CN114321679A - Surveying and mapping device for geological mineral exploration - Google Patents

Surveying and mapping device for geological mineral exploration Download PDF

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Publication number
CN114321679A
CN114321679A CN202210221265.9A CN202210221265A CN114321679A CN 114321679 A CN114321679 A CN 114321679A CN 202210221265 A CN202210221265 A CN 202210221265A CN 114321679 A CN114321679 A CN 114321679A
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adjusting
fluted disc
fixedly connected
block
shell
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CN114321679B (en
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刘金华
王会韬
李学锋
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Weifang Del Powder Equipment Technology Co ltd
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Weifang Del Powder Equipment Technology Co ltd
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Abstract

The invention provides a surveying and mapping device for geological mineral exploration, which relates to the technical field of surveying and mapping devices and comprises a measuring and positioning camera, wherein the lower end of the measuring and positioning camera is fixedly connected with a horizontal calibration assembly, the lower end of the horizontal calibration assembly is provided with an installation base, the lower end of an installation turntable is fixedly connected with a horizontal adjustment assembly, and the horizontal adjustment assembly comprises: the technical scheme includes that a horizontal calibration assembly is arranged at the lower end of a measuring and positioning camera, and small balls floating in oil in transparent oil balls are aligned to a calibration point position through observation of the horizontal calibration assembly, namely, the small balls are horizontal; the adjusting bevel gear is driven by rotating the adjusting knob, the upper fluted disc and the lower fluted disc are meshed to slide in the upper fluted disc slide rail and the lower fluted disc slide rail respectively, and therefore the inclination angle of the upper end measuring and positioning camera position can be adjusted.

Description

Surveying and mapping device for geological mineral exploration
Technical Field
The invention relates to the technical field of surveying and mapping devices, in particular to a surveying and mapping device for geological mineral exploration.
Background
Geological mineral exploration surveying and mapping is a general term for surveying and mapping work related to geological mineral exploration and exploration result map drawing, and mainly comprises the following steps: and the mining area control measurement, the mining area topographic survey and other contents work, and the mounting positions of the mining equipment are arranged through the mining area topographic survey so as to meet the requirement of normal operation of the mining equipment.
But the survey and drawing work of present mining area topography survey, the scope is collected according to the target place of survey and drawing to the visual angle, selects the survey and drawing point, and present mapping equipment, when carrying out the location of making a video recording and observing the survey and drawing, need fix the position of a plane, because mining area ground unevenness can lead to the position of a plane slope after fixed to lead to the survey and drawing to appear the deviation.
Disclosure of Invention
Aiming at the defects of the prior art, the invention provides a mapping device for geological mineral exploration, which solves the problems that when camera shooting, positioning, observation and mapping are carried out, a machine position needs to be fixed, and the machine position is inclined after the machine position is fixed due to uneven outdoor bottom surface, so that mapping deviation occurs.
In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a geological mineral surveys and uses mapping device, includes the survey location appearance of making a video recording, survey location appearance lower extreme fixed connection of making a video recording has horizontal calibration subassembly, horizontal calibration subassembly lower extreme is provided with the installation base, installation base lower extreme rotates and is connected with the installation carousel, installation carousel lower extreme fixedly connected with horizontal adjustment assembly, horizontal adjustment assembly includes: roof, last fluted disc slide rail, go up the fluted disc, go up fluted disc connecting strut, fluted disc connecting ball, fluted disc connecting rod, lower fluted disc, fluted disc slide rail and adjusting part bottom plate down on the adjusting part, adjusting part is gone up roof lower extreme fixedly connected with and is gone up the fluted disc slide rail, go up fluted disc slide rail lower extreme sliding connection and have last fluted disc, go up fluted disc lower extreme fixedly connected with two and go up fluted disc connecting strut, two go up fluted disc connecting strut fixedly connected with fluted disc connecting ball, fluted disc connecting ball lower extreme fixedly connected with two lower fluted disc connecting rods, two fluted disc connecting rod fixed connection is under on the fluted disc, the fluted disc slides and sets up under in the fluted disc slide rail down, fluted disc slide rail lower extreme fixedly connected with adjusting part bottom plate down, horizontal adjusting part lower extreme fixedly connected with adjusts the support.
Preferably, the upper toothed disc and the lower toothed disc form two planes perpendicular to each other, and the upper toothed disc slide rail and the lower toothed disc slide rail are respectively provided with an adjusting fastener.
Preferably, the adjustment firmware includes: firmware shell, adjust knob, regulation awl tooth, regulation kicking piece, kicking piece shell, kicking piece head and kicking piece spring, it runs through adjust knob to rotate on the firmware shell, the awl tooth is adjusted to the coaxial fixedly connected with of adjust knob lower extreme, every adjust the awl tooth and correspond respectively and last fluted disc and lower fluted disc meshing, the firmware shell is close to on the inner wall of adjust knob one side fixed be provided with the regulation kicking piece, it is provided with the kicking piece shell to adjust the kicking piece, it is provided with the kicking piece head to slide in the kicking piece shell, be provided with the kicking piece spring between kicking piece head and the kicking piece shell.
Preferably, the horizontal calibration assembly includes: calibration subassembly bottom plate, transparent observation cover, transparent oil ball and calibration point location, calibration subassembly bottom plate fixed mounting is on installation base upper end surface, calibration subassembly bottom plate upper end fixed surface installs transparent observation cover, calibration subassembly bottom plate upper end surface just is located transparent observation and covers and is provided with transparent oil ball, transparent oil ball upper end fixedly connected with calibration point location.
Preferably, the rear end of the measurement positioning camera is fixedly provided with a light screen, the rear end of the measurement positioning camera is arranged below the light screen and is provided with an observation port, and the rear end of the measurement positioning camera is arranged below the observation port and is provided with a surveying and mapping panel.
Preferably, the adjusting bracket includes: the support connecting plate is fixedly connected to the surface of the lower end of the lower bottom plate of the adjusting assembly, the lower end of the support connecting plate is rotatably provided with three support legs, the support legs are fixedly connected to the support connecting blocks on the inner sides, and the adjusting toothed bars are fixedly connected to the lower end of the support connecting plate.
Preferably, the adjusting rack rod is provided with a support adjusting block in a sliding penetrating mode, three supporting leg connecting rods are rotatably mounted on the side face of the support adjusting block, and each supporting leg connecting rod is rotatably connected with a supporting leg connecting block.
Preferably, the supporter adjustment block includes: the adjusting block comprises an adjusting block shell, two clamping block sliding grooves, two adjusting clamping blocks and adjusting block buttons, wherein the two clamping block sliding grooves are formed in the adjusting block shell, the adjusting clamping blocks are arranged in the clamping block sliding grooves in a sliding mode respectively, and the two adjusting block buttons are arranged on two sides of the adjusting block shell respectively.
Preferably, the lower end of the adjusting fixture block is fixedly connected with a fixture block lower connecting block, the lower end of the fixture block lower connecting block is fixedly connected with a connecting rod mounting plate, and one side of the connecting rod mounting plate is fixedly connected with a fixture block connecting rod.
Preferably, the rear end of the adjusting block button is rotatably provided with a driving frame plate, the middle of the driving frame plate is rotatably connected with an adjusting force-borrowing plate through a driving rotating shaft, the adjusting force-borrowing plate is fixedly arranged on the bottom surface of the lower end of the adjusting block shell, the lower end of the driving frame plate is provided with a sliding groove, and the fixture block connecting rod is arranged in the sliding groove of the driving frame plate.
The invention provides a surveying and mapping device for geological mineral exploration. The method has the following beneficial effects:
according to the scheme, when the camera shooting, positioning, observing and mapping are carried out, the machine position needs to be fixed, and the machine position can be inclined after the machine position is fixed due to uneven outdoor bottom surface, so that the mapping is deviated;
the adjusting bracket is opened, the opening angle of the bracket leg is controlled by moving the position of the bracket adjusting block on the adjusting rack bar, and the lower end of the bracket leg is inserted into outdoor soil for fixation; the adjusting block button is pulled to enable the driving frame plate to rotate around the driving rotating shaft, meanwhile, the fixture block connecting rod slides in a sliding groove in the lower end of the driving frame plate, the fixture block is connected with the block to move towards the direction close to the adjusting toothed bar, the fixture block is further adjusted to be in contact with the adjusting toothed bar, the angle of the bracket leg to be opened is fixed, the adjusting block button is pushed in the opposite direction when the adjustment is carried out, the operation process is simple and convenient, the structure of the adjusting toothed bar is arranged, and the bracket leg is stable and reliable.
The adjusting bevel gear is driven by rotating the adjusting knob, the upper fluted disc and the lower fluted disc are meshed to slide in the upper fluted disc slide rail and the lower fluted disc slide rail respectively, and therefore the inclination angle of the upper end measuring and positioning camera position can be adjusted.
Drawings
FIG. 1 is a schematic view of the overall structure of the present invention;
FIG. 2 is a rear view of the present invention;
FIG. 3 is an enlarged view of the structure of FIG. 2 at A according to the present invention;
FIG. 4 is a schematic structural diagram of a horizontal alignment assembly according to the present invention;
FIG. 5 is a schematic view of the horizontal adjustment assembly of the present invention;
FIG. 6 is a schematic diagram of the structure of the adjustment firmware of the present invention;
FIG. 7 is a side view of the adjustment fixture of the present invention;
FIG. 8 is a cross-sectional view taken along line a-a of FIG. 7 according to the present invention;
FIG. 9 is a schematic view of the structure of the adjusting bracket of the present invention;
FIG. 10 is a schematic view of a bracket adjusting block according to the present invention;
FIG. 11 is a schematic side view of a bracket adjustment block according to the present invention;
FIG. 12 is a schematic cross-sectional view taken along line b-b of FIG. 11 according to the present invention;
fig. 13 is an enlarged view of the structure at B in fig. 12 according to the present invention.
Wherein, 1, measuring and positioning a camera; 2. a horizontal calibration assembly; 201. calibrating the assembly backplane; 202. a transparent viewing cover; 203. a transparent oil ball; 204. calibrating point positions; 3. installing a base; 4. installing a turntable; 5. a level adjustment assembly; 501. adjusting the upper top plate of the assembly; 502. an upper fluted disc slide rail; 503. adjusting the firmware; 5031. a firmware housing; 5032. adjusting a knob; 5033. adjusting the bevel gear; 5034. adjusting the top piece; 5035. a top piece housing; 5036. a head of the top piece; 5037. a head spring; 504. an upper fluted disc; 505. the upper fluted disc is connected with a supporting rod; 506. a fluted disc connecting ball; 507. a lower fluted disc connecting rod; 508. a lower fluted disc; 509. a lower fluted disc slide rail; 510. a lower bottom plate of the adjusting assembly; 6. adjusting the bracket; 601. a bracket connecting plate; 602. a support leg; 603. a supporting leg connecting block; 604. adjusting the rack bar; 605. a bracket adjusting block; 6051. a regulating block housing; 6052. a fixture block chute; 6053. adjusting the clamping block; 6054. a regulating block button; 6055. the fixture blocks are connected with each other; 6056. adjusting the force-borrowing plate; 6057. driving the rotating shaft; 6058. a drive frame plate; 6059. a fixture block connecting rod; 60510. a connecting rod mounting plate; 606. a leg connecting rod; 7. a visor; 8. an observation port; 9. and (6) surveying and mapping the panel.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
Example (b):
as shown in fig. 1 to 13, an embodiment of the present invention provides a surveying and mapping apparatus for geological mineral exploration, including a measurement positioning camera 1, a horizontal calibration component 2 is fixedly connected to a lower end of the measurement positioning camera 1, a mounting base 3 is disposed at a lower end of the horizontal calibration component 2, a mounting turntable 4 is rotatably connected to a lower end of the mounting base 3, a horizontal adjustment component 5 is fixedly connected to a lower end of the mounting turntable 4, and the horizontal adjustment component 5 includes: an upper adjusting component top plate 501, an upper fluted disc slide rail 502, an upper fluted disc 504, an upper fluted disc connecting strut 505, a fluted disc connecting ball 506, a lower fluted disc connecting rod 507, a lower fluted disc 508, a lower fluted disc slide rail 509 and an adjusting component lower base plate 510, wherein the lower end of the upper adjusting component top plate 501 is fixedly connected with the upper fluted disc slide rail 502, the lower end of the upper fluted disc slide rail 502 is slidably connected with the upper fluted disc 504, the lower end of the upper fluted disc 504 is fixedly connected with the two upper fluted disc connecting struts 505, the two upper fluted disc connecting struts 505 are fixedly connected with the fluted disc connecting ball 506, the lower end of the fluted disc connecting ball 506 is fixedly connected with the two lower fluted disc connecting rods 507, the two lower fluted disc connecting rods 507 are fixedly connected with the lower fluted disc 508, the lower fluted disc 508 is slidably arranged in the lower fluted disc slide rail 509, the lower end of the lower fluted disc slide rail is fixedly connected with the adjusting component lower base plate 510, the lower end of the horizontal adjusting component 5 is fixedly connected with an adjusting bracket 6, the upper toothed disc 504 and the lower toothed disc 508 form two planes perpendicular to each other, and the upper toothed disc slide rails 502 and the lower toothed disc slide rails 509 are respectively provided with an adjusting fastener 503.
Through the above technical scheme, the adjusting taper teeth 5033 are driven by rotating the adjusting knob 5032, and the upper toothed disc 504 and the lower toothed disc 508 are engaged to slide in the upper toothed disc slide rail 502 and the lower toothed disc slide rail 509, respectively, so that the inclination angle of the machine position of the upper-end measurement positioning camera 1 can be adjusted.
In this embodiment, the adjusting firmware 503 includes: the adjusting mechanism comprises a firmware housing 5031, an adjusting knob 5032, adjusting conical teeth 5033, an adjusting top piece 5034, a top piece housing 5035, a top piece head 5036 and a top piece spring 5037, wherein the adjusting knob 5032 is rotatably penetrated through the firmware housing 5031, the adjusting conical teeth 5033 are coaxially and fixedly connected to the lower end of the adjusting knob 5032, each adjusting conical tooth 5033 is correspondingly engaged with the upper toothed disc 504 and the lower toothed disc 508, the inner wall of the firmware housing 5031 close to one side of the adjusting knob 5032 is fixedly provided with the adjusting top piece 5034, the adjusting top piece 5034 is provided with a top piece housing 5035, the top piece housing 5035 is internally provided with a top piece head 5036 in a sliding manner, and the top piece spring 5037 is arranged between the top piece head 5036 and the top piece housing 5035.
In the above technical scheme, a plurality of circular pits are uniformly distributed on the upper surface of the adjusting conical tooth 5033 in the circumferential direction, and when the adjusting knob 5032 rotates, the top piece head 5036 falls into the corresponding circular pit under the action of the top piece spring 5037 to fix the position.
In this embodiment, the horizontal calibration assembly 2 includes: calibration subassembly bottom plate 201, transparent observation cover 202, transparent oil ball 203 and calibration point position 204, calibration subassembly bottom plate 201 fixed mounting is on the 3 up end surface of installation base, calibration subassembly bottom plate 201 upper end fixed surface installs transparent observation cover 202, calibration subassembly bottom plate 201 upper end surface just is located transparent observation cover 202 and is provided with transparent oil ball 203, transparent oil ball 203 upper end fixedly connected with calibration point position 204.
Through the technical scheme, the small balls floating in the oil in the transparent oil ball 203 are aligned to the calibration point position 204 through observation, and the small balls are horizontal.
In this embodiment, the rear end fixed mounting of measurement location appearance of making a video recording 1 has light screen 7, measurement location appearance of making a video recording 1 rear end just is located light screen 7 below and is provided with observation mouth 8, measurement location appearance of making a video recording 1 rear end just is located observation mouth 8 below and is provided with surveying and mapping panel 9.
In this embodiment, the adjusting bracket 6 includes: support connecting plate 601, support leg 602, landing leg connecting block 603 and regulation ratch 604, support connecting plate 601 fixed connection is at regulation subassembly bottom plate 510 lower extreme surface, three support leg 602 is installed in the rotation of support connecting plate 601 lower extreme, the equal fixedly connected with landing leg connecting block 603 in support leg 602 inboard, support connecting plate 601 lower extreme fixedly connected with adjusts ratch 604, it has support regulating block 605 to slide to run through on the regulation ratch 604, three landing leg connecting rod 606 is installed in support regulating block 605 side rotation, every landing leg connecting rod 606 all rotates with landing leg connecting block 603 to be connected, support regulating block 605 includes: an adjusting block shell 6051, a block chute 6052, an adjusting block 6053 and an adjusting block button 6054, two fixture block sliding grooves 6052 are arranged on the adjusting block shell 6051, adjusting fixture blocks 6053 are respectively arranged in the two fixture block sliding grooves 6052 in a sliding way, two adjusting block buttons 6054 are respectively arranged on two sides of the adjusting block shell 6051, the lower end of the adjusting fixture block 6053 is fixedly connected with a fixture block lower connecting block 6055, the lower end of the fixture block lower connecting block 6055 is fixedly connected with a connecting rod mounting plate 60510, a clamping block connecting rod 6059 is fixedly connected with one side of the connecting rod mounting plate 60510, one end of the adjusting block button 6054 is rotatably provided with a driving frame plate 6058, the middle part of the driving frame plate 6058 is rotatably connected with an adjusting force-borrowing plate 6056 through a driving rotating shaft 6057, the adjusting force-borrowing plate 6056 is fixedly arranged on the bottom surface of the lower end of the adjusting block shell 6051, the lower end of the driving frame plate 6058 is provided with a sliding groove, and the block connecting rod 6059 is arranged in the sliding groove of the driving frame plate 6058.
The working principle is as follows:
according to the scheme, the horizontal calibration component 2 is arranged at the lower end of the measurement positioning camera 1, and a small ball floating in oil in the transparent oil ball 203 is aligned to the calibration point position 204 through observation of the horizontal calibration component, namely, the small ball is horizontal;
the adjusting bracket 6 is opened, the opening angle of the bracket leg 602 is controlled by moving the position of the bracket adjusting block 605 on the adjusting rack bar 604, and the lower end of the bracket leg 602 is inserted into outdoor soil for fixation; the adjusting block button 6054 is pulled to enable the driving frame plate 6058 to rotate around the driving rotating shaft 6057, meanwhile, the fixture block connecting rod 6059 slides in a sliding groove at the lower end of the driving frame plate 6058, the fixture block lower connecting block 6055 moves towards the direction close to the adjusting toothed rod 604, then the adjusting fixture block 6053 is in contact with the adjusting toothed rod 604, and the opening angle of the support leg 602 is fixed. When the height of the positioning camera is required to be adjusted, the adjusting block button 6054 is pushed, the adjusting block 6053 is separated from the adjusting rack bar 604 at the moment, the opening degree of the upper bracket leg 602 of the adjusting bracket 6 can be adjusted, and the method is fixed repeatedly after the adjustment is finished;
after the opening degree of the bracket leg 602 is fixed, the adjusting knob 5032 is rotated to drive the adjusting bevel gear 5033 to engage with the upper toothed disc 504 and the lower toothed disc 508 to respectively slide in the upper toothed disc slide rail 502 and the lower toothed disc slide rail 509, so as to adjust the inclination angle of the upper end measuring and positioning camera 1.
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 (10)

1. The utility model provides a geological mineral surveys and uses mapping device, includes measurement location appearance (1) of making a video recording, its characterized in that: the measurement location appearance (1) lower extreme fixed connection of making a video recording has horizontal calibration subassembly (2), horizontal calibration subassembly (2) lower extreme is provided with installation base (3), installation base (3) lower extreme rotates and is connected with installation carousel (4), installation carousel (4) lower extreme fixed connection has horizontal adjusting subassembly (5), horizontal adjusting subassembly (5) include: an upper adjusting component top plate (501), an upper fluted disc slide rail (502), an upper fluted disc (504), an upper fluted disc connecting strut (505), a fluted disc connecting ball (506), a lower fluted disc connecting rod (507), a lower fluted disc (508), a lower fluted disc slide rail (509) and an adjusting component lower bottom plate (510), wherein the lower end of the upper adjusting component top plate (501) is fixedly connected with the upper fluted disc slide rail (502), the lower end of the upper fluted disc slide rail (502) is slidably connected with the upper fluted disc (504), the lower end of the upper fluted disc (504) is fixedly connected with two upper fluted disc connecting struts (505), the two upper fluted disc connecting struts (505) are fixedly connected with the fluted disc connecting ball (506), the lower end of the fluted disc connecting ball (506) is fixedly connected with two lower fluted disc connecting rods (507), the two lower fluted disc connecting rods (507) are fixedly connected on the lower fluted disc (508), and the lower fluted disc (508) is slidably arranged in the lower fluted disc slide rail (509), lower fluted disc slide rail (509) lower extreme fixedly connected with adjusting part lower plate (510), horizontal adjusting part (5) lower extreme fixedly connected with adjusts support (6).
2. A mapping apparatus for geological mineral surveying according to claim 1, characterized in that: the upper toothed disc (504) and the lower toothed disc (508) form two planes which are perpendicular to each other, and the upper toothed disc sliding rails (502) and the lower toothed disc sliding rails (509) are respectively provided with adjusting fasteners (503).
3. A mapping apparatus for geological mineral surveying according to claim 2, characterized in that: the adjustment firmware (503) includes: the adjusting mechanism comprises a firmware shell (5031), an adjusting knob (5032), adjusting conical teeth (5033), an adjusting ejector (5034), an ejector shell (5035), an ejector head (5036) and an ejector spring (5037), wherein the adjusting knob (5032) penetrates through the firmware shell (5031) in a rotating mode, the adjusting conical teeth (5033) are coaxially and fixedly connected to the lower end of the adjusting knob (5032), each adjusting conical tooth (5033) is correspondingly meshed with an upper fluted disc (504) and a lower fluted disc (508) respectively, the adjusting ejector (5034) is fixedly arranged on the inner wall of the firmware shell (5031) close to one side of the adjusting knob (5032), the adjusting ejector shell (5034) is provided with an ejector shell (5035), an ejector head (5036) is arranged in the ejector shell (5035) in a sliding mode, and the ejector spring (5037) is arranged between the ejector head (5036) and the ejector shell (5035).
4. A mapping apparatus for geological mineral surveying according to claim 3, characterized in that: the horizontal calibration assembly (2) comprises: calibration subassembly bottom plate (201), transparent observation cover (202), transparent oil ball (203) and calibration point location (204), calibration subassembly bottom plate (201) fixed mounting is on installation base (3) upper end surface, calibration subassembly bottom plate (201) upper end fixed surface installs transparent observation cover (202), calibration subassembly bottom plate (201) upper end surface just is located transparent observation cover (202) and is provided with transparent oil ball (203), transparent oil ball (203) upper end fixedly connected with calibration point location (204).
5. A mapping apparatus for geological mineral surveying according to claim 4, characterized in that: the rear end fixed mounting of measurement location appearance (1) of making a video recording has light screen (7), measurement location appearance (1) rear end of making a video recording and be located light screen (7) below and be provided with observation mouth (8), measurement location appearance (1) rear end of making a video recording and be located observation mouth (8) below and be provided with survey and drawing panel (9).
6. A mapping apparatus for geological mineral surveying according to claim 5, characterized in that: the adjusting bracket (6) comprises: support connecting plate (601), support leg (602), landing leg connecting block (603) and regulation ratch (604), support connecting plate (601) fixed connection is at adjusting part lower plate (510) lower extreme surface, three support leg (602) are installed in support connecting plate (601) lower extreme rotation, the equal fixedly connected with landing leg connecting block (603) of support leg (602) inboard, support connecting plate (601) lower extreme fixedly connected with adjusts ratch (604).
7. A mapping apparatus for geological mineral surveying according to claim 6, characterized in that: the support adjusting block (605) penetrates through the adjusting rack rod (604) in a sliding mode, three support connecting rods (606) are installed on the side face of the support adjusting block (605) in a rotating mode, and each support connecting rod (606) is connected with the support connecting block (603) in a rotating mode.
8. A mapping apparatus for geological mineral surveying according to claim 7, characterized in that: the holder adjustment block (605) comprises: regulating block shell (6051), fixture block spout (6052), regulation fixture block (6053) and regulating block button (6054), two fixture block spouts (6052) have been seted up on regulating block shell (6051), two slide respectively in fixture block spout (6052) and be provided with regulation fixture block (6053), regulating block shell (6051) both sides are provided with two regulating block buttons (6054) respectively.
9. A mapping apparatus for geological mineral surveying according to claim 8, characterized in that: adjust fixture block (6053) lower extreme fixedly connected with fixture block lower link (6055), fixture block lower link (6055) lower extreme fixedly connected with connecting rod mounting panel (60510), connecting rod mounting panel (60510) one side fixedly connected with fixture block connecting rod (6059).
10. A mapping apparatus for geological mineral surveying according to claim 9, characterized in that: the adjusting block button (6054) rear end is rotated and is installed drive deckle board (6058), drive deckle board (6058) middle part is rotated through drive rotation axis (6057) and is connected with regulation and borrows power board (6056), regulation is borrowed power board (6056) fixed mounting and is being in adjusting block shell (6051) lower extreme bottom surface, drive deckle board (6058) lower extreme is provided with the spout, fixture block connecting rod (6059) set up in the spout of drive deckle board (6058).
CN202210221265.9A 2022-03-09 2022-03-09 Surveying and mapping device for geological mineral exploration Active CN114321679B (en)

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Publication number Priority date Publication date Assignee Title
CN115808159A (en) * 2022-12-13 2023-03-17 威海水利工程集团有限公司 Terrain surveying method based on unmanned aerial vehicle
CN115808159B (en) * 2022-12-13 2024-03-12 威海水利工程集团有限公司 Terrain surveying method based on unmanned aerial vehicle

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