CN209765162U - Multifunctional magnifier for field rock and ore observation and identification - Google Patents

Abstract

The utility model discloses a multi-functional magnifying glass of appraisal is observed in open-air rock ore deposit, including magnifying glass, magnifying glass casing, casing axle, scale, magnet, streak board, copper sclerometer, ordinary steel sclerometer, tungsten steel sclerometer. The shell is formed by connecting 3 shell shaft combining screws and columnar steel gaskets; the magnifier shell is arranged at one end of the fan-shaped appearance convergence of the shell; the streak plate, the magnet and the scale are sequentially arranged at one end of the fan-shaped appearance expansion of the shell from top to bottom; the tungsten steel hardness tester, the common steel hardness tester and the copper hardness tester are sequentially arranged at the other end of the shell, which is unfolded from the top to the bottom. Through the improved combination of a plurality of instruments in proportion, form a whole multi-functional instrument, portable and instrument switch over, solved the many and scattered problem of open-air geology apparatus, avoided the problem that the instrument lost in the course of the work, improved the efficiency of observing and appraising the rock and ore deposit among the open-air geology work.

Description

Multifunctional magnifier for field rock and ore observation and identification

Technical Field

The utility model relates to a geology scientific equipment and facility, concretely relates to multi-functional open-air geology magnifying glass.

Background

The identification of the wild rock (ore) is mainly carried out by visual observation, and physical and chemical properties are clarified by means of some tools to identify the mineral components of the wild rock (ore). Under the action of specific geological environment and geology, various minerals forming the rock often form other-shaped, semi-self-shaped and self-shaped structures, and are difficult to accurately identify by single visual observation.

The identification of the wild rock (ore) can be realized by some simple tools: such as a hammer, a magnifying glass, a knife, a magnet, a fluorescent lamp, 5% dilute hydrochloric acid, and the like. When observing, firstly, the fresh surface of the rock is knocked away by a geological hammer to do other work, otherwise, the weathered surface of the rock can generate wrong recognition in the observation. Minerals with a hardness of 5.5 or above can be distinguished by a knife (ordinary steel hardness tester). The magnifier can magnify the fine mineral particles in the rock by 10 times, can observe the components, the structures and the like, and can observe the mineral components, the structures and the structural phenomena of the rock by using a tool in hands. A magnet is needed to know whether the mineral has magnetism; identifying whether the minerals have fluorescence effect and need to be irradiated by an ultraviolet flashlight; a streak plate is needed for identifying the color of mineral streaks; when the rock and ore photos are shot in the field, a ruler or a pencil and the like are needed to be used as reference objects.

In the field geological work, the rock and mine field identification can be clearly carried out by means of a plurality of tools, the use switching between the tools and the field severe environment often causes inconvenience when the tools are used, and the tools are very small and are easy to forget and lose.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art, the utility model provides a multi-functional magnifying glass of appraisal is observed in open-air rock ore deposit has solved the use between instrument and the instrument and has switched and open-air abominable environment, often has inconvenient when the use tool, and these instruments are all very little moreover, forget easily, the problem of loss.

In order to achieve the above object, the utility model provides a following technical scheme: a multifunctional magnifier for field rock and mine observation and identification comprises a magnifier, a magnifier shell, a shell shaft, a scale, a magnet, a streak plate, a copper hardness meter, a common steel hardness meter and a tungsten steel hardness meter. The shell is composed of two pieces of stainless steel with the same specification, and is formed by connecting 3 shell shaft binding screws and columnar steel gaskets; the magnifier shell is arranged at one end of the shell with the sector-shaped appearance convergence and is connected with the shell through a shell shaft; the streak plate, the magnet and the scale are sequentially arranged at one end of the fan-shaped appearance expansion of the shell from top to bottom and are connected with the shell through a shell shaft; the tungsten steel hardness tester, the common steel hardness tester and the copper hardness tester are sequentially arranged at the other end of the fan-shaped appearance of the shell from top to bottom and are connected with the shell through a shell shaft.

Preferably, the magnifier is arranged in the magnifier shell, the LED illuminating lamp and the ultraviolet lamp are arranged on the inner side of the edge of the magnifier, the lens of the magnifier is selected from 10X and 21mm, the magnifier shell and the shell are connected in a shell shaft hinge connection mode and can rotate clockwise or anticlockwise for 180 degrees.

Preferably, the streak plate, the magnet and the scale are connected with the shell in a shell shaft hinge connection mode and can rotate clockwise to 180 degrees; the streak plate is hinged on a shell shaft by embedding a steel sheet into a non-glazed white ceramic sheet; the magnet is embedded and hinged on the shell shaft by adopting an aluminum alloy sheet; the scale is hinged on the shell shaft by a steel sheet.

Preferably, the tungsten steel hardness tester, the common steel hardness tester and the copper hardness tester are connected with the shell through a shell shaft and can rotate to a 180-degree position anticlockwise; the tungsten steel hardness meter is hinged on the shell shaft; the common steel hardness meter is hinged on the shell shaft; and the copper hardness meter is hinged on the shell shaft.

Preferably, the LED illuminating lamp is controlled by a white lamp switch; the ultraviolet lamp is controlled by a purple lamp switch; the battery box is arranged on the reverse side of the magnifier shell.

The utility model provides a rotatory foldable multi-functional magnifying glass for appraisal is observed in open-air rock ore deposit possesses following beneficial effect.

(1) The utility model discloses an instrument in with magnifying glass, LED illumination, ultraviolet ray torch, streak board, magnet, scale, copper sclerometer, ordinary steel sclerometer, a plurality of instruments of tungsten steel sclerometer improve in proportion and combine together, form a little whole multi-functional instrument, portable and tool room's switching use, solved many and scattered problems of open-air geology apparatus, avoided the problem that instrument lost, forgotten in the working process, improved the efficiency of field observation, appraisal to the rock mine field in the open-air geology work.

(2) The tungsten steel hardness tester can solve the identification of mineral hardness between 5.5 and 8 in Mohs hardness. The matching of the copper hardness tester, the common steel hardness tester and the tungsten steel hardness tester can basically meet the requirements of field geological rock observation and identification.

Drawings

FIG. 1 is an overall plan expanded view;

FIG. 2 is a block diagram;

Fig. 3 is a reverse view of the magnifier.

The reference numbers in the figures are: a magnifying glass 1; a magnifier housing 2; an LED illumination lamp 3; a housing 4; a scale 5; a magnet 6; a streak plate 7; a screw 8; an ultraviolet lamp 9; a white light switch 101; a violet light switch 102; a copper hardness meter 11; a common steel hardness meter 12; a tungsten steel hardness meter 13; a housing shaft 14; a battery case 15.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

As shown in fig. 1-3, the utility model provides a technical solution: a multifunctional magnifier for field rock and mine observation and identification comprises a magnifier 1, a magnifier shell 2, a shell 4, a shell shaft 14, a scale 5, a magnet 6, a streak plate 7, a copper hardness tester 11, a common steel hardness tester 12 and a tungsten steel hardness tester 13. The shell 4 is composed of two pieces of stainless steel with the same specification, and is connected into a shell by 3 shell shafts 14 combined with screws and columnar steel gaskets; the magnifier shell 2 is arranged at one end of the shell 4 with the sector-shaped appearance convergence and is connected with the shell 4 in a hinge connection mode through a shell shaft 14; the streak plate 7, the magnet 6 and the scale 5 are sequentially arranged at one end of the casing 4 with the fan-shaped appearance unfolded from top to bottom and are connected with the casing 4 through a casing shaft 14; the tungsten steel hardness tester 13, the common steel hardness tester 12 and the copper hardness tester 11 are sequentially arranged at the other end of the fan-shaped appearance of the shell 4 from top to bottom and are connected with the shell 4 through a shell shaft 14.

Magnifying glass 1 is arranged in magnifying glass casing 2, and LED light 3, ultraviolet lamp 9 are arranged in magnifying glass 1 edge inboard, and 10X, 21mm specification are chooseed for use to magnifying glass 1 lens, and magnifying glass casing 2 is connected through casing axle 14 hinged joint mode with casing 4, clockwise or anticlockwise rotation 180 during the use.

The streak plate 7, the magnet 6 and the scale 5 are connected with the shell 4 through a shell shaft 14 in a hinge connection mode, and rotate clockwise to 180 degrees when in use; the streak plate 7 is hinged on the shell shaft 14 by embedding a steel sheet with a non-glazed white ceramic sheet; the magnet 6 is embedded and hinged on the shell shaft 14 by adopting an aluminum alloy sheet; the scale 5 is hinged on the shell shaft 14 by a steel sheet.

The tungsten steel hardness tester 13, the common steel hardness tester 12 and the copper hardness tester 11 are connected with the shell 4 through a shell shaft 14 and rotate anticlockwise to a position of 180 degrees when in use; the tungsten steel hardness tester 13 is hinged to the shell shaft 14 and is used for identifying minerals with Mohs hardness less than 9; the common steel hardness tester 12 is hinged on the shell shaft 14 and is used for identifying minerals with Mohs hardness less than 5.5; the copper hardness tester 11 is hinged on a shell shaft 14 and is used for identifying minerals with Mohs hardness less than 3.

The LED illuminating lamp 3 is controlled by a white lamp switch 101; the ultraviolet lamp 9 is controlled by a purple lamp switch 102; the battery box 15 is arranged on the reverse side of the magnifier shell 2 and provides power for the LED illuminating lamp 3 and the ultraviolet lamp 9.

The working principle is as follows: when the magnifier 1, the LED illuminating lamp 3 and the ultraviolet lamp 9 are used, the magnifier shell 2 is rotated by 180 degrees clockwise or anticlockwise. The magnifying glass is used for under-lens observation of rock and mine, and the LED illuminating lamp 3 can be turned on to control the white lamp switch 101 to complement light when the light is insufficient, so that clear observation is facilitated; the ultraviolet lamp 9 is used for knowing whether the mineral has a fluorescence effect and a phosphorescence effect. After use, the magnifier shell is rotated clockwise or counterclockwise by 180 degrees and retracted.

The streak plate 7, the magnet 6 and the scale 5 rotate clockwise to 180 degrees when in use, and can rotate anticlockwise to 180 degrees to return after use.

When the tungsten steel hardness tester 13, the common steel hardness tester 12 and the copper hardness tester 11 are used, the tungsten steel hardness tester rotates anticlockwise to a position of 180 degrees, and rotates clockwise to return to the position of 180 degrees after the tungsten steel hardness tester is used; the tungsten steel hardness tester 13 is used for identifying minerals with Mohs hardness less than 9; the ordinary steel hardness tester 12 is used for identifying minerals with Mohs hardness less than 5.5; the copper durometer 11 is used to identify minerals with a mohs hardness of less than 3.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. The utility model provides a multi-functional magnifying glass of appraisal is observed in open-air rock ore deposit, includes magnifying glass (1), magnifying glass casing (2), casing (4), casing axle (14), scale (5), magnet (6), streak board (7), copper sclerometer (11), ordinary steel sclerometer (12), tungsten steel sclerometer (13), its characterized in that: the shell (4) is composed of two pieces of stainless steel with the same specification, and is connected into a shell by 3 shell shafts (14) combined with screws and columnar steel gaskets; the magnifier shell (2) is arranged at one end of the shell (4) with the sector-shaped appearance convergence; the streak plate (7), the magnet (6) and the scale (5) are sequentially arranged at one end of the casing (4) with the fan-shaped appearance unfolded from top to bottom; the tungsten steel hardness tester (13), the common steel hardness tester (12) and the copper hardness tester (11) are sequentially arranged at the other end of the fan-shaped appearance of the shell (4) from top to bottom.

2. The multifunctional magnifier for observing and identifying field rock and mine according to claim 1, wherein the multifunctional magnifier comprises: magnifying glass casing (2) is arranged in magnifying glass casing (1), and magnifying glass (1) edge inboard is arranged in LED light (3), ultraviolet lamp (9), and magnifying glass (1) lens chooses for use 10x, 21mm specification, magnifying glass casing (2) is connected through casing axle (14) hinged joint mode with casing (4), but clockwise or anticlockwise rotation 180.

3. The multifunctional magnifier for observing and identifying field rock and mine according to claim 1, wherein the multifunctional magnifier comprises: the streak plate (7), the magnet (6), the scale (5) and the shell (4) are connected in a hinge connection mode through a shell shaft (14) and can rotate clockwise to 180 degrees; the streak plate (7) is hinged on a shell shaft (14) by embedding a steel sheet into a non-glazed white ceramic sheet; the magnet (6) is embedded and hinged on the shell shaft (14) by adopting an aluminum alloy sheet; the scale (5) is hinged on the shell shaft (14) by adopting a steel sheet.

4. The multifunctional magnifier for observing and identifying field rock and mine according to claim 1, wherein the multifunctional magnifier comprises: the tungsten steel hardness tester (13), the common steel hardness tester (12) and the copper hardness tester (11) are connected with the shell (4) in a hinge connection mode through a shell shaft (14) and can rotate to 180 degrees counterclockwise.

5. The multifunctional magnifier for observing and identifying field rock and mine according to claim 2, wherein the multifunctional magnifier comprises: the LED illuminating lamp (3) is controlled by a white lamp switch (101); the ultraviolet lamp (9) is controlled by a purple light switch (102).