CN219641279U - Sampling device for hydraulic engineering detection - Google Patents

Abstract

The sampling device for hydraulic engineering detection comprises a frame body and two fixed bases, wherein the frame body comprises an upper frame plate, a middle frame plate and a bottom mounting seat; a threaded connecting sleeve is rotationally connected to the bottom mounting seat, and a first motor is connected above the bottom mounting seat; a vertical sliding seat is connected between the upper frame plate and the middle frame plate, a vertical sliding rod is vertically and slidingly connected on the vertical sliding seat, a vertical screw rod is connected below the vertical sliding rod, a drill bit is rotationally connected at the bottom of the vertical screw rod, and a thread connecting sleeve is in threaded connection with the vertical screw rod; according to the utility model, the first motor is used for controlling the threaded connecting sleeve, so that the vertical sliding rod, the vertical screw rod and the drill bit are controlled to move downwards; the bottom end of the vertical screw rod is connected with a connecting seat which is integrated with the vertical screw rod, the connecting seat is connected with a second motor, a sampling bottom barrel is detachably connected to the drill bit, and the bottom of the sampling bottom barrel is connected with external teeth; the utility model is controlled by the first motor and the second motor in the sampling and punching processes, and is easier.

Description

Sampling device for hydraulic engineering detection

Technical Field

The utility model relates to the technical field of hydraulic engineering, in particular to a sampling device for hydraulic engineering detection.

Background

The hydraulic engineering is mainly used for researching basic knowledge and skills in aspects of engineering hydrology, hydraulic engineering measurement, hydraulic reinforced concrete, hydraulic buildings, engineering drawing and the like, and carrying out engineering planning design, engineering site construction, engineering budget and maintenance and repair on hydraulic equipment in the field of hydraulic engineering; for example: building different types of hydraulic buildings such as dams, dykes, spillways, floodgates, channels, rafts, fishways and the like.

When building the building in the prior art, the soil removal is generally needed for detection, so that the sampling device is provided, and the prior detection device comprises: the application number is 202222341582.2's novel soil sampling device, and this soil sampling device is in the use, needs the manpower to remove second handle and first handle and makes the soil sample that the sampling spoon got into the depths, and this mode is comparatively laborious when the manual work removes second handle and first handle because of the resistance that receives soil.

Disclosure of Invention

The utility model aims to solve the technical problem of providing a sampling device for hydraulic engineering detection, which is driven by a first motor and a second motor to sample.

In order to solve the technical problems, the technical solution of the sampling device for hydraulic engineering detection of the utility model is as follows:

comprises a frame body and two fixed bases respectively arranged at two sides of the frame body; the fixed base is fixed on the ground through steel nails, and the frame body comprises an upper frame plate, a middle frame plate and a bottom mounting seat; the upper frame plate, the middle frame plate and the bottom mounting seat are connected through connecting rods; the bottom mounting seat is rotationally connected with a threaded connecting sleeve, and a first motor for driving the threaded connecting sleeve to rotate is connected above the bottom mounting seat; a vertical sliding seat is connected between the upper frame plate and the middle frame plate; a vertical sliding rod is vertically connected to the vertical sliding seat in a sliding manner; a vertical screw rod integrated with the vertical slide rod is connected below the vertical slide rod; the bottom of the vertical screw is rotationally connected with a drill bit; the bottom end of the vertical screw rod is connected with a connecting seat integrated with the vertical screw rod; the connecting seat is connected with a second motor for driving the drill bit to rotate; the drill bit is detachably connected with a sampling bottom cylinder; the bottom of the sampling bottom cylinder is connected with external teeth; the thread connecting sleeve is in threaded connection with the vertical screw rod.

A connecting sleeve is connected above the sampling bottom cylinder; the connecting sleeve is sleeved on the drill bit and is connected with the drill bit through a bolt.

The bottom mounting seat comprises an upper mounting panel and a lower mounting panel; the first motor is fixed above the upper mounting panel, and the lower end of the rotating shaft of the first motor penetrates through the upper mounting panel to be connected with a first belt pulley; the outer side of the threaded connecting sleeve is connected with a second belt pulley; the first belt pulley is connected with the second belt pulley through a first driving belt.

The lower end of the second motor rotating shaft penetrates through the connecting seat to be connected with a third belt pulley; the outer side of the drill bit is connected with a fourth belt pulley; the third belt pulley is connected with the fourth belt pulley through a second driving belt.

Both sides of the frame body are connected with fixed panels; hinge rods are hinged to the side edges of the fixed panel; the fixed base is connected with the frame body through a hinging rod; one end of the hinging rod is hinged with the fixed panel, and the other end of the hinging rod is hinged with the fixed base.

The fixed panel is connected between the middle frame plate and the bottom mounting seat.

The utility model has the following technical effects: the utility model relates to a sampling device for hydraulic engineering detection, which comprises a frame body and two fixing bases, wherein the fixing bases are fixed on the ground through steel nails, and the frame body comprises an upper frame plate, a middle frame plate and a bottom mounting seat; a threaded connecting sleeve is rotationally connected to the bottom mounting seat, and a first motor for driving the threaded connecting sleeve to rotate is connected above the bottom mounting seat; a vertical sliding seat is connected between the upper frame plate and the middle frame plate, a vertical sliding rod is vertically and slidably connected on the vertical sliding seat, a vertical screw rod integrated with the vertical sliding seat is connected below the vertical sliding rod, a drill bit is rotationally connected to the bottom of the vertical screw rod, and a thread connecting sleeve is in threaded connection with the vertical screw rod; according to the utility model, the first motor is used for controlling the threaded connecting sleeve, so that the vertical sliding rod, the vertical screw rod and the drill bit are controlled to move downwards; the bottom end of the vertical screw rod is connected with a connecting seat which is integrated with the vertical screw rod, the connecting seat is connected with a second motor for driving the drill bit to rotate, the drill bit is detachably connected with a sampling bottom barrel, and the bottom of the sampling bottom barrel is connected with external teeth; according to the utility model, the drill bit can be controlled to rotate through the second motor, so that the drill bit is controlled to punch holes, and after the drill bit is used for punching holes, a sampling bottom cylinder is installed for sampling; the utility model is controlled by the first motor and the second motor in the sampling and punching processes, and is easier.

Drawings

The utility model is described in further detail below with reference to the attached drawings and detailed description:

FIG. 1 is a schematic structural view of a sampling device for hydraulic engineering detection according to the present utility model;

FIG. 2 is a partial exploded view of a sampling device for hydraulic engineering detection according to the present utility model;

FIG. 3 is a cross-sectional view of a sampling device for hydraulic engineering inspection according to the present utility model;

fig. 4 is an enlarged view of a portion a of fig. 3;

fig. 5 is an enlarged view of a portion B of fig. 4;

fig. 6 is a schematic structural view of the sampling cartridge.

Detailed Description

The utility model is further described in detail below with reference to the accompanying drawings.

See fig. 1-6.

The sampling device for hydraulic engineering detection comprises a frame body and two fixing bases 1 which are respectively arranged at two sides of the frame body, wherein the fixing bases 1 are fixed on the ground through steel nails 2, the frame body comprises an upper frame plate 3, a middle frame plate 4 and a bottom mounting seat, the upper frame plate 3, the middle frame plate 4 and the bottom mounting seat are connected through connecting rods 5, a threaded connecting sleeve 7 is rotationally connected to the bottom mounting seat, and a first motor 8 for driving the threaded connecting sleeve 7 to rotate is connected above the bottom mounting seat; specifically, the bottom mounting seat comprises an upper mounting panel 31 and a lower mounting panel 32, the first motor 8 is fixed above the upper mounting panel 31, the lower end of a rotating shaft of the first motor 8 penetrates through the upper mounting panel 31 to be connected with a first belt pulley 33, the outer side of the threaded connecting sleeve 7 is connected with a second belt pulley 34, and the first belt pulley 33 is connected with the second belt pulley 34 through a first transmission belt 35; a vertical sliding seat 9 is connected between the upper frame plate 3 and the middle frame plate 4, a vertical sliding rod 10 is vertically and slidably connected on the vertical sliding seat 9, a vertical screw rod 11 integrated with the vertical sliding rod 10 is connected below the vertical sliding rod 10, a drill bit 12 is rotationally connected to the bottom of the vertical screw rod 11, and a thread connecting sleeve 7 is in threaded connection with the vertical screw rod 11; according to the utility model, by opening the first motor 8, the first motor 8 drives the first belt pulley 33 to rotate, the first belt pulley 33 drives the second belt pulley 34 and the threaded connecting sleeve 7 to rotate through the first transmission belt 35, and the threaded connecting sleeve 7 is in threaded connection with the vertical screw rod 11, so that the vertical sliding rod 10 is vertically and slidingly connected to the vertical sliding seat 9 (the vertical sliding rod 10 and the vertical screw rod 11 are integrated, namely, the vertical screw rod 11 also vertically slides along the vertical sliding seat 9), and therefore, the vertical screw rod 11, the drill bit 12 and the vertical sliding rod 10 can be controlled to vertically move up and down along the vertical sliding seat 9 by controlling the forward and backward rotation of the first motor 8.

The bottom end of a vertical screw 11 is connected with a connecting seat 13 which is integrated with the vertical screw, the connecting seat 13 is connected with a second motor 14 which is used for driving a drill bit 12 to rotate, in particular, the lower end of a rotating shaft of the second motor 14 passes through the connecting seat 13 and is connected with a third belt pulley 41, the outer side of the drill bit 12 is connected with a fourth belt pulley 42, the third belt pulley 41 is connected with the fourth belt pulley 42 through a second driving belt 43, the second motor 14 is turned on, the second motor 14 drives the third belt pulley 41 to rotate, and the third belt pulley 41 drives the fourth belt pulley 42 and the drill bit 12 to rotate through the second driving belt 43; the drill bit 12 is detachably connected with a sampling bottom barrel 15, and the bottom of the sampling bottom barrel 15 is connected with external teeth 16; specifically, a connecting sleeve 21 is connected above the sampling bottom cylinder 15, and the connecting sleeve 21 is sleeved on the drill bit 12 and connected with the drill bit 12 through a bolt.

According to the utility model, on the connection of a fixed base 1, two sides of a frame body are connected with fixed panels 51, the side edges of the fixed panels 51 are hinged with hinge rods 52, the fixed base 1 is connected with the frame body through the hinge rods 52, one end of each hinge rod 52 is hinged with the fixed panel 51, and the other end of each hinge rod 52 is hinged with the fixed base 1; specifically, the fixing panel 51 is connected between the middle frame plate 4 and the bottom mounting seat.

Description of use: when the utility model is used, firstly, the frame body is fixed on the ground to be sampled, specifically, the fixed bases 1 on two sides of the frame body are fixed on the ground through steel nails 2 so as to be fixed, then, drilling is carried out, the drill bit 12 is used for drilling to the depth required by the soil, and then, the sampling bottom barrel 15 is used for taking the soil; specifically, the drill bit 12 is driven to rotate by the second motor 14, then the first motor 8 drives the screw connecting sleeve 7 to rotate so as to control the drill bit 12 to drill down to a required depth, then the first motor 8 is used for reversely controlling the drill bit 12 to drill the ground, the first motor 8 and the second motor 14 are turned off, the sampling bottom barrel 15 is arranged on the drill bit 12, the connecting sleeve 21 is connected above the sampling bottom barrel 15, the connecting sleeve 21 is sleeved on the drill bit 12 and connected with the drill bit 12 by bolts, finally the first motor 8 and the second motor 14 are turned on again, the second motor 14 drives the sampling bottom barrel 15 to rotate, and the first motor 8 is used for controlling the sampling bottom barrel 15 to move down to the required depth along the hole drilled by the drill bit 12 before and then sampling.

Claims (6)

1. The sampling device for hydraulic engineering detection comprises a frame body and two fixed bases (1) which are respectively arranged at two sides of the frame body; the fixed base (1) is fixed on the ground through steel nails (2), and is characterized in that: the frame body comprises an upper frame plate (3), a middle frame plate (4) and a bottom mounting seat; the upper frame plate (3), the middle frame plate (4) and the bottom mounting seat are connected through a connecting rod (5); the bottom mounting seat is rotationally connected with a thread connecting sleeve (7), and a first motor (8) for driving the thread connecting sleeve (7) to rotate is connected above the bottom mounting seat; a vertical sliding seat (9) is connected between the upper frame plate (3) and the middle frame plate (4); a vertical sliding rod (10) is vertically connected to the vertical sliding seat (9) in a sliding manner; a vertical screw rod (11) integrated with the vertical slide rod (10) is connected below the vertical slide rod; the bottom of the vertical screw rod (11) is rotationally connected with a drill bit (12); the bottom end of the vertical screw rod (11) is connected with a connecting seat (13) which is integrated with the vertical screw rod; the connecting seat (13) is connected with a second motor (14) for driving the drill bit (12) to rotate; the drill bit (12) is detachably connected with a sampling bottom cylinder (15); the bottom of the sampling bottom cylinder (15) is connected with external teeth (16); the thread connecting sleeve (7) is in threaded connection with the vertical screw rod (11).

2. The sampling device for hydraulic engineering detection according to claim 1, wherein: a connecting sleeve (21) is connected above the sampling bottom cylinder (15); the connecting sleeve (21) is sleeved on the drill bit (12) and is connected with the drill bit (12) through bolts.

3. The sampling device for hydraulic engineering detection according to claim 1, wherein: the bottom mount comprises an upper mounting panel (31) and a lower mounting panel (32); the first motor (8) is fixed above the upper mounting panel (31), and the lower end of a rotating shaft of the first motor (8) penetrates through the upper mounting panel (31) to be connected with a first belt pulley (33); the outer side of the thread connecting sleeve (7) is connected with a second belt pulley (34); the first belt pulley (33) and the second belt pulley (34) are connected through a first transmission belt (35).

4. The sampling device for hydraulic engineering detection according to claim 1, wherein: the lower end of the rotating shaft of the second motor (14) penetrates through the connecting seat (13) to be connected with a third belt pulley (41); a fourth belt pulley (42) is connected to the outer side of the drill bit (12); the third belt pulley (41) and the fourth belt pulley (42) are connected through a second transmission belt (43).

5. The sampling device for hydraulic engineering detection according to claim 1, wherein: both sides of the frame body are connected with fixed panels (51); hinge rods (52) are hinged to the side edges of the fixed panel (51); the fixed base (1) is connected with the frame body through a hinging rod (52); one end of the hinging rod (52) is hinged with the fixed panel (51), and the other end of the hinging rod is hinged with the fixed base (1).

6. The sampling device for hydraulic engineering detection according to claim 5, wherein: the fixed panel (51) is connected between the middle frame plate (4) and the bottom mounting seat.