CN203879487U - Measuring while drilling inclinometry system - Google Patents

Abstract

The utility model discloses a measuring while drilling inclinometry system which comprises an inclinometry mechanism and a data collecting mechanism. The data collecting mechanism is connected with the inclinometry mechanism through a USB data line. The inclinometry mechanism is provided with a clamping groove, a connecting thread, a battery bin, a power switch, a communication interface, an integrated circuit board and a cover plate. The data collecting mechanism is provided with a second power switch, a charging interface, a second battery bin, a lithium battery, a circuit board, a second communication interface, a liquid crystal display and a key panel. The integrated circuit board is provided with an acceleration sensor and a magnetic field sensor. The measuring while drilling inclinometry system has the advantages of being convenient to use, easy to operate, high in inclinometry precision and the like.

Description

A kind of with boring deviational survey system

Technical field

The utility model relates to a kind of with boring deviational survey system, is applied to measurement and the assembling sphere of the trajectory parameters of coal bed drilling.

Background technology

In the recovery process in colliery; need to then extract certain density gas out to coal bed drilling; in the process of boring, need whether run-off the straight of measured hole, at present, mainly adopt inclination measurement device to measure; but when being used, existing inclination measurement device need to first use bit bore; and then inclination measurement device is put in boring, so not only time-consuming taking a lot of work, and deviational survey precision is not high; and existing data acquisition handset need to often change battery, cumbersome.

Utility model content

For solving the defect of above-mentioned prior art scheme, the utility model discloses a kind of easy to use, simple to operate with boring deviational survey system.

The utility model discloses a kind ofly with boring deviational survey system, comprising: tilt check mechanism, data acquisition mechanism, described data acquisition mechanism is connected with tilt check mechanism by usb data line.

On described tilt check mechanism, be provided with holding tank, connecting thread, battery compartment, power switch, communication interface, surface-mounted integrated circuit, cover plate, described holding tank is arranged on the front portion of tilt check mechanism, described connecting thread is located at the front end of tilt check mechanism, described battery compartment is screwed in the inside of tilt check mechanism, described power switch is arranged on tilt check mechanism inside, described power switch is connected with surface-mounted integrated circuit by electric wire, described communication interface is arranged on tilt check mechanism inside, described communication interface is connected with surface-mounted integrated circuit by wire, described surface-mounted integrated circuit is screwed in the inside of tilt check mechanism, described surface-mounted integrated circuit is connected with battery compartment by electric wire, described cover plate is actively installed on tilt check mechanism.

Described data acquisition mechanism is provided with power switch two, charging inlet, battery compartment two, lithium battery, circuit board, communication interface two, liquid crystal display, key panel, described power switch two, charging inlet is arranged on the front of data acquisition mechanism, it is inner that described battery compartment two is screwed in data acquisition mechanism, described power switch two is connected with circuit board by electric wire, described lithium battery is placed in battery compartment two, described circuit board is connected with battery compartment two by electric wire, described circuit board is screwed in data acquisition mechanism, described communication interface two is arranged on the front of data acquisition mechanism, described communication interface two is connected with circuit board by electric wire, described liquid crystal display is arranged on the front of data acquisition mechanism, described liquid crystal display is connected with circuit board by electric wire, described key panel is arranged on the front of data acquisition mechanism.

Described surface-mounted integrated circuit is provided with acceleration transducer and magnetic field sensor.

Owing to adopting technique scheme, the utlity model has following useful advantage:

1, easy to use;

2, simple to operate;

3, deviational survey precision is high.

Accompanying drawing explanation

Fig. 1 is a kind of sectional structure schematic diagram with boring deviational survey system of the utility model;

Fig. 2 is a kind of sectional structure schematic diagram with boring the data acquisition mechanism of deviational survey system of the utility model.

Wherein: 1-tilt check mechanism; 2-data acquisition mechanism; 3-holding tank; 4-connecting thread; 5-battery compartment; 6-power switch; 7-communication interface; 8-surface-mounted integrated circuit; 9-cover plate; 10-power switch two; 11-charging inlet; 12-battery compartment two; 13-lithium battery; 14-circuit board; 15-communication interface two; 16-liquid crystal display; 17-key panel; 18-acceleration transducer; 19-magnetic field sensor.

The specific embodiment

As depicted in figs. 1 and 2, the utility model discloses a kind ofly with boring deviational survey system, comprising: tilt check mechanism 1, data acquisition mechanism 2, described data acquisition mechanism 2 is connected with tilt check mechanism 1 by usb data line.

On described tilt check mechanism 1, be provided with holding tank 3, connecting thread 4, battery compartment 5, power switch 6, communication interface 7, surface-mounted integrated circuit 8, cover plate 9, described holding tank 3 is arranged on the front portion of tilt check mechanism 1, described connecting thread 4 is located at the front end of tilt check mechanism 1, described battery compartment 5 is screwed in the inside of tilt check mechanism 1, described power switch 6 is arranged on tilt check mechanism 1 inside, described power switch 6 is connected with surface-mounted integrated circuit 8 by electric wire, described communication interface 7 is arranged on tilt check mechanism 1 inside, described communication interface 7 is connected with surface-mounted integrated circuit 8 by wire, described surface-mounted integrated circuit 8 is screwed in the inside of tilt check mechanism 1, described surface-mounted integrated circuit 8 is connected with battery compartment 5 by electric wire, described cover plate 9 is actively installed on tilt check mechanism 1.

Described data acquisition mechanism 2 is provided with power switch 2 10, charging inlet 11, battery compartment 2 12, lithium battery 13, circuit board 14, communication interface 2 15, liquid crystal display 16, key panel 17, described power switch 2 10, charging inlet 11 is arranged on the front of data acquisition mechanism 2, described battery compartment 2 12 is screwed in data acquisition mechanism 2 inside, described power switch 2 10 is connected with circuit board 14 by electric wire, described lithium battery 13 is placed in battery compartment 2 12, described circuit board 14 is connected with battery compartment 2 12 by electric wire, described circuit board 14 is screwed in data acquisition mechanism 2, described communication interface 2 15 is arranged on the front of data acquisition mechanism 2, described communication interface 2 15 is connected with circuit board 14 by electric wire, described liquid crystal display 16 is arranged on the front of data acquisition mechanism 2, described liquid crystal display 16 is connected with circuit board 14 by electric wire, described key panel 17 is arranged on the front of data acquisition mechanism 2.

Described surface-mounted integrated circuit 8 is provided with acceleration transducer 18 and magnetic field sensor 19.

The utility model is to implement like this: before boring, open cover plate 9, battery is put into battery compartment 5, power-on switch 6 and power switch 2 10, first with usb data connecting line, connect communication interface 7 and communication interface 2 15, in order to connect tilt check mechanism 1 and data acquisition mechanism 2, by controlling key panel 17, carry out time synchronized, after synchronous success, pull out usb data connecting line, again cover cover plate 9, get two joint drilling rods, drill bit is contained in drilling rod and carries out foremost drilling operation, tilt check mechanism 1 is passed through to holding tank 3, connecting thread 4 is tightened with the cutting ferrule that is connected that joint drilling rod of drill bit, thereby tilt check mechanism 1 front end is connected with drilling rod, the rear end of tilt check mechanism 1 is connected with another joint drilling rod by inserting cutting ferrule, tilt check mechanism 1 just and drilling rod like this, drill bit forms an integral body, drill bit is in the process of boring, acceleration sensing 18 devices in tilt check mechanism 1 and magnetic field sensor 19 gather inclination angle and azimuth information, and signal is transferred to surface-mounted integrated circuit 8, 8 pairs of signals of surface-mounted integrated circuit are processed, change and store, punching, survey data and processing, storage data complete simultaneously, thereby avoided first punching, inclination measurement device being put into hole measures brought not convenient again, and acceleration transducer 18 and 19 pairs of inclination angles of magnetic field sensor and azimuth information Real-time Collection, thereby avoided the inaccurate defect of deviational survey precision, then, after drilling construction completes, open cover plate 9, by the communication interface 7 on usb data connecting line connection tilt check mechanism 1 and the communication interface 2 15 in data acquisition mechanism 2, by controlling the data-signal of the 17 pairs of surface-mounted integrated circuit 8 interior storages of key panel in data acquisition mechanism 2, gather, data-signal is processed on circuit board 14, conversion and storage, by liquid crystal display 16, show, lithium battery 13 in data acquisition mechanism 2 does not have electric time, charger is connected and can lithium battery 13 be charged with charging inlet 11, avoided often changing not convenient that battery brings, easy to operate.

Finally it should be noted that: above embodiment is only in order to illustrate the utility model and the described technical scheme of unrestricted the utility model; Therefore, although this manual has been described in detail the utility model with reference to each above-mentioned embodiment,, those of ordinary skill in the art should be appreciated that still and can modify or be equal to replacement the utility model; And all do not depart from technical scheme and the improvement thereof of spirit and scope of the present utility model, it all should be encompassed in claim scope of the present utility model.

Claims (4)

1. with boring a deviational survey system, comprising: tilt check mechanism, data acquisition mechanism, is characterized in that: described data acquisition mechanism is connected with tilt check mechanism by usb data line.

2. according to claim 1 a kind of with boring deviational survey system, it is characterized in that: on described tilt check mechanism, be provided with holding tank, connecting thread, battery compartment, power switch, communication interface, surface-mounted integrated circuit, cover plate, described holding tank is arranged on the front portion of tilt check mechanism, described connecting thread is located at the front end of tilt check mechanism, described battery compartment is screwed in the inside of tilt check mechanism, described power switch is arranged on tilt check mechanism inside, described power switch is connected with surface-mounted integrated circuit by electric wire, described communication interface is arranged on tilt check mechanism inside, described communication interface is connected with surface-mounted integrated circuit by wire, described surface-mounted integrated circuit is screwed in the inside of tilt check mechanism, described surface-mounted integrated circuit is connected with battery compartment by electric wire, described cover plate is actively installed on tilt check mechanism.

3. according to claim 1 a kind of with boring deviational survey system, it is characterized in that: described data acquisition mechanism is provided with power switch two, charging inlet, battery compartment two, lithium battery, circuit board, communication interface two, liquid crystal display, key panel, described power switch two, charging inlet is arranged on the front of data acquisition mechanism, it is inner that described battery compartment two is screwed in data acquisition mechanism, described power switch two is connected with circuit board by electric wire, described lithium battery is placed in battery compartment two, described circuit board is connected with battery compartment two by electric wire, described circuit board is screwed in data acquisition mechanism, described communication interface two is arranged on the front of data acquisition mechanism, described communication interface two is connected with circuit board by electric wire, described liquid crystal display is arranged on the front of data acquisition mechanism, described liquid crystal display is connected with circuit board by electric wire, described key panel is arranged on the front of data acquisition mechanism.

4. according to claim 2 a kind of with boring deviational survey system, it is characterized in that: described surface-mounted integrated circuit is provided with acceleration transducer and magnetic field sensor.