CN116643255B

CN116643255B - Geological mineral product surveys range unit

Info

Publication number: CN116643255B
Application number: CN202310897476.9A
Authority: CN
Inventors: 邓新刚; 张勇; 刘同飞; 曹士喜; 袁汝安; 郜普涛; 肖银行; 张文青; 刘夫天
Original assignee: Shandong Energy Zaozhuang Mining Group Co Ltd
Current assignee: Shandong Energy Zaozhuang Mining Group Co Ltd
Priority date: 2023-07-21
Filing date: 2023-07-21
Publication date: 2023-10-03
Anticipated expiration: 2043-07-21
Also published as: CN116643255A

Abstract

The invention relates to a geological mineral exploration ranging device which comprises a ranging handheld machine body, a ranging camera body, a shading lens barrel, a camera lens module, a focusing mechanism, a ranging optical component, an optical adjusting structure, a folding display and a universal fixed base, wherein the ranging optical component is arranged in the shading lens barrel, the camera lens module consists of an optical imaging structure, a zooming fixed lens and a zooming movable lens, and the ranging optical component consists of an optical sensing structure and a ranging light emitting structure. The invention optimizes the setting of a geological survey ranging device, changes the design of single-module ranging light adopted by the traditional fixed ranging device, designs an annular ranging structure consisting of a plurality of groups of ranging light and light sensing components, has an imaging element, can help positioning more accurately, has a calibration function, finely adjusts the plurality of groups of ranging light to realize calibration, has more accurate measurement results, reduces environmental interference, and is suitable for popularization and use.

Description

Geological mineral product surveys range unit

Technical Field

The invention relates to the field of geological exploration, in particular to a geological mineral exploration ranging device.

Background

In geological survey, the survey staff need use equipment such as surveying instrument, dipperstick, range finding chi to survey the geology on site, then record, surveying instrument, range finding chi are in sunlight environment, less to its actual measurement influence, but the range finding chi can be because in the in-service use, the influence of various factors leads to the range finding not very accurate, the unavoidable error appears, thereby reduced the accuracy of data, traditional range finding chi adopts single group range finding light to measure, the result of measurement is comparatively single, environmental impact is great, a geological mineral surveys range unit for this design.

Disclosure of Invention

The invention aims to provide a geological mineral exploration ranging device, which aims to solve the technical problems, and adopts the following technical scheme to realize the purposes:

the utility model provides a geological mineral survey range unit, includes the handheld organism of range finding, range finding camera organism, shading camera lens barrel, camera lens module, focusing mechanism, range finding optical subassembly, optical adjustment structure, folding display, general unable adjustment base, the range finding camera organism sets up the upside at the handheld organism of range finding, shading camera lens barrel sets up the front end at the range finding camera organism, camera lens module sets up the center at range finding camera organism and shading camera lens barrel, focusing mechanism sets up the upside at the range finding camera organism, and focusing mechanism inboard is connected with camera lens module, range finding optical subassembly sets up in shading camera lens barrel, and range finding optical subassembly sets up in the outside of camera lens module, optical adjustment structure sets up in the front end outside of range finding camera organism, and optical adjustment structure inboard is connected with range finding optical subassembly, folding display connects the side at the handheld organism of range finding, general unable adjustment base sets up the bottom side at the handheld organism of range finding.

On the basis of the technical scheme, the energy supply battery pack, the main control module, the power management module, the circuit sub-controller and the engine body internal power line are arranged in the ranging handheld engine body, the energy supply battery pack is arranged on the inner rear side of the ranging handheld engine body, the main control module is arranged on the front side of the energy supply battery pack, the power management module is arranged on the front side of the main control module, the circuit sub-controller is arranged on the top side of the main control module, the energy supply battery pack is connected with the power management module through the engine body internal power line, and the power management module, the circuit sub-controller, the camera lens module and the folding display are all connected with the main control module through the engine body internal power line, and the circuit sub-controller is connected with the ranging optical assembly through the engine body internal power line.

On the basis of the technical scheme, the camera lens module comprises an optical imaging structure, a zooming fixed lens and a zooming movable lens, the zooming fixed lens is arranged on the front side of the optical imaging structure, the zooming movable lens is connected on the front side of the zooming fixed lens, the focusing mechanism is arranged on the zooming fixed lens, the bottom side of the focusing mechanism is connected with the zooming movable lens, the ranging optical assembly comprises an optical sensing structure and a ranging light emitting structure, the ranging light emitting structure is arranged on the outer side of the front end of the zooming movable lens, the optical sensing structure is arranged on the outer side of the ranging light emitting structure, the optical adjusting structure is arranged on the outer side of the front end of the zooming movable lens, the outer side of the front end of the optical adjusting structure is inserted in the ranging light emitting structure, the ranging light emitting structure is connected with a circuit sub-controller through an internal power line of a machine body, and the optical sensing structure and the optical imaging structure are connected with the main control module through an internal power line of the machine body.

On the basis of the technical scheme, the optical induction structure is composed of single light sensing components and a fixed circuit board, the fixed circuit board is in an annular arrangement, the single light sensing components are provided with a plurality of groups, the single light sensing components of the groups are fixed on the front side of the fixed circuit board at equal circumferential angles, the fixed circuit board is connected with a main control module through an internal power line of a machine body, and the single light sensing components and the fixed circuit board are clung to the inner side wall of the front end of the shading lens barrel.

On the basis of the technical scheme, the optical adjusting structure comprises an adjusting conical ring, a connecting adjusting cylinder, a parallel gear set and an external adjusting ring, wherein the adjusting conical ring is arranged on the outer side of the front end of the connecting adjusting cylinder, the adjusting conical ring can move back and forth on the outer side of the connecting adjusting cylinder, the external adjusting ring is arranged on the outer side of the rear end of the connecting adjusting cylinder, the external adjusting ring is concentric with the connecting adjusting cylinder and is not contacted with the connecting adjusting cylinder, the parallel gear set is arranged on the top side of the connecting adjusting cylinder, the top side of the parallel gear set is connected with the external adjusting ring, the adjusting conical ring is inserted in the ranging light emitting structure, and the outer side wall of the adjusting conical ring is in contact with the inner edge of the rear side end of the ranging light emitting structure.

On the basis of the technical scheme, the ranging light emitting structure is composed of a plurality of ranging light emitters, an emitter integrated plate and an outer side internal pressure spring, the ranging light emitters are provided with a plurality of groups, the plurality of groups of ranging light emitters are arranged in an annular mode at equal circumferential angles, the emitter integrated plate is provided with a plurality of groups, the plurality of groups of emitter integrated plates are respectively arranged at the rear sides of the plurality of groups of ranging light emitters in a corresponding mode, the outer side internal pressure spring is provided with a plurality of groups, the plurality of groups of outer side internal pressure springs are correspondingly arranged on the outer side faces of the plurality of groups of emitter integrated plates, the plurality of groups of ranging light emitters, the plurality of groups of emitter integrated plates and the outer side internal pressure spring are integrally fixed, the adjacent two groups of emitter integrated plates are separable, the ranging light emitters are connected with a circuit sub-controller through an engine body internal power line, the front end of an adjusting cone ring is arranged between the plurality of groups of emitter integrated plates, the outer side wall of the adjusting cone ring is in contact with the inner edge of the rear side end of the emitter integrated plate, and the outer side end of the plurality of groups of outer side internal pressure springs are tightly attached to the inner side wall of a shading lens barrel.

On the basis of the technical scheme, the inner side wall of the adjusting cone ring is provided with a wire feeding thread, the outer side edge of the adjusting cone ring is provided with an anti-rotation directional protrusion, the anti-rotation directional protrusion is connected in the range camera body and can linearly move in the range camera body, the outer side of the front end of the connecting adjusting cylinder is provided with the wire feeding thread, the outer side of the rear end of the connecting adjusting cylinder is provided with a connecting gear pattern, the wire feeding thread on the inner side of the adjusting cone ring is connected with the wire feeding thread on the outer side of the front end of the connecting adjusting cylinder, the connecting adjusting cylinder can rotate on the inner side of the adjusting cone ring, the adjusting cone ring can be adjusted back and forth on the outer side of the connecting adjusting cylinder, positioning shafts are arranged on two sides of the parallel gear sets, connecting inner teeth are arranged on the inner side of the outer adjusting ring, the top side of the parallel gear sets is connected with the connecting inner teeth, the bottom side of the parallel gear sets is connected with the connecting gear pattern, the zoom moving lens penetrates the connecting adjusting cylinder, the positioning shafts on two sides of the parallel gear sets are connected on the inner side of the front end of the range camera body, and the gear sets can rotate in parallel by taking the positioning shafts as axes.

Compared with the prior art, the invention has the following advantages: the invention optimizes the setting of a geological survey ranging device, changes the design of single-module ranging light adopted by the traditional fixed ranging device, designs an annular ranging structure consisting of a plurality of groups of ranging light and light sensing components, has an imaging element, can help positioning more accurately, has a calibration function, finely adjusts the plurality of groups of ranging light to realize calibration, has more accurate measurement results, reduces environmental interference, and is suitable for popularization and use.

Drawings

Fig. 1 is a state diagram showing the overall appearance of the present invention.

Fig. 2 is an opened schematic view of the folding display according to the present invention.

FIG. 3 is a schematic diagram illustrating the connection of the internal structure of the present invention.

Fig. 4 is a schematic diagram of the structure of the camera lens module, the focusing mechanism, the ranging optical assembly and the optical adjustment of the present invention.

Fig. 5 is a schematic diagram of a ranging optical assembly and an optical adjustment structure according to the present invention.

FIG. 6 is a schematic diagram showing the optical sensing structure and the ranging light emitting structure of the present invention.

Fig. 7 is a schematic view of a ranging light emitting structure according to the present invention.

FIG. 8 is a schematic diagram illustrating the resolution of an optical adjustment structure according to the present invention.

Fig. 9 is a schematic view of a ranging light emitting structure according to the present invention.

Fig. 10 is a schematic view of a ranging light emitting structure and an adjusting cone ring according to the present invention.

FIG. 11 is a schematic view of a connecting adjustment cylinder, a side-by-side gear set, and an external adjustment ring of the present invention.

In the figure: the device comprises a ranging handheld body 1, a ranging camera body 2, a shading lens barrel 3, an imaging lens module 4, a focusing mechanism 5, a ranging optical assembly 6, an optical adjusting structure 7, a folding display 8 and a general fixed base 9;

the energy supply battery pack 1-1, the main control module 1-2, the power management module 1-3, the circuit sub-controller 1-4 and the power line 1-5 in the machine body;

an optical imaging structure 4-1, a zoom fixed lens 4-2 and a zoom movable lens 4-3;

an optical sensing structure 6-1, a ranging light emitting structure 6-2;

the single light sensing component 61-1 and the fixed circuit board 61-2;

the device comprises an adjusting taper ring 7-1, a connecting adjusting cylinder 7-2, a parallel gear set 7-3 and an external adjusting ring 7-4;

a ranging light emitter 62-1, an emitter integrated plate 62-2, and an outside internal pressure spring 62-3;

screw thread 71-1, anti-rotation orientation projection 71-2, connecting gear 72-1, positioning shaft 73-1, connecting internal teeth 74-1.

Detailed Description

The invention is described in further detail below with reference to the drawings and the detailed description.

The utility model provides a geological mineral survey range unit, includes that range finding handheld organism 1, range finding camera organism 2, shading lens barrel 3, camera lens module 4, focusing mechanism 5, range finding optical component 6, optics adjust structure 7, folding display 8, general unable adjustment base 9, range finding camera organism 2 sets up the topside at range finding handheld organism 1, shading lens barrel 3 sets up the front end at range finding camera organism 2, camera lens module 4 sets up the center at range finding camera organism 2 and shading lens barrel 3, focusing mechanism 5 sets up the topside at range finding camera organism 2, and focusing mechanism 5 inboard is connected with camera lens module 4, range finding optical component 6 sets up in shading lens barrel 3, and range finding optical component 6 sets up in the outside of camera lens module 4, optics adjust structure 7 sets up in the front end outside of range finding camera organism 2, and optics adjust structure 7 inboard and be connected with range finding optical component 6, folding display 8 is connected in the side of range finding handheld organism 1, general unable adjustment base 9 sets up the bottom side at range finding handheld organism 1.

The distance measuring handheld machine body 1 is internally provided with an energy supply battery pack 1-1, a main control module 1-2, a power management module 1-3, a circuit sub-controller 1-4 and a machine body internal power line 1-5, wherein the energy supply battery pack 1-1 is arranged on the inner rear side of the distance measuring handheld machine body 1, the main control module 1-2 is arranged on the front side of the energy supply battery pack 1-1, the power management module 1-3 is arranged on the front side of the main control module 1-2, the circuit sub-controller 1-4 is arranged on the top side of the main control module 1-2, the energy supply battery pack 1-1 is connected with the power management module 1-3 through the machine body internal power line 1-5, the power management module 1-3, the circuit sub-controller 1-4, the camera lens module 4 and the folding display 8 are connected with the main control module 1-2 through the machine body internal power line 1-5, and the circuit sub-controller 1-4 is connected with the distance measuring optical component 6 through the machine body internal power line 1-5.

The camera lens module 4 comprises an optical imaging structure 4-1, a zooming fixed lens 4-2 and a zooming movable lens 4-3, the zooming fixed lens 4-2 is arranged on the front side of the optical imaging structure 4-1, the zooming movable lens 4-3 is connected on the front side of the zooming fixed lens 4-2, the focusing mechanism 5 is arranged on the zooming fixed lens 4-2, the bottom side of the focusing mechanism 5 is connected with the zooming movable lens 4-3, the ranging optical component 6 comprises an optical sensing structure 6-1 and a ranging light emitting structure 6-2, the ranging light emitting structure 6-2 is arranged on the outer side of the front end of the zooming movable lens 4-3, the optical sensing structure 6-1 is arranged on the outer side of the ranging light emitting structure 6-2, the optical adjusting structure 7 is arranged on the outer side of the front end of the zooming movable lens 4-3, the outer side of the optical adjusting structure 7 is inserted in the ranging light emitting structure 6-2, the ranging light emitting structure 6-2 is connected with the circuit sub-controller 1-4 through an internal power line 1-5, and the ranging light emitting structure 6-1 is connected with the main controller through the main control structure 1-1 and the main control structure 4-1.

The optical sensing structure 6-1 is composed of a single light sensing component 61-1 and a fixed circuit board 61-2, the fixed circuit board 61-2 is in an annular arrangement, the single light sensing component 61-1 is provided with a plurality of groups, the single light sensing component 61-1 of the groups is fixed on the front side of the fixed circuit board 61-2 in an equal circumferential angle, the fixed circuit board 61-2 is connected with the main control module 1-2 through an internal power line 1-5 of the machine body, and the single light sensing component 61-1 and the fixed circuit board 61-2 are clung to the inner side wall of the front end of the shading lens barrel 3.

The optical adjusting structure 7 consists of an adjusting cone ring 7-1, a connecting adjusting cylinder 7-2, a parallel gear set 7-3 and an external adjusting ring 7-4, wherein the adjusting cone ring 7-1 is arranged on the outer side of the front end of the connecting adjusting cylinder 7-2, the adjusting cone ring 7-1 can move back and forth on the outer side of the connecting adjusting cylinder 7-2, the external adjusting ring 7-4 is arranged on the outer side of the rear end of the connecting adjusting cylinder 7-2, the external adjusting ring 7-4 is concentric with the connecting adjusting cylinder 7-2, the external adjusting ring 7-4 is not contacted with the connecting adjusting cylinder 7-2, the parallel gear set 7-3 is arranged on the top side of the connecting adjusting cylinder 7-2, the top side of the parallel gear set 7-3 is connected with the external adjusting ring 7-4, the adjusting cone ring 7-1 is inserted into the ranging light emitting structure 6-2, and the outer side wall of the adjusting cone ring 7-1 is contacted with the inner edge of the rear side end of the ranging light emitting structure 6-2.

The distance measurement light emission structure 6-2 comprises a distance measurement light emitter 62-1, an emitter integrated plate 62-2 and an outside internal pressure spring 62-3, wherein the distance measurement light emitter 62-1 is provided with a plurality of groups, the plurality of groups of distance measurement light emitters 62-1 are arranged in an annular shape in an equal circumferential angle mode, the emitter integrated plate 62-2 is provided with a plurality of groups, the plurality of groups of emitter integrated plates 62-2 are respectively and correspondingly arranged at the rear sides of the plurality of groups of distance measurement light emitters 62-1, the outside internal pressure spring 62-3 is provided with a plurality of groups, the plurality of groups of outside internal pressure springs 62-3 are correspondingly arranged at the outer side surfaces of the plurality of groups of emitter integrated plates 62-2, the plurality of groups of distance measurement light emitters 62-1, the group of outside internal pressure springs 62-3 are integrally fixed, the emitter integrated plates 62-2 of two adjacent groups are separated, the distance measurement light emitter 62-1 is connected with a circuit sub-controller 1-4 through an engine body internal power line 1-5, the front end of the adjusting cone 7-1 is arranged between the plurality of groups of emitter integrated plates 62-2, and the adjusting cone 7-1 is in close contact with the inner side wall of the inner side of the lens barrel 62-3 of the lens barrel on the outer side of the inner side of the lens barrel 62-3.

The inner side wall of the adjusting cone ring 7-1 is provided with a wire feed thread 71-1, the outer side edge of the adjusting cone ring is provided with an anti-rotation directional protrusion 71-2, the anti-rotation directional protrusion 71-2 is connected in the range camera body 2, the anti-rotation directional protrusion 71-2 can linearly move in the range camera body 2, the outer side of the front end of the connecting adjusting cylinder 7-2 is provided with a wire feed thread 71-1, the outer side of the rear end of the connecting adjusting cylinder 7-2 is provided with a connecting gear line 72-1, the wire feed thread 71-1 on the inner side of the adjusting cone ring 7-1 is connected with the wire feed thread 71-1 on the outer side of the front end of the connecting adjusting cylinder 7-2, the connecting adjusting cylinder 7-2 can rotate on the inner side of the adjusting cone ring 7-1, the adjusting cone ring 7-1 can be adjusted on the front and back sides of the connecting adjusting cylinder 7-2, two sides of the parallel gear sets 7-3 are provided with positioning shafts 73-1, the inner side of the outer adjusting ring 7-4 is provided with connecting inner teeth 74-1, the top side of the parallel gear sets 7-3 and the inner side of the parallel gear sets 7-3 are connected with the two sides of the positioning shafts 3-3, and the two sides of the parallel gear sets 7-3 can move through the shaft 3-3 and pass through the positioning shafts and the two sides of the positioning shafts 3-3.

The working principle of the invention is as follows: the use of this structure is mainly manifested in an adjustable distance measuring optical assembly 6 that can be used to image the determination of auxiliary calibration measurement points.

The focusing mechanism 5 is connected to the camera lens module 4 topside, can adjust focusing mechanism 5 according to the distance of measuring point, makes its camera lens module 4 formation of image more clear to put into folding display 8 on, help measuring personnel confirm measuring point, make it reduce the time of equipment calibration, improve measuring speed.

The adjustable distance measuring optical component 6 has the main functions of adjusting the emission angle of the distance measuring light emitter 62-1 to realize the distance between the circumference of the measuring point and the observation point of the measuring point body, thereby judging whether larger errors occur in measurement, specifically, the external adjusting ring 7-4 is manually rotated to drive the parallel gear set 7-3 by the external adjusting ring 7-4, then the connecting adjusting cylinder 7-2 rotates along with the parallel gear set, the adjusting cylinder 7-2 is connected in the rotating process, the front side of the adjusting cylinder 7-2 is in threaded connection with the adjusting cone ring 7-1, the front side of the adjusting cone ring 7-1 can not rotate, only can move forwards and backwards, the adjusting cone ring 7-1 can be adjusted forwards and backwards under the threaded pushing effect of the connecting adjusting cylinder 7-2, and because the adjusting cone ring 7-1 is in conical design, the front end of the adjusting cone ring 7-1 is inserted between the emitter integrated plates 62-2, when the adjusting cone ring 7-1 is gradually inserted into the emitter integrated plates 62-2 in a larger range, the distance measuring cone ring 7-1 can deflect the distance measuring light emitter 62-2, the angle of the distance measuring light emitter 62-2 is always deflected, and the angle of the distance measuring light emitter 62-2 is always changed, and the distance measuring light emitter 62-1 is always has the angle-receiving angle-1, and the angle of the distance measuring light emitter is always changed, and the distance measuring light emitter 62-2 is always changes, the data collected by the optical sensing structures 6-1 are put on the foldable display 8 through the main control module 1-2, and a measurer can compare the measured data to judge whether the measured distance in the initial state has a larger error.

The foregoing is a preferred embodiment of the present invention, and it will be apparent to those skilled in the art from this disclosure that changes, modifications, substitutions and alterations can be made without departing from the principles and spirit of the invention.

Claims

1. The utility model provides a geological mineral survey range unit, its characterized in that, including range finding handheld organism (1), range finding camera organism (2), shading lens barrel (3), camera lens module (4), focusing mechanism (5), range finding optical subassembly (6), optical adjustment structure (7), folding display (8), general unable adjustment base (9), range finding camera organism (2) set up the topside at range finding handheld organism (1), shading lens barrel (3) set up the front end at range finding camera organism (2), camera lens module (4) set up the center at range finding camera organism (2) and shading lens barrel (3), focusing mechanism (5) set up the topside at range finding camera organism (2), and focusing mechanism (5) inboard is connected with camera lens module (4), range finding optical subassembly (6) set up in shading lens barrel (3), and range finding optical subassembly (6) set up the outside at camera lens module (4), optical adjustment structure (7) set up the front end outside at range finding organism (2), and optical adjustment structure (7) are connected with camera lens module (6) in the side of folding display (8), the universal fixed base (9) is arranged at the bottom side of the ranging handheld machine body (1); the distance measurement handheld machine body (1) is internally provided with an energy supply battery pack (1-1), a main control module (1-2), a power management module (1-3), a circuit sub-controller (1-4) and a machine body internal power line (1-5), wherein the energy supply battery pack (1-1) is arranged at the inner rear side of the distance measurement handheld machine body (1), the main control module (1-2) is arranged at the front side of the energy supply battery pack (1-1), the power management module (1-3) is arranged at the front side of the main control module (1-2), the circuit sub-controller (1-4) is arranged at the top side of the main control module (1-2), the energy supply battery pack (1-1) is connected with the power management module (1-3) through a machine body internal power line (1-5), the power management module (1-3), the circuit sub-controller (1-4) and the folding display (8) are connected with the main control module (1-2) through the machine body internal power line (1-5), and the circuit sub-controller (1-4) is connected with the machine body internal power line (6); the camera lens module (4) is composed of an optical imaging structure (4-1), a zooming fixed lens (4-2) and a zooming movable lens (4-3), the zooming fixed lens (4-2) is arranged at the front side of the optical imaging structure (4-1), the zooming movable lens (4-3) is connected at the front side of the zooming fixed lens (4-2), the focusing mechanism (5) is arranged on the zooming fixed lens (4-2), the bottom side of the focusing mechanism (5) is connected with the zooming movable lens (4-3), the ranging optical component (6) is composed of an optical sensing structure (6-1) and a ranging light emitting structure (6-2), the ranging light emitting structure (6-2) is arranged at the outer side of the front end of the zooming movable lens (4-3), the optical sensing structure (6-1) is arranged at the outer side of the ranging light emitting structure (6-2), the front end of the ranging optical adjusting structure (7) is inserted into the ranging light emitting structure (6-2) and is connected with the inner side of the ranging optical component (6-2) through the ranging light emitting structure (6-1), the optical sensing structure (6-1) and the optical imaging structure (4-1) are connected with the main control module (1-2) through a power line (1-5) in the machine body; the optical induction structure (6-1) consists of a single light sensing component (61-1) and a fixed circuit board (61-2), wherein the fixed circuit board (61-2) is in annular arrangement, the single light sensing component (61-1) is provided with a plurality of groups, the single light sensing component (61-1) of the groups is fixed on the front side of the fixed circuit board (61-2) at equal circumferential angles, the fixed circuit board (61-2) is connected with the main control module (1-2) through a power line (1-5) in the machine body, and the single light sensing component (61-1) and the fixed circuit board (61-2) are tightly attached to the inner side wall of the front end of the shading lens barrel (3); the optical adjusting structure (7) consists of an adjusting conical ring (7-1), a connecting adjusting cylinder (7-2), a parallel gear set (7-3) and an external adjusting ring (7-4), wherein the adjusting conical ring (7-1) is arranged on the outer side of the front end of the connecting adjusting cylinder (7-2), the adjusting conical ring (7-1) can move back and forth on the outer side of the connecting adjusting cylinder (7-2), the external adjusting ring (7-4) is arranged on the outer side of the rear end of the connecting adjusting cylinder (7-2), the external adjusting ring (7-4) is concentric with the connecting adjusting cylinder (7-2), the external adjusting ring (7-4) is not contacted with the connecting adjusting cylinder (7-2), the parallel gear set (7-3) is arranged on the top side of the connecting adjusting cylinder (7-2), the adjusting conical ring (7-1) is inserted into the ranging light emitting structure (6-2), and the outer side wall of the parallel gear set (7-3) is contacted with the inner side wall of the ranging structure (6-2); the distance measurement light emission structure (6-2) is composed of distance measurement light emitters (62-1), an emitter integrated plate (62-2) and an outside internal pressure spring (62-3), the distance measurement light emitters (62-1) are provided with a plurality of groups, the plurality of groups of distance measurement light emitters (62-1) are arranged in a ring shape with equal circumferential angles, the emitter integrated plate (62-2) is provided with a plurality of groups, the plurality of groups of emitter integrated plates (62-2) are respectively and correspondingly arranged at the rear sides of the plurality of groups of distance measurement light emitters (62-1), the outside internal pressure spring (62-3) is provided with a plurality of groups, the plurality of groups of outside internal pressure springs (62-3) are correspondingly arranged at the outer side surfaces of the plurality of groups of emitter integrated plates (62-2), one group of distance measurement light emitters (62-1), one group of emitter integrated plates (62-2) and one group of outside internal pressure springs (62-3) are integrally fixed, the adjacent two groups of emitter integrated plates (62-2) can be separated, the distance measurement light emitters (62-1) are connected with a circuit controller (62-5) through an engine body internal power line (1-5), the circuit controller (62-4) is arranged between the plurality of emitter integrated plates (62-2), and the outer side wall of the adjusting cone ring (7-1) is contacted with the inner edge of the rear side end of the emitter integrated plate (62-2), and the outer side ends of the groups of outer inner pressure springs (62-3) are tightly attached to the inner side wall of the shading lens barrel (3).

2. The geological mineral exploration ranging device according to claim 1, wherein the inner side wall of the adjusting cone (7-1) is provided with a wire feeding thread (71-1), the outer side edge of the adjusting cone is provided with an anti-rotation directional protrusion (71-2), the anti-rotation directional protrusion (71-2) is connected in the ranging camera body (2), the anti-rotation directional protrusion (71-2) can linearly move in the ranging camera body (2), the outer side of the front end of the connecting adjusting cylinder (7-2) is provided with the wire feeding thread (71-1), the outer side of the rear end of the connecting adjusting cylinder (7-2) is provided with a connecting gear line (72-1), the wire feeding thread (71-1) on the inner side of the adjusting cone (7-1) is connected with the wire feeding thread (71-1) on the outer side of the front end of the connecting adjusting cylinder (7-2), the connecting adjusting cylinder (7-2) can rotate on the inner side of the adjusting cone (7-1), the adjusting cone (7-1) can be linearly moved in the inner side of the ranging camera body (2), the outer side of the connecting adjusting cylinder (7-2) is provided with an external gear set (73), the two sides of the connecting adjusting cylinder (7-1) are provided with an external gear set (73), the top side of the parallel gear set (7-3) is connected with the connecting internal teeth (74-1), the bottom side of the parallel gear set (7-3) is connected with the connecting gear pattern (72-1), the zoom moving lens (4-3) passes through the connecting adjusting cylinder (7-2), the positioning shafts (73-1) on two sides of the parallel gear set (7-3) are connected to the inner side of the front end of the range finding camera body (2), and the parallel gear set (7-3) can rotate by taking the positioning shaft (73-1) as an axle center.