CN216247325U

CN216247325U - Land reclamation engineering detection device

Info

Publication number: CN216247325U
Application number: CN202122774143.6U
Authority: CN
Inventors: 马利波; 杨晓; 张振柱; 赵竹君
Original assignee: Shandong Urban Planning And Architectural Design Institute Co ltd
Current assignee: Shandong Urban Planning And Architectural Design Institute Co ltd
Priority date: 2021-11-13
Filing date: 2021-11-13
Publication date: 2022-04-08
Anticipated expiration: 2031-11-13

Abstract

The utility model discloses a soil reclamation engineering detection device which comprises a vertically arranged support rod, wherein a drill rod capable of moving up and down is arranged on one side of the support rod, the drill rod is connected with the support rod through a lifting mechanism, a driving mechanism for driving the drill rod to rotate is arranged on the lifting mechanism, a cross beam is arranged at the bottom of the support rod and is perpendicular to the support rod, fixing pin columns convenient to insert underground are arranged at two ends of the cross beam, and the fixing pin columns are driven to ascend by a lifting mechanism. The portable sampling device is simple in structure and convenient to carry, users only need to carry a power supply to supply power to the motor, and meanwhile, the portable sampling device is convenient to fix and separate from the ground.

Description

Land reclamation engineering detection device

Technical Field

The utility model relates to a detection device, in particular to a detection device for land reclamation engineering, and belongs to the technical field of land detection equipment.

Background

Land reclamation refers to a process of improving intensive utilization rate and output rate of land and improving production, living conditions and ecological environment by taking administrative, economic and legal measures and applying engineering construction measures in a certain area according to the determined target and use of general land utilization planning, urban planning and land reclamation special planning, carrying out comprehensive reclamation and development on fields, water, roads, forests and villages, and carrying out deep development on rural residential site land which is not properly configured and unreasonably utilized, is scattered, idle and is not fully utilized. It is necessary to sample the land in a certain area during the remediation process.

However, the existing sampling equipment has a complex structure, is heavy in whole, is troublesome to use and has high manufacturing cost.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects in the prior art and provide a soil reclamation project detection device.

In order to solve the problems, the utility model adopts the following technical scheme: the utility model provides a soil reclamation engineering detection device, bracing piece including vertical setting, one side of bracing piece is provided with the drilling rod that can reciprocate, and the drilling rod passes through elevating system to be connected with the bracing piece, is provided with drive drilling rod pivoted actuating mechanism on the elevating system, and the crossbeam is installed to the bottom of bracing piece, and the crossbeam sets up with the bracing piece is perpendicular, and the both ends of crossbeam are provided with the fixed round pin post of being convenient for insert underground, and the fixed round pin post is driven by hoist mechanism and is risen.

The following is a further optimization of the present invention to the above scheme: the lifting mechanism comprises guide sleeves arranged at two ends of one side of the cross beam, the axes of the guide sleeves are parallel to the supporting rods, and the fixed pin columns coaxially penetrate through the guide sleeves.

Further optimization: and one side of the upper end of each fixed pin column is provided with a plate-shaped lever respectively, a long hole is formed in the lever along the length direction of the lever, and one side of the upper end of each fixed pin column is in sliding connection with the lever through a pin.

Further optimization: the upper ends of the two levers are staggered, crossed and overlapped and connected with the lower moving sleeve through another pin.

Further optimization: vertical rods are respectively installed at the positions, close to one side of each guide sleeve, on the cross beam, and the vertical rods are arranged in parallel with the supporting rods.

Further optimization: the position of one side of the vertical rod, which is close to one side of the lever, is also connected through a pin.

Further optimization: and a limiting pin is arranged between the lower moving sleeve and the supporting rod in a penetrating way.

Further optimization: and a pedal is arranged on one side of the lower moving sleeve.

During the use, place this device in the position that needs the sampling, then step on the crossbeam with the foot and insert the fixed round pin post underground, then loosen fastening bolt, drive the drilling rod downstream through last shift collar, then the starter motor drives the drilling rod and rotates, carries out the soil sampling, and the soil gets into and jacks up the push rod in the cavity, extracts the spacer pin after the sampling is accomplished, then steps on down the shift collar and extracts the fixed round pin post.

The portable sampling device is simple in structure and convenient to carry, users only need to carry a power supply to supply power to the motor, and meanwhile, the portable sampling device is convenient to fix and separate from the ground.

The utility model is further illustrated with reference to the following figures and examples.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is an enlarged schematic view at A in FIG. 1;

FIG. 3 is an enlarged schematic view at A in FIG. 1;

fig. 4 is a schematic structural diagram of a lifting mechanism in an embodiment of the present invention.

In the figure: 1-a support bar; 2-a drill rod; 3-a spiral material turning plate; 4-a cavity; 5-a push rod; 6-a support plate; 7-a bearing; 8-a circular ring; 9-a drive gear; 10-round horizontal bubble; 11-a motor; 12-upper moving sleeve; 13-a cross-bar; 14-a damping sleeve; 15-lower moving sleeve; 16-a pedal; 17-a lever; 18-a vertical rod; 19-a cross beam; 20-a guide sleeve; 21-fixing pin columns; 22-a pin; 23-long holes; 24-a driven gear; 25-fastening bolts; 26-limiting pin.

Detailed Description

Some specific embodiments of the utility model will be described in detail below, by way of example and not by way of limitation, with reference to the accompanying drawings. The same reference numbers in the drawings identify the same or similar elements or components. Those skilled in the art will appreciate that the drawings are not necessarily drawn to scale.

The embodiment, as shown in fig. 1-4, a soil reclamation project detection device, including the bracing piece 1 of vertical setting, the cross section of bracing piece 1 is the rectangle, one side of bracing piece 1 is provided with the drilling rod 2 that can reciprocate, drilling rod 2 passes through elevating system and is connected with bracing piece 1, the last actuating mechanism that is provided with drive drilling rod 2 pivoted of elevating system, the bottom fixed mounting of bracing piece 1 has crossbeam 19, crossbeam 19 sets up with bracing piece 1 is perpendicular, the both ends of crossbeam 19 are provided with the fixed round pin post 21 of being convenient for insert underground, the fixed round pin post is driven by hoist mechanism and is risen.

The lifting mechanism comprises guide sleeves 20 fixedly installed at two ends of one side of the cross beam 19, the axes of the guide sleeves 20 are parallel to the support rod 1, and fixing pins 21 coaxially penetrate through the guide sleeves 20.

One side of the upper end of each fixing pin 21 is provided with a plate-shaped lever 17, a long hole 23 is formed in the lever 17 along the length direction of the lever, one side of the upper end of each fixing pin 21 is connected with the lever 17 in a sliding mode through a pin 22, the pin 22 is T-shaped, and one end of each fixing pin passes through the long hole 23 to be fixedly connected with the lever 17, so that the lever 17 can rotate relative to the fixing pins 21 conveniently.

The upper end of the support rod 1 is coaxially provided with a lower moving sleeve 15 which can move up and down, the upper ends of the two levers 17 are overlapped in a staggered and crossed manner and are connected with the lower moving sleeve 15 through another pin 22, a hole for accommodating the pin 22 is formed in the position, close to the end part, of the lever 17, and one end of the pin 22 penetrates through the two levers 17 and is fixedly connected with the lower moving sleeve 15.

The position of one side of each guide sleeve 20, which is close to each cross beam 19, is fixedly provided with a vertical rod 18, and the vertical rods 18 are arranged in parallel with the support rods 1.

The position of one side of the vertical rod 18 close to one side of the lever 17 is also connected through a pin 22, the pin 22 penetrates through a long hole 23 to be fixedly connected with the vertical rod 18, and the lower moving sleeve 15 moves downwards to drive the fixed pin 21 to move upwards so as to be pulled out of the ground.

The distance between the upper end of the long hole 23 and the pin 22 on the lower moving sleeve 15 is smaller than the minimum distance between the pin 22 on the lower moving sleeve 15 and the pin 22 on the vertical rod 18.

The length of the long hole 23 is equal to or greater than the maximum distance between the pin 22 on the fixing pin 21 and the pin 22 on the vertical rod 18.

Lower moving sleeve 15 is located when the top and wears to be equipped with spacer pin 26 between the bracing piece 1, all sets up the hole that holds spacer pin 26 on lower moving sleeve 15 and the bracing piece 1, is convenient for like this fix lower moving sleeve 15, and then makes fixed round pin post 21 lower extreme stretch out.

A pedal 16 is fixedly installed at one side of the lower moving sleeve 15, so that the lower moving sleeve 15 is pushed to move downwards by the foot stepping.

The lifting mechanism comprises an upper moving sleeve 12 coaxially sleeved on the supporting rod 1, and holes for accommodating the supporting rod 1 are respectively formed in the upper moving sleeve 12 and the lower moving sleeve 15.

Fastening bolts 25 penetrate through one side of the upper moving sleeve 12, and screw holes for accommodating the fastening bolts 25 are formed in the upper moving sleeve 12, so that one end of each fastening bolt 25 can penetrate through the upper moving sleeve 12 to be tightly propped against the supporting rod 1.

A cross rod 13 is fixedly mounted on the upper moving sleeve 12, and a damping sleeve 14 is sleeved at one end of the cross rod 13, so that the upper moving sleeve 12 is convenient to move.

One side of the upper moving sleeve 12 far away from the cross rod 13 is fixedly provided with a supporting plate 6, the supporting plate 6 is provided with a hole for accommodating the upper end of the drill rod 2, and a bearing 7 is coaxially arranged between the hole and the drill rod 2, so that the drill rod 2 can rotate conveniently.

The outer circular shaft of the drill rod 2 is provided with a spiral material turning plate 3, a cavity 4 for containing soil is arranged in the drill rod 2, and the cross section of the cavity 4 is circular and penetrates through the upper end face and the lower end face of the drill rod 2.

The push rod 5 is coaxially installed in the cavity 4, a circular ring 8 is coaxially arranged between the upper end of the cavity 4 and the push rod 5, the circular ring 8 is fixedly connected with the drill rod 2, and a hole for accommodating the push rod 5 to move up and down is formed in the circular ring 8. The drill rod 2 is arranged in parallel with the support rod 1.

The position fixed mounting that the lower terminal surface of backup pad 6 is close to drilling rod 2 one side has motor 11, and the output of motor 11 runs through to backup pad 6 upper end and coaxial fixed mounting has driving gear 9, and the meshing has driven gear 24 on the driving gear 9, and the coaxial fixed mounting of driven gear 24 is in the upper end of drilling rod 2, and motor 11 rotates and drives drilling rod 2 through driving gear 9 and driven gear 24 and rotate.

The upper end fixed mounting of bracing piece 1 has circular horizontal bubble 10, and the design is convenient for the levelness of whole device like this, and when the bubble on the circular horizontal bubble 10 was in the centre position, the axis of bracing piece 1 was in vertical state.

During the use, place this device in the position that needs the sampling, then step on crossbeam 19 with the foot and insert fixing pin post 21 underground, then loosen fastening bolt 25, drive drilling rod 2 downstream through last movable sleeve 12, then starting motor 11 drives drilling rod 2 and rotates, carries out the soil sampling, and the soil gets into and jacks up push rod 5 in the cavity 4, extracts spacer pin 26 after the sampling is accomplished, then steps on and moves cover 15 and extract fixing pin post 21.

Claims

1. The utility model provides a land reclamation project detection device which characterized in that: the underground drilling rod drilling machine comprises a vertically arranged supporting rod (1), a drilling rod (2) capable of moving up and down is arranged on one side of the supporting rod (1), the drilling rod (2) is connected with the supporting rod (1) through an elevating mechanism, a driving mechanism for driving the drilling rod (2) to rotate is arranged on the elevating mechanism, a cross beam (19) is installed at the bottom of the supporting rod (1), the cross beam (19) is perpendicular to the supporting rod (1), fixing pin columns (21) which are convenient to insert underground are arranged at two ends of the cross beam (19), and the fixing pin columns (21) are driven by a lifting mechanism to ascend.

2. The soil remediation project detection apparatus of claim 1, wherein: the lifting mechanism comprises guide sleeves (20) arranged at two ends of one side of the cross beam (19), the axes of the guide sleeves (20) are arranged in parallel with the support rod (1), and the fixed pin columns (21) are coaxially arranged in the guide sleeves (20) in a penetrating mode.

3. The soil remediation project detection apparatus of claim 2, wherein: one side of the upper end of each fixed pin column (21) is provided with a plate-shaped lever (17), a long hole (23) is formed in the lever (17) along the length direction of the lever, and one side of the upper end of each fixed pin column (21) is connected with the lever (17) in a sliding mode through a pin (22).

4. A soil remediation project detection means as claimed in claim 3, wherein: the upper end of the two levers (17) are staggered, crossed and overlapped and connected with the lower moving sleeve (15) through another pin (22).

5. The soil remediation project detection apparatus of claim 4, wherein: vertical rods (18) are respectively installed at positions, close to one side of each guide sleeve (20), on the cross beam (19), and the vertical rods (18) are arranged in parallel with the supporting rod (1).

6. The soil remediation project detection apparatus of claim 5, wherein: the position of one side of the vertical rod (18) close to one side of the lever (17) is also connected through a pin (22).

7. The soil remediation project detection apparatus of claim 6, wherein: a limit pin (26) is arranged between the lower moving sleeve (15) and the support rod (1) in a penetrating way.

8. The soil remediation project detection apparatus of claim 7, wherein: a pedal (16) is arranged on one side of the lower moving sleeve (15).