CN113776507A

CN113776507A - Land planning measurer based on laser mapping

Info

Publication number: CN113776507A
Application number: CN202111167629.1A
Authority: CN
Inventors: 叶丽
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-10-07
Filing date: 2021-10-07
Publication date: 2021-12-10

Abstract

The invention discloses a land planning measurer based on laser mapping, and relates to the technical field of land planning. According to the invention, the telescopic support rod arranged at the lower end of the mounting seat is matched with the mounting cylinder arranged on the left side of the upper end of the bearing vehicle body, so that the laser measurer main body can be used in a vehicle-mounted mode and a split mode, the laser measurer main body can be used in different terrain environments, the actual use range of the laser measurer is refreshed, meanwhile, the transmission antennas arranged on the two sides of the laser measurer main body are matched, the measured structure can be transmitted in real time, the measured data can be compared and analyzed in time, and the actual use effect is stronger.

Description

Land planning measurer based on laser mapping

Technical Field

The invention relates to the technical field of land planning, in particular to a land planning measurer based on laser mapping.

Background

Land planning refers to the long-term arrangement of reasonable use of land in a country or a certain region according to the prospect and the requirement of economic development. Aims to ensure that the land utilization can meet the requirements of proportional development of all departments of national economy. The planning is based on the distribution and configuration conditions of the existing natural resources, technical resources and human resources, so that the land is fully and effectively utilized, and the waste caused by artificial reasons is avoided. The land utilization overall planning is the overall arrangement and layout of the development, utilization, treatment and protection of the land on the space and time according to the requirements of national social and economic sustainable development and the natural, economic and social conditions in a certain area, and the land planning needs to use a land laser measurer.

The land laser measuring device on the market cannot remotely transmit the measured data, is inconvenient to analyze and compare the measured data, and has the defect of limited application range.

Disclosure of Invention

The invention aims to provide a land planning measurer based on laser mapping, so as to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a land planning measurer based on laser mapping comprises a bearing vehicle body and a measuring assembly, wherein a mounting cylinder is arranged on the left side of the upper end of the bearing vehicle body, the measuring component for land measurement is connected to the inner side of the mounting cylinder and comprises a mounting seat, a laser measurer main body, a transmission antenna, a control panel and a telescopic supporting rod, the upper end of the setting seat is provided with a laser measurer main body, the middle parts of the two sides of the laser measurer main body are connected with transmission antennas, and the middle part of one side of the laser measurer main body is provided with a control panel, the lower end of the placing seat is connected with a telescopic supporting rod, a level meter is arranged in the middle of the outer side of the bearing vehicle body, a drilling component for drilling soil is arranged on the right side of the upper end of the bearing vehicle body, and the right side of drilling the subassembly is connected with the sample bottle that is used for the soil sample, the inside subassembly of accomodating that is used for the soil sample to accomodate that is provided with in the lower extreme left side of bearing the weight of the automobile body.

Preferably, the laser measuring device main body and the mounting seat are vertically distributed, and two transmission antennas are symmetrically arranged on the central position of the laser measuring device main body.

Preferably, the drilling assembly comprises a fixed seat, a driving motor, a drilling pipe, a rotating shaft, a drill bit, a limiting sliding block, a limiting sliding groove, a connecting cylinder and a cylinder column, the driving motor is arranged in the middle of the upper end of the fixed seat, the drilling pipe is arranged in the middle of the lower end of the fixed seat, the lower end of the driving motor is connected with the rotating shaft, the drill bit is connected to the lower end of the rotating shaft, the limiting sliding block is arranged on the outer side of the drilling pipe, the limiting sliding groove is connected to the outer side of the limiting sliding block, the connecting cylinder is connected to the other side of the limiting sliding groove, and the cylinder column is arranged on two sides of the outer portion of the connecting cylinder.

Preferably, the drilling pipe and the fixing seat are vertically distributed, and the drilling pipe, the rotating shaft and the vertical central axis of the drill bit coincide with each other.

Preferably, the limiting sliding blocks are uniformly distributed on the outer side of the drilling pipe, the size of the outer side of each limiting sliding block is matched with the size of the inner side of each limiting sliding groove, and the drilling pipe is in sliding connection with the connecting cylinder through the limiting sliding blocks and the limiting sliding grooves.

Preferably, the sampling component includes inhales the soil pipe, inhales the soil head, inhales the soil mouth, leads soil pipe, sampling bottle, places a section of thick bamboo and inhales the soil pump, and the lower extreme of inhaling the soil pipe is connected with inhales the soil head, the one side of inhaling the soil head is provided with inhales the soil mouth, the other end of inhaling the soil pipe is connected with leads soil pipe, and leads soil pipe's the other end and be connected with the sampling bottle, the lower extreme of sampling bottle is provided with places a section of thick bamboo, and the opposite side of sampling bottle is connected with inhales the soil pump.

Preferably, the diameter size of the inner side of the placing cylinder is matched with the diameter size of the outer side of the sampling bottle, and the soil suction head forms a communication structure with the sampling bottle through the soil suction pipe and the soil guide pipe.

Preferably, the storage assembly comprises a storage bin, a connecting chute, a connecting sliding block, a bearing block, a placing groove, a limiting groove, a spring, a connecting rod, a clamping block and a fastening buckle, the connecting chute is arranged on two sides of the interior of the storage bin, the connecting sliding block is connected to the inner side of the connecting chute, the bearing block is connected to the other side of the connecting sliding block, the placing groove is formed in the upper end of the bearing block, the limiting grooves are formed in two sides of the placing groove, the spring is arranged on the inner side of the limiting groove, one end of the spring is connected with the connecting rod, the other end of the connecting rod is connected with the clamping block, and the fastening buckle is arranged on two sides of the front end of the bearing block.

Preferably, the bearing block is connected with the storage bin through a connecting slide block and a connecting sliding groove in a sliding mode, the placing groove and the bearing block are of an integrated structure, and six placing grooves are formed in the placing groove.

Preferably, the springs are uniformly distributed on the inner side of the limiting groove, and the clamping blocks form an elastic structure through the connecting rods and the springs and the placing groove.

The invention provides a land planning measurer based on laser mapping, which has the following beneficial effects: the land planning measurer based on laser surveying and mapping has the advantages that through mutual matching among the multiple components, when the land is surveyed and mapped by laser, the measuring structure can be remotely transmitted, so that workers can compare measured data at the terminal, the accuracy of actual land measurement is ensured, meanwhile, the measured land can be sampled, land measurement in different areas can be conveniently divided according to the soil with different textures, vehicle-mounted and independent laser surveying and mapping can be carried out, and the actual application range of the land planning measurer is wider;

1. according to the laser measurer, the laser measurer main body and the placing seat are vertically distributed, the accuracy of the positions between the laser measurer main body and the placing seat can be guaranteed, the telescopic supporting rod arranged at the lower end of the placing seat is matched with the placing cylinder arranged on the left side of the upper end of the bearing vehicle body, so that the laser measurer main body can be used in a vehicle-mounted mode and a split mode, the laser measurer can be used in different terrain environments, the actual use range of the measurer is refreshed, meanwhile, the transmission antennas arranged on the two sides of the laser measurer main body are matched, the measured structure can be transmitted in real time, the measured data can be compared and analyzed in time, and the actual use effect is stronger.

2. According to the invention, the drilling pipe and the fixing seat which are vertically distributed can ensure the accuracy of the positions between the drilling pipe and the fixing seat, the rotating shaft arranged on the inner side of the drilling pipe is matched with a drill bit connected to the lower end of the rotating shaft under the driving of the driving motor, the drill bit descends to drill the soil in a matched manner, the drilling pipe descends along with the drill bit, the sampling assembly can sample the soil at different depth levels, and the stability in the soil sample collection process can be ensured due to the fact that the drilling pipe, the rotating shaft and the drill bit are overlapped in the central axis.

3. According to the invention, the limiting slide block arranged on the outer side of the drilling pipe is matched with the limiting slide groove arranged on the inner wall of the connecting cylinder, so that the drilling pipe can keep moving up and down on a vertical straight line under the driving of the cylinder column, the position accuracy in the drilling process of the drill bit and the stability of the drilling pipe in the descending process are ensured, the condition that the soil sampling precision is influenced by deviation is avoided, meanwhile, the drilling pipe is effectively prevented from rotating in the drilling process of the drill bit through the arrangement of the limiting slide block and the limiting slide groove, and the actual use effect of the land planning measurer is ensured.

4. The soil sampling device can ensure the stability of the sampling bottle in the soil sampling process through the placing cylinder and the sampling bottle which are matched in size, the soil suction head arranged on one side inside the drilling pipe can penetrate into the soil along with the drilling pipe, the soil is drilled through the drill bit, the drilling pipe descends into the drill hole along with the drill bit, the soil suction head is matched with the soil suction port arranged at the front end of the soil suction head, the soil is sucked into the sampling bottle under the driving of the soil suction pump, and therefore the soil sampling is convenient to carry out sampling, and the soil suction head and the sampling bottle which are in a communicated structure ensure the continuity and effectiveness of soil sampling.

5. According to the invention, the connecting sliding blocks arranged on two sides of the outer part of the bearing block are matched with the connecting sliding grooves arranged on two sides of the inner part of the containing bin, so that the bearing block can horizontally slide in the containing bin, a sampling bottle can be conveniently placed in the containing bin for taking, the clamping blocks arranged on two sides of the inner part of the limiting groove are matched with the connecting rods and the springs connected to one side of the clamping blocks, the sampling bottle placed in the placing groove can be clamped and limited, the stability of the sampling bottle in the moving process of the bearing vehicle body is ensured, and meanwhile, due to the arrangement of the six placing grooves, different soil samples can be classified and stored through the sampling bottle, so that the soil sampling device is convenient for practical use.

Drawings

FIG. 1 is a schematic overall structure diagram of a laser mapping-based land planning measurer according to the present invention;

FIG. 2 is a schematic structural diagram of a laser mapping based land planning measuring device of the present invention without a measuring assembly;

FIG. 3 is a schematic view of an elevation view of a measuring assembly of a laser mapping based land planning measuring device according to the present invention;

FIG. 4 is a schematic diagram of the internal structure of a drilling pipe of the land planning measurer based on laser mapping according to the present invention;

FIG. 5 is a schematic diagram of the external structure of a drilling pipe of a laser mapping based land planning measuring device according to the present invention;

FIG. 6 is a schematic diagram of a top view of the interior of a connecting cylinder of a laser mapping based land planning measuring device according to the present invention;

FIG. 7 is an enlarged schematic view of the land planning measuring device based on laser mapping shown in FIG. 1 at A;

FIG. 8 is an enlarged schematic view of the land planning measuring device based on laser mapping shown at B in FIG. 2;

FIG. 9 is a schematic top view of a bearing block of a laser mapping based land planning measuring device according to the present invention;

fig. 10 is an enlarged schematic diagram of a land planning measurer based on laser mapping shown in fig. 9 at C.

In the figure: 1. a load-bearing vehicle body; 2. a placement cylinder; 3. a measurement assembly; 301. placing a seat; 302. a laser measurer main body; 303. a transmission antenna; 304. a control panel; 305. a telescopic strut; 4. a level gauge; 5. drilling the assembly; 501. a fixed seat; 502. a drive motor; 503. drilling a pipe; 504. a rotating shaft; 505. a drill bit; 506. a limiting slide block; 507. a limiting chute; 508. a connecting cylinder; 509. a cylinder column; 6. a sampling assembly; 601. a soil suction pipe; 602. a soil suction head; 603. a soil suction port; 604. a soil guide pipe; 605. sampling a bottle; 606. placing the cylinder; 607. a soil suction pump; 7. a receiving assembly; 701. a storage bin; 702. connecting the sliding chute; 703. connecting the sliding block; 704. a bearing block; 705. a placement groove; 706. a limiting groove; 707. a spring; 708. a connecting rod; 709. a clamping block; 7010. and (6) fastening the buckle.

Detailed description of the invention

Referring to fig. 1-10, the present invention provides a technical solution: a land planning measurer based on laser mapping comprises a bearing vehicle body 1 and a measuring component 3, wherein a mounting cylinder 2 is arranged on the left side of the upper end of the bearing vehicle body 1, the measuring component 3 for land measurement is connected to the inner side of the mounting cylinder 2, the measuring component 3 comprises a mounting seat 301, a laser measurer main body 302, a transmission antenna 303, a control panel 304 and a telescopic support rod 305, the laser measurer main body 302 is arranged at the upper end of the mounting seat 301, the transmission antenna 303 is connected to the middle parts of the two sides of the laser measurer main body 302, the control panel 304 is arranged in the middle part of one side of the laser measurer main body 302, the telescopic support rod 305 is connected to the lower end of the mounting seat 301, a level meter 4 is arranged in the middle part of the outer side of the bearing vehicle body 1, a drilling component 5 for soil drilling is arranged on the right side of the upper end of the bearing vehicle body 1, and a sampling bottle 605 for soil sampling is connected to the right side of the drilling component 5, a receiving assembly 7 for receiving soil samples is arranged inside the left side of the lower end of the bearing vehicle body 1;

the operation is as follows, laser measurement ware main part 302 and the mount 301 of vertical form distribution, the accuracy of position between can guaranteeing, the telescopic strut 305 of setting in mount 301 lower extreme, the cooperation bears the arrangement section of thick bamboo 2 that 1 upper end left side of automobile body was provided with, make laser measurement ware main part 302 can carry out two kinds of application methods of vehicular and split formula, so that use under different terrain environment, the actual application scope of this caliber of refreshing oneself, the cooperation sets up the transmission antenna 303 in laser measurement ware main part 302 both sides simultaneously, can carry out real-time transmission to measured structure, be convenient for in time compare and the analysis to measured data, the in-service use effect is stronger.

Detailed description of the invention

Referring to fig. 1-6, the laser measuring device main body 302 and the mounting seat 301 are vertically distributed, and two transmission antennas 303 are symmetrically arranged about the center of the laser measuring device main body 302, the drilling assembly 5 includes a fixing seat 501, a driving motor 502, a drilling tube 503, a rotating shaft 504, a drill 505, a limiting slider 506, a limiting chute 507, a connecting tube 508 and a cylinder column 509, the driving motor 502 is arranged in the middle of the upper end of the fixing seat 501, the drilling tube 503 is arranged in the middle of the lower end of the fixing seat 501, the rotating shaft 504 is connected to the lower end of the driving motor 502, the drill 505 is connected to the lower end of the rotating shaft 504, the limiting slider 506 is arranged outside the drilling tube 503, the limiting chute 507 is connected to the outer side of the limiting slider 506, the connecting tube 508 is connected to the other side of the limiting chute 507, the cylinder columns 509 are arranged on both sides of the outer portion of the connecting tube 508, the drilling tube 503 and the fixing seat 501 are vertically distributed, the vertical central axes of the drilling pipe 503, the rotating shaft 504 and the drill bit 505 are coincident, the limiting sliding blocks 506 are uniformly distributed on the outer side of the drilling pipe 503, the outer side size of the limiting sliding blocks 506 is matched with the inner side size of the limiting sliding grooves 507, and the drilling pipe 503 is in sliding connection with the connecting cylinder 508 through the limiting sliding blocks 506 and the limiting sliding grooves 507;

the concrete operation is as follows, the drilling pipe 503 and the fixed seat 501 which are vertically distributed can ensure the accuracy of the positions between the drilling pipe 503 and the fixed seat 501, the rotating shaft 504 arranged at the inner side of the drilling pipe 503 is matched with the drill bit 505 connected with the lower end of the rotating shaft 504 to be driven by the driving motor 502, the drill bit 505 is matched with the contraction of the cylinder column 509 to enable the drill bit 505 to descend to drill the soil, the drilling pipe 503 descends along with the drill bit 505 to enable the sampling assembly 6 to sample the soil at different depth levels, the drilling pipe 503, the rotating shaft 504 and the drill bit 505 with coincident central axes can ensure the stability in the soil sample collection process, the limiting slide block 506 arranged at the outer side of the drilling pipe 503 is matched with the limiting slide groove 507 arranged at the inner wall of the connecting cylinder 508 to enable the drilling pipe 503 to keep moving up and down in a vertical straight line position under the driving of the cylinder column 509, thereby ensuring the accuracy of the position of the drill bit 505 in the drilling process and the stability in the descending process of the drilling pipe 503, the situation that the soil sampling precision is influenced by deviation is avoided, meanwhile, the situation that the drilling pipe 503 rotates in the drilling process of the drill bit 505 is effectively prevented through the arrangement of the limiting sliding block 506 and the limiting sliding groove 507, and the actual using effect of the land planning measurer is ensured;

detailed description of the invention

Referring to fig. 1, 4, 5 and 7, the sampling assembly 6 includes a soil suction pipe 601, a soil suction head 602, a soil suction port 603, a soil guide pipe 604, a sampling bottle 605, a placing cylinder 606 and a soil suction pump 607, wherein the lower end of the soil suction pipe 601 is connected with the soil suction head 602, one side of the soil suction head 602 is provided with the soil suction port 603, the other end of the soil suction pipe 601 is connected with the soil guide pipe 604, the other end of the soil guide pipe 604 is connected with the sampling bottle 605, the lower end of the sampling bottle 605 is provided with the placing cylinder 606, the other side of the sampling bottle 605 is connected with the soil suction pump 607, the inner diameter of the placing cylinder 606 is matched with the outer diameter of the sampling bottle 605, and the soil suction head 602 forms a communicating structure with the sampling bottle 605 through the soil suction pipe 601 and the soil guide pipe 604;

the concrete operation is as follows, the placing cylinder 606 and the sampling bottle 605 which are identical in size can ensure the stability of the sampling bottle 605 in the soil sampling process, the soil sucking head 602 which is arranged on one side inside the drilling pipe 503 can go deep into the soil along with the drilling pipe 503, the soil is drilled through the drill bit 505, so that the drilling pipe 503 descends into a drill hole along with the drill pipe, the soil sucking port 603 which is arranged at the front end of the soil sucking head 602 is matched, the soil is sucked into the sampling bottle 605 under the driving of the soil sucking pump 607, the soil is convenient to sample, and the soil sucking head 602 and the sampling bottle 605 which are in a communicated structure can ensure the continuity and effectiveness of soil sampling;

referring to fig. 1, 8, 9 and 10, the receiving assembly 7 includes a receiving bin 701, a connecting sliding groove 702, a connecting sliding block 703, a bearing block 704, a placing groove 705, a limiting groove 706, a spring 707, a connecting rod 708, a clamping block 709 and a fastening buckle 7010, the connecting sliding groove 702 is disposed on two sides of the interior of the receiving bin 701, the connecting sliding block 703 is connected to the inner side of the connecting sliding groove 702, the bearing block 704 is connected to the other side of the connecting sliding block 703, the placing groove 705 is disposed on the upper end of the bearing block 704, the limiting groove 706 is disposed on two sides of the placing groove 705, the spring 707 is disposed on the inner side of the limiting groove 706, the connecting rod 708 is connected to one end of the spring 707, the clamping block 709 is connected to the other end of the connecting rod 708, the fastening buckle 7010 is disposed on two sides of the front end of the bearing block 704, the bearing block 704 is slidably connected to the receiving bin 701 through the connecting sliding block 703 and the connecting sliding groove 702, and the placing groove 705 and the bearing block 704 are integrated, six placing grooves 705 are formed, the springs 707 are uniformly distributed on the inner side of the limiting groove 706, and the clamping blocks 709 form an elastic structure with the placing grooves 705 through the connecting rods 708 and the springs 707;

the concrete operation is as follows, set up the link block 703 in the outside both sides of carrier block 704, the cooperation sets up the connection spout 702 in the inside both sides of collecting bin 701, make carrier block 704 can carry out the horizontal slip in collecting bin 701 is inside, be convenient for place in getting to sample bottle 605 and take, the clamp splice 709 of setting in the inside both sides of spacing groove 706, the cooperation is connected at connecting rod 708 and spring 707 in clamp splice 709 one side, can place and carry out centre gripping spacing in the inside sample bottle 605 of standing groove 705, guarantee to bear the weight of the stability of taking sample bottle 605 of automobile body 1 removal in-process, six standing grooves 705's setting simultaneously, can carry out classified storage to different soil samples through sample bottle 605, be convenient for in-service use

In summary, when the land planning measuring device based on laser mapping is used, firstly, the laser measuring device main body 302 is inserted into the installation cylinder 2 through the telescopic support rod 305, the movable bearing vehicle body 1 carries out land measuring work through the laser measuring device main body 302, the telescopic support rod 305 arranged at the lower end of the installation seat 301 is matched with the installation cylinder 2 arranged at the left side of the upper end of the bearing vehicle body 1, so that the laser measuring device main body 302 can carry out two using methods of a vehicle-mounted type and a split type, the use under different terrain environments is convenient, the actual using range of the measuring device is refreshed, meanwhile, the transmission antennas 303 arranged at the two sides of the laser measuring device main body 302 are matched, the measured structure can be transmitted in real time, the measured data can be compared and analyzed in time, soil in a measuring area can be sampled after the measurement is finished, and the limiting slide block 506 arranged at the outer side of the drilling pipe 503, the limiting sliding groove 507 arranged on the inner wall of the connecting cylinder 508 is matched, so that the drilling pipe 503 can keep moving up and down on a vertical straight line position under the driving of the cylinder column 509, the position accuracy of the drill bit 505 in the drilling process and the stability of the drilling pipe 503 in the descending process are ensured, the drill bit 505 connected with the lower end of the drill pipe 503 is matched under the driving of the driving motor 502 through the rotating shaft 504 arranged on the inner side of the drilling pipe 503, the drill bit 505 descends to drill the soil in cooperation with the contraction of the cylinder column 509, the drilling pipe 503 descends along with the drill bit 505, so that the sampling assembly 6 can sample the soil in different depth levels, the soil sucking head 602 arranged on one side inside the drilling pipe 503 can deeply penetrate into the soil along with the drilling pipe 503, the drill hole is drilled through the drill bit 505, the drilling pipe 503 descends along with the drill hole, and is matched with the soil sucking port 603 arranged at the front end of the soil sucking head 602, soil is sucked to sampling bottle 605 under the drive of soil suction pump 607, thereby be convenient for sample soil, then sample bottle 605 that will accomplish the sample takes out and puts into the standing groove 705 inside, set up the link block 703 in the outside both sides of carrier block 704, the cooperation sets up the connection spout 702 in the inside both sides of storage bin 701, make carrier block 704 can carry out horizontal slip inside storage bin 701, be convenient for place in getting taking sampling bottle 605, set up the clamp splice 709 in the inside both sides of spacing groove 706, the cooperation is connected at connecting rod 708 and the spring 707 of clamp splice 709 one side, can place and carry out the centre gripping spacingly in the inside sampling bottle 605 of standing groove 705, guarantee to bear the stability of taking sample bottle 605 in automobile body 1 moving process, the cooperation sets up the fastening that is in carrier block 704 front end both sides at last and detains 7010 and fixes carrier block 704.

Claims

1. The land planning measurer based on laser surveying and mapping is characterized by comprising a bearing vehicle body (1) and a measuring assembly (3), wherein a placing cylinder (2) is arranged on the left side of the upper end of the bearing vehicle body (1), the measuring assembly (3) for land surveying is connected to the inner side of the placing cylinder (2), the measuring assembly (3) comprises a placing seat (301), a laser measurer main body (302), a transmission antenna (303), a control panel (304) and a telescopic support rod (305), the upper end of the placing seat (301) is provided with the laser measurer main body (302), the middle parts of two sides of the laser measurer main body (302) are connected with the transmission antenna (303), the middle part of one side of the laser measurer main body (302) is provided with the control panel (304), the lower end of the placing seat (301) is connected with the telescopic support rod (305), and a level meter (4) is arranged in the middle part of the outer side of the bearing vehicle body (1), the soil sampling device is characterized in that a drilling assembly (5) for soil drilling is arranged on the right side of the upper end of the bearing vehicle body (1), a sampling bottle (605) for soil sampling is connected to the right side of the drilling assembly (5), and a storage assembly (7) for soil sample storage is arranged inside the left side of the lower end of the bearing vehicle body (1).

2. A laser mapping based land planning measurer as claimed in claim 1, characterized in that the laser measurer body (302) is arranged perpendicular to the seat (301), and two transmission antennas (303) are symmetrically arranged with respect to the center of the laser measurer body (302).

3. A land planning measurer based on laser mapping according to claim 1, characterized in that the drilling assembly (5) comprises a fixed seat (501), a driving motor (502), a drilling pipe (503), a rotating shaft (504), a drill bit (505), a limiting slide block (506), a limiting slide groove (507), a connecting cylinder (508) and a cylinder column (509), the driving motor (502) is arranged in the middle of the upper end of the fixed seat (501), the drilling pipe (503) is arranged in the middle of the lower end of the fixed seat (501), the rotating shaft (504) is connected to the lower end of the driving motor (502), the drill bit (505) is connected to the lower end of the rotating shaft (504), the limiting slide block (506) is arranged on the outer side of the drilling pipe (503), the limiting slide block (506) is connected to the limiting slide groove (507), the connecting cylinder (508) is connected to the other side of the limiting slide groove (507), and cylinder columns (509) are provided on both outer sides of the connecting cylinder (508).

4. A laser mapping based land planning measurer according to claim 3, characterized in that the drilling pipe (503) is arranged perpendicular to the fixed base (501), and the vertical central axes of the drilling pipe (503), the rotating shaft (504) and the drill bit (505) coincide.

5. A laser mapping based land planning measurer according to claim 3, characterized in that the limiting sliders (506) are evenly distributed on the outer side of the drilling pipe (503), the outer size of the limiting sliders (506) is matched with the inner size of the limiting sliding grooves (507), and the drilling pipe (503) is in sliding connection with the connecting cylinder (508) through the limiting sliders (506) and the limiting sliding grooves (507).

6. A land planning measurer based on laser mapping according to claim 1, characterized in that the sampling assembly (6) comprises a soil suction pipe (601), a soil suction head (602), a soil suction port (603), a soil guide pipe (604), a sampling bottle (605), a placing cylinder (606) and a soil suction pump (607), the lower end of the soil suction pipe (601) is connected with the soil suction head (602), one side of the soil suction head (602) is provided with the soil suction port (603), the other end of the soil suction pipe (601) is connected with the soil guide pipe (604), the other end of the soil guide pipe (604) is connected with the sampling bottle (605), the lower end of the sampling bottle (605) is provided with the placing cylinder (606), and the other side of the sampling bottle (605) is connected with the soil suction pump (607).

7. A laser mapping-based land planning and measuring device as claimed in claim 6, characterized in that the inside diameter of the placing cylinder (606) is matched with the outside diameter of the sampling bottle (605), and the soil suction head (602) is communicated with the sampling bottle (605) through the soil suction pipe (601) and the soil guide pipe (604).

8. A land planning measurer based on laser mapping according to claim 1, characterized in that the receiving assembly (7) comprises a receiving bin (701), a connecting chute (702), a connecting slide block (703), a bearing block (704), a placing groove (705), a limiting groove (706), a spring (707), a connecting rod (708), a clamping block (709) and a fastening buckle (7010), the connecting chute (702) is arranged on two sides of the interior of the receiving bin (701), the connecting slide block (703) is connected to the inner side of the connecting chute (702), the bearing block (704) is connected to the other side of the connecting slide block (703), the placing groove (705) is arranged at the upper end of the bearing block (704), the limiting groove (706) is arranged on two sides of the placing groove (705), the spring (707) is arranged on the inner side of the limiting groove (706), and the connecting rod (708) is connected to one end of the spring (707), the other end of the connecting rod (708) is connected with a clamping block (709), and fastening buckles (7010) are arranged on two sides of the outer portion of the front end of the bearing block (704).

9. A laser mapping-based land planning measurer as claimed in claim 8, characterized in that the bearing block (704) is connected with the storage bin (701) in a sliding manner through a connecting slide block (703) and a connecting sliding groove (702), the placing groove (705) and the bearing block (704) are in an integrated structure, and six placing grooves (705) are provided.

10. A laser mapping based land planning measurer as claimed in claim 8, characterized in that the springs (707) are evenly distributed inside the limit groove (706), and the clamp blocks (709) form an elastic structure with the placing groove (705) through the connecting rod (708) and the springs (707).