provided.

The purpose of this utility model realizes by the following technical solutions: this underground survey power supply and communicator, it comprises the ground power supply system and the receiving system that are installed on ground, be installed on the underground TT&C system of underground, and connect the single insulated conductor between ground power supply system and receiving system and underground TT&C system; Described underground TT&C system is arranged in the shell of an insulative water-proof sealing, the earth terminal of underground TT&C system ground connection from shell is drawn, and another terminals of drawing underground TT&C system from shell are connected with the core of lower end, described single insulated conductor ground; Described ground power supply system comprises a direct supply, the plus earth of this direct supply, and negative pole is connected to by described receiving system on the core of single insulated conductor ground surface end; The electric current of described direct current of ground positive source output, conduct through the earth, be connected to the earth terminal of underground TT&C system, through the circuit of underground TT&C system, be connected to and connect single insulated conductor, receiving system underground and ground, get back to the negative pole of direct current of ground power supply, the closed-loop path of composition direct current of ground power supply to underground measuring system power supply and underground survey data upload.

Specifically, described receiving system comprises a current sampling resistor Rs, and current sampling resistor Rs is connected on the negative pole of direct supply and the current supply circuit of single insulated conductor ground terminals; Meanwhile, current sampling resistor Rs is connected with amplification and rectification circuit, and amplification and rectification circuit is connected with single-chip microcomputer, and single-chip microcomputer is connected with liquid crystal display, storer, telecommunication circuit respectively.

Specifically, described underground TT&C system comprises a regulating resistance Rp, a capacitor C and isolates the parallel circuit of stabilized voltage supply input end, the lower end of this parallel circuit is connected with the earth terminal of underground TT&C system, the upper end of this parallel circuit again with the anodic bonding of a diode D, the negative electrode of this diode is connected on the core of single insulated conductor; The two ends of described diode D are connected with signal drive circuit, and signal drive circuit is connected with single-chip microcomputer, and single-chip microcomputer is connected with each sensor respectively; The upper end output terminal of described isolation stabilized voltage supply is connected with signal drive circuit and single-chip microcomputer respectively, for the working power of signal drive circuit and single-chip microcomputer is provided.

Further, described signal drive circuit comprises two resistance of signal input part and the parallel circuit of diode, the output terminal of two resistance and diodes in parallel circuit is connected respectively to the grid of two complementary field effect pipes, then the marking current that loads the positive polarity after being amplified by field effect with respect to anode at the negative electrode of a diode is exported.

Principle of work of the present utility model and process are: between surface installation of the present utility model (ground power supply system and receiving system) and underground device (underground TT&C system), utilize conductive path altogether to form with 1 insulated conductor (single insulated conductor) power supply and the communication loop that are connected surface installation and underground device, electric current conducts through the earth from direct current of ground positive source, be incorporated into underground device inside the regulating resistance Rp with underground device by underground device earth terminal, capacitor C, the circuit series connection of isolation stabilized voltage supply input end three parallel connection, again through diode D, connect underground and single insulated conductor ground, after current sampling resistor Rs, be connected to ground power supply negative pole, the communication loop that forms the power supply of underground TT&C system and upload for signal, the flow through Rp of underground measure and control device of electric current, C, the voltage drop that the circuit of isolation stabilized voltage supply input end three parallel connection causes, after the voltage stabilizing of isolation stabilized voltage supply, underground measurement mechanism is powered.Regulating resistance Rp is for regulating AC characteristic and the DC characteristic of regulating resistance Rp, capacitor C and isolation stabilized voltage supply input end three parallel circuit, reduce the impact of input end on signal of communication phase place of capacitor C and isolation stabilized voltage supply, the minimum direct current electric current in the underground power supply of single insulated conductor and communication loop is played regulatory role.The resistance in parallel with isolation stabilized voltage supply equivalence input resistance as Rp be greater than ground and underground between other various piece resistance in seriess of S.C. current supply circuit time, direct supply voltage major part drops on the Rp circuit in parallel with isolation stabilized voltage supply equivalence input resistance, higher to the efficiency of underground device power supply like this, the isolation stabilized voltage supply of underground device can voltage stabilizing output supply the power supply of underground survey device work.The temperature that underground survey device obtains, the data such as pressure, through single-chip microcomputer coding output single-pole digital signal, again after signal drive circuit drives, negative electrode antianode at diode D loads positive polarity digital current signal, marking current on the underground survey device current supply circuit that formation is superimposed upon, in surface installation circuit, be connected on ground to the current sampling resistor Rs on underground current supply circuit, loop current is sampled, obtain through amplifying after shaping and single-chip microcomputer signal are processed the measurement data information that underground survey device is uploaded, for storage, show or send out through (wired or wireless) network.That the utility model is widely used in is underground, under water, long-term power supply and the not too high data communication of baud rate of down-hole, well middle low power TT&C system.

The beneficial effects of the utility model are:

(1) the utility model only adopts 1 insulated conductor, and utilizes the conduction of the earth to form closed-loop path, and to underground measurement mechanism power supply, the data that underground survey device can be obtained are sent on ground simultaneously;

(2) when the utility model has avoided underground survey device to adopt powered battery power-on time short, change inconvenient etc. many limitations, provide a kind of feasible long-time method of supplying power to, the easy maintenance of land circuit;

(3) the utility model shares 1 electric power conductor, transmits earthward data by underground survey device, has avoided the deficiency of 2 of conventional wire communication needs or multi-cable transmission data, and principle is simple, with low cost.

Brief description of the drawings

Fig. 1 is the overall theory structure block diagram of the utility model embodiment.

Fig. 2 is the signal drive circuit schematic diagram of the utility model embodiment.

Output waveform schematic diagram when Fig. 3 is the underground survey device uploading data of the utility model embodiment.

Embodiment

Below in conjunction with drawings and Examples, the utility model is described in further detail.

Referring to Fig. 1, the present embodiment comprises the ground power supply system and the receiving system that are installed on ground, be installed on the underground TT&C system of underground, and connect the single insulated conductor 1 between ground power supply system and receiving system and underground TT&C system.As can be seen from Fig. 1, ground power supply system comprises direct supply 3, the plus earth of direct supply 3, and negative pole is connected to by receiving system on the core 2 of single insulated conductor 1 upper end; Receiving system comprises current sampling resistor Rs, and the upper end of current sampling resistor Rs is connected on the negative pole of direct supply 3, and lower end is connected on the core 2 of single insulated conductor 1 upper end; Meanwhile, current sampling resistor Rs is connected with amplification and rectification circuit, and amplification and rectification circuit is connected with single-chip microcomputer, and single-chip microcomputer is connected with liquid crystal display, storer, telecommunication circuit respectively.From Fig. 1, be also shown in, underground TT&C system comprises the parallel circuit of regulating resistance Rp, capacitor C and isolation stabilized voltage supply input end, the lower end of this parallel circuit is connected with the earth terminal of underground TT&C system, the upper end of this parallel circuit again with the anodic bonding of diode D, the negative electrode of diode D is connected on the core 2 of single insulated conductor 1 lower end; The two ends of diode D are connected with signal drive circuit, and signal drive circuit is connected with single-chip microcomputer, and single-chip microcomputer is connected to sensor n with sensor 1 respectively; The upper end output terminal of isolation stabilized voltage supply is connected with signal drive circuit and single-chip microcomputer respectively; Underground TT&C system is arranged in the shell of an insulative water-proof sealing, the earth terminal of underground TT&C system ground connection from shell is drawn, each sensor and single-chip microcomputer and signal electric drive circuit composition underground survey device.The electric current of direct current of ground power supply 3 anodal outputs, conduct through the earth, be connected to the earth terminal of underground TT&C system, through the circuit of underground TT&C system, be connected to ground underground single insulated conductor 1, receiving system, get back to the negative pole of direct current of ground power supply 3, the closed-loop path of composition direct current of ground power supply 3 to underground measuring system power supply and underground survey data upload.

The utility model is to ensure the power supply effect good to underground measurement mechanism, there are following several requirements: (1) surface installation, underground device are answered good earth, make the S.C. current supply circuit all-in resistance of lower device entirely smaller, to obtain the larger electric current to underground measurement mechanism power supply; (2) the Rp equivalent resistance in parallel with isolation stabilized voltage supply input end r _andin whole S.C. current supply circuit all-in resistance r _returnin accounting should be larger, to obtain higher power supplying efficiency; (3) underground survey device should adopt the circuit design scheme of low-power consumption to design, the electrical source consumption while reducing the work of underground survey device.

Referring to Fig. 2, the rectangular wave drive circuit theory diagrams during for underground survey device outputting data signals of the present utility model.The output current of microcontroller serial port outputting data signals is little, a little less than driving force, carry out after electric current amplification through complementary field effect pipe QA, QB, load the marking current of positive polarity with respect to anode at the negative electrode of diode D, in the time that the signal level of output is high level, diode D negative electrode level is than the high 3V of diode anode left and right, and this level and direct current of ground power supply, with being in series, increase the electric current in S.C. current supply circuit; When output signal level is low level, electric current in S.C. current supply circuit is only provided by direct current of ground power supply, electric current is less, descends in this wise the rectangular voltage signal of measurement mechanism output data message, is transformed into the rectangle current signal being superimposed upon in S.C. direct current power supply loop.

Referring to Fig. 3, the output waveform schematic diagram during for underground survey device uploading data of the present utility model.Underground survey device upload signal through signal drive circuit drive after, obtain the signal output waveform of positive polarity at diode cathode, for uploading the data that underground survey device detects, when waveform is output as high level, the cut-off of diode D reverse bias, the signal level of output is in series together with the direct supply of ground survey device in the S.C. current supply circuit of underground survey device, and in loop, electric current increases; When waveform is output as low level, the electric current in the S.C. current supply circuit of underground survey device is less, and current sampling resistor Rs can detect the current signal that comprises underground output data, and is transformed into voltage signal output, receives for ground signal receiving system.

Must be pointed out, above-described embodiment is a kind of implementation of the present utility model, can not limit accordingly the scope of protection of the present utility model, and other equivalent circuit still belong to protection domain of the present utility model.

Claims (4)

1. a underground survey power supply and communicator, it is characterized in that: it comprises the ground power supply system and the receiving system that are installed on ground, be installed on the underground TT&C system of underground, and connect the single insulated conductor between ground power supply system and receiving system and underground TT&C system; Described underground TT&C system is arranged in the shell of an insulative water-proof sealing, the earth terminal of underground TT&C system ground connection from shell is drawn, and another terminals of drawing underground TT&C system from shell are connected with the core of lower end, described single insulated conductor ground; Described ground power supply system comprises a direct supply, the plus earth of this direct supply, and negative pole is connected to by described receiving system on the core of single insulated conductor ground surface end; The electric current of described direct current of ground positive source output, conduct through the earth, be connected to the earth terminal of underground TT&C system, through the circuit of underground TT&C system, be connected to and connect single insulated conductor, receiving system underground and ground, get back to the negative pole of direct current of ground power supply, the closed-loop path of composition direct current of ground power supply to underground measuring system power supply and underground survey data upload.

2. underground survey power supply and communicator according to claim 1, it is characterized in that: described receiving system comprises a current sampling resistor Rs, current sampling resistor Rs is connected on the negative pole of direct supply and the current supply circuit of single insulated conductor ground terminals; Meanwhile, current sampling resistor Rs is connected with amplification and rectification circuit, and amplification and rectification circuit is connected with single-chip microcomputer, and single-chip microcomputer is connected with liquid crystal display, storer, telecommunication circuit respectively.

3. according to underground survey power supply and communicator described in claim 1 or 2, it is characterized in that: described underground TT&C system comprises a regulating resistance Rp, a capacitor C and isolates the parallel circuit of stabilized voltage supply input end, the lower end of this parallel circuit is connected with the earth terminal of underground TT&C system, the upper end of this parallel circuit again with the anodic bonding of a diode D, the negative electrode of this diode is connected on the core of single insulated conductor; The two ends of described diode D are connected with signal drive circuit, and signal drive circuit is connected with single-chip microcomputer, and single-chip microcomputer is connected with each sensor respectively; The upper end output terminal of described isolation stabilized voltage supply is connected with signal drive circuit and single-chip microcomputer respectively.

4. underground survey power supply and communicator according to claim 3, it is characterized in that: described signal drive circuit comprises two resistance of signal input part and the parallel circuit of diode, the output terminal of two resistance and diodes in parallel circuit is connected respectively to the grid of two complementary field effect pipes, then the marking current that loads the positive polarity after being amplified by field effect with respect to anode at the negative electrode of a diode is exported.