CN212988382U - Multifunctional electronic geological compass - Google Patents

Abstract

The utility model discloses a multi-functional electron geological compass adopts the waterproof shell of can opening the lid, including shell body and cap. An electronic compass, a GPS positioning device, a temperature and humidity measuring device, a micro switch, an ARM main processor, a lithium battery, a display, a quick charge and discharge unit and a Type-C interface are arranged at proper positions on the shell body and the shell cover; meanwhile, a magnifying glass, a tape measure and lighting equipment are integrated at the proper position on the shell. The utility model overcomes mechanical compass operating efficiency is low, measuring error is big shortcoming, makes it can acquire the measured data of open-air geological disaster investigation high-efficiently, accurately.

Description

Multifunctional electronic geological compass

Technical Field

The invention relates to the field of geological survey, in particular to a multifunctional electronic geological compass.

Background

The geological compass is an essential tool for field geological disaster investigation. By means of which the orientation can be identified, the position can be determined, the geobody attitude can be measured, etc. Most of the conventional geological compasses are mechanical compasses, the mechanical compasses need to read results according to a dial, the operation efficiency is low, and the measurement error is large. A small number of electronic compasses exist, but most of the electronic compasses have single function and limited measurable parameters, and the practical requirements of field geological disaster investigation are not met.

SUMMERY OF THE UTILITY MODEL

To the problem, the utility model provides a multi-functional electron geology compass integrates multiple functions, makes its measured data that can acquire open-air geological disaster investigation high-efficiently, accurately.

The utility model discloses multi-functional electron geological compass has the waterproof shell of can opening the lid, including shell body and cap.

Wherein, an electronic compass, a GPS positioning device, a temperature and humidity measuring device, a microswitch, an ARM main processor and a lithium battery are arranged in the shell body. The upper surface of the shell cover is provided with a display screen.

The electronic compass, the GPS positioning device, the temperature and humidity measuring device and the ARM main processor are connected with the microswitch; the ARM main processor is also connected with a lithium battery and a display screen; meanwhile, a magnifying glass, a tape measure and lighting equipment are integrated on the shell.

Meanwhile, a quick charge and discharge unit is also installed in the shell body, and a Type-C interface is embedded outside the shell body; the Type-C interface is connected with the quick charge and discharge unit, and the quick charge and discharge unit is connected with the positive and negative poles of the lithium battery.

The utility model has the advantages that:

1. the utility model discloses multi-functional electronic geological compass has overcome the shortcoming that mechanical compass operating efficiency is low, measuring error is big, makes it can acquire the measured data of open-air geological disaster investigation high-efficiently, accurately.

2. The utility model discloses multi-functional electron geological compass combines electron compass module, GPS module, temperature hygrometer module, can measure and obtain the required geology of open-air geological disaster investigation and produce form, geographical position, temperature humidity data.

3. The utility model discloses multi-functional electron geological compass, three kinds of instruments of outdoor geological disaster investigation commonly used of integrated geology magnifying glass, tape measure, LED illumination.

4. The utility model discloses multi-functional electron geology compass possesses Type-C interface, can realize quick charge-discharge.

5. The utility model discloses multi-functional electronic geology compass is equipped with the lithium cell of large capacity, and the time of endurance is long to can carry out quick charge for other electronic equipment as the treasured that charges when open-air geological disasters surveys.

Drawings

Figure 1 is the utility model discloses multi-functional electron geology compass overall structure schematic diagram.

Figure 2 is the utility model discloses multi-functional electronic geological compass inner structure schematic diagram.

Fig. 3 is the utility model discloses multi-functional electronic geological compass rear view structure schematic diagram.

In the figure:

1-compass casing 2-electronic compass 3-GPS positioning device

4-temperature and humidity measuring device 5-microswitch 6-ARM main processor

7-display screen 8-rapid charging and discharging unit 9-lithium battery

10-Type-C interface 11-magnifying glass 12-tape measure

13-lighting equipment 14-hinge 15-rotating shaft

16-control panel

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The utility model discloses multi-functional electron geological compass, including compass casing 1, electron compass 2, GPS positioner 3, temperature and humidity measuring device 4, micro-gap switch 5, ARM owner treater 6, display screen 7, quick charge-discharge unit 8, lithium cell 9, Type-C interface 10, magnifying glass 11, tape measure 12 and lighting apparatus 13, as shown in fig. 1, fig. 2.

The compass housing 1 comprises a housing body 101 and a housing cover 102, wherein the cross section of the housing body 101 is rectangular. The shell body 101 is hinged with the back side of the shell cover 102 through a hinge 14. The top surface of the shell body 101 is provided with a rectangular groove, the outer edge of the rectangular groove is close to the edge of the top surface of the shell body and is used for embedding the top plate 16, and the LED display screen 7 is embedded in the top plate 16; meanwhile, a groove is formed in the middle of the bottom surface of the rectangular groove, and an electronic compass 2 is installed in the groove; the bottom surface of the rectangular groove is positioned on the right side of the electronic compass 2, a groove is formed to form a cavity 103, and each functional module, including the GPS positioning device 3, the microswitch 5, the ARM main processor 6 and the rapid charging and discharging unit 8, is arranged in the cavity 103. The bottom surface of the rectangular groove is arranged above the electronic compass 2 and is provided with a battery bin 104 for installing the lithium battery 9. The top surfaces of the cavity 103 and the battery compartment 104 are provided with cover plates fixed by screws, and after the top plate is detached, the cover plates are detached by further loosening the screws, so that the internal functional modules are maintained, and the lithium battery 9 is replaced.

The electronic compass 2 adopts a model TELESKY-GY-273-QMC5883L, is a surface-mounted high-integration module and is a weak magnetic sensor chip with a digital interface, and the magnetic sensor is a sensor with highest sensitivity and best reliability in the industry and is widely applied to the fields of low-cost compasses and magnetic field detection.

The GPS positioning device 3 is used for acquiring current position information in real time. The GPS positioning device 3 is a NEO-6M GPS, is provided with a high-performance passive ceramic antenna, and has the advantages of high integration level, low power consumption, miniaturization and the like. The GPS receiver module has extremely high tracking sensitivity and can realize high-precision positioning in places where the common GPS receiver module cannot position.

Temperature and humidity measurement device 4 includes the temperature and humidity transducer of high sensitivity, and is embedded in the trompil on the lateral wall before shell body 1 for temperature and humidity under the real-time rapid survey field environment.

The electronic compass 2, the GPS positioning device 3, the temperature and humidity measuring device 4 and the ARM main processor 6 are all connected with the microswitch 5; the micro switch 5 is embedded in the right side surface of the shell 101, and the micro switch 5 controls the on and off of each functional module. The ARM main processor 6 is used for processing data collected by the electronic compass 2, the GPS positioning device 3 and the temperature and humidity measuring device 4 in real time to obtain measuring information, position information and temperature and humidity information of the electronic compass. The ARM main processor 6 is also connected with a display screen 7 and sends various processed information to the display screen 7 for display.

Lithium cell 9 installs in battery compartment 104, links to each other with ARM owner processor 6, is used for doing the utility model discloses each functional module power supply of multi-functional electron geological compass. The capacity of the lithium battery 9 is 5000mAh-20000mAh, and the long-time endurance requirement of field work is met.

The Type-C interface 10 is designed on the right side face of the shell body 101 and is connected with the quick charge and discharge unit 11 arranged in the shell body 101, the quick charge and discharge unit 11 is connected with the positive electrode and the negative electrode of the lithium battery 9, and the Type-C interface 10 is connected with an external power supply to meet the requirements of quick charge and discharge during field work.

The tape measure mechanism 11 is used for measuring the size of a field geologic body, has the same structure as the existing tape measure, and is provided with an internal wheel shaft and a steel ruler wound outside the wheel shaft. One side of the housing of the tape measure mechanism 11 is fixedly mounted to the bottom of the housing body 101, as shown in fig. 3. The cross section dimension is designed to be the same as the cross section dimension of the shell body 101, so that the circumferential side surface of the tape measure mechanism 11 is flush with the circumferential side wall of the compass shell body 1, and the integral appearance of the electronic geological compass is neat. The thickness of the whole tape measure shell and the width of the internal steel ruler are designed to be smaller, wherein the thickness of the tape measure shell is designed to be 1cm, and the thickness of the tape measure is smaller than 1cm, so that the volume of the whole electronic geological compass is reduced.

The magnifier 11 has a rectangular plate-shaped frame structure, and a magnifying lens is embedded in the front end of the magnifier. The frame structure of the magnifier 11 is arranged in parallel with the left side surface of the compass shell 1, and the tail end of the magnifier is connected with the left side surface of the compass shell through the rotating shaft 15 to form a rotating pair, so that the magnifier 11 can be screwed out to observe field geologic bodies in detail. The length of the frame structure of the magnifier 11 is equal to the length of the compass shell 1 in the front-back direction, and the width is equal to the sum of the thickness of the compass shell 1 and the thickness of the tape measure shell, so that the magnifier 11 is superposed with the left side surface of the electronic geological compass covered by the shell cover 102 when being in a retraction state, and the integral appearance of the electronic geological compass is kept neat.

The lighting mechanism 13 is an LED lamp strip, is mounted on the rear side face of the shell cover 102, is connected with the micro switch 5 and the lithium battery 9, and is used for auxiliary lighting during field work.

The utility model discloses line between each functional module in, all walk the line through the line passageway of walking of shell body 101 with cap 102 internal design, do not influence the pleasing to the eye of electron geological compass.

Claims (7)

1. A multi-functional electronic geological compass characterized in that: the waterproof shell with an openable cover comprises a shell body and a shell cover; wherein, an electronic compass, a GPS positioning device, a temperature and humidity measuring device, a microswitch, an ARM main processor and a lithium battery are arranged in the shell body; a display screen is arranged on the upper surface of the shell body; the electronic compass, the GPS positioning device, the temperature and humidity measuring device and the ARM main processor are connected with the microswitch; the ARM main processor is also connected with a lithium battery and a display screen; and meanwhile, a magnifying glass, a measuring tape and lighting equipment are also arranged on the shell.

2. A multi-functional electronic geological compass as defined in claim 1, characterized in that: the shell body is also internally provided with a quick charge and discharge unit, and a Type-C interface is embedded outside the quick charge and discharge unit; the Type-C interface is connected with the quick charge and discharge unit, and the quick charge and discharge unit is connected with the positive and negative poles of the lithium battery.

3. A multi-functional electronic geological compass as defined in claim 1, characterized in that: a groove is formed in the right side of the electronic compass instrument on the shell body to form a cavity, and a GPS positioning device, a microswitch and an ARM main processor are arranged in the cavity; a battery bin is designed above the electronic compass instrument, and a lithium battery is installed in the battery bin.

4. A multi-functional electronic geological compass as defined in claim 3, characterized in that: the cavity and the top surface of the battery compartment are provided with cover plates fixed by screws.

5. A multi-functional electronic geological compass as defined in claim 1, characterized in that: the tape measure is mounted on the bottom surface of the shell, and the size of the cross section of the tape measure is designed to be the same as that of the cross section of the shell.

6. A multi-functional electronic geological compass as defined in claim 1, characterized in that: the magnifier has a rectangular plate-shaped frame structure, and a magnifying lens is embedded in the front end of the magnifier; the frame structure of the magnifier and the side surface of the compass shell are connected with each other through a rotating shaft and the left side surface of the compass shell to form a revolute pair.

7. A multi-functional electronic geological compass as defined in claim 1, characterized in that: the length of the frame structure of the magnifier is equal to the length of the shell in the front-back direction, and the width of the frame structure of the magnifier is equal to the sum of the thickness of the shell and the thickness of the tape measure shell arranged on the bottom surface of the shell.

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