CN220725042U - Civil engineering geology sampling device - Google Patents

Abstract

The utility model discloses a civil engineering geological sampling device, wherein a diaphragm is arranged in a sampling tube, the diaphragm is connected with the sampling tube through a sliding structure, a motor is arranged on the diaphragm, a driving shaft of the motor is connected with a rotating shaft rod, the rotating shaft rod is positioned below the diaphragm, the lower end of the rotating shaft rod is provided with a sampling drill bit, an auger blade is arranged on the rotating shaft rod, when the sampling device is used, a pedal is stepped on, the diaphragm is driven to move downwards through a driving component, the motor drives the rotating shaft rod to rotate so that the drill bit drills out soil, the soil rises along the auger blade along with the rotating shaft rod, and the diaphragm is lifted to retract the auger blade so as to collect the soil in the sampling tube.

Description

Civil engineering geology sampling device

Technical Field

The utility model belongs to the field of sampling devices, and particularly relates to a civil engineering geological sampling device.

Background

Before civil engineering construction, the geology to be constructed needs to be inspected, so that the construction is designed or planned according to the quality of the land, and a device for excavating the ground and sampling is needed.

Most of the manual samplers adopted at present are, for example, an existing civil engineering geological sampling device (CN 217084260U), and the pedal is stepped on by two feet, then the rotary handle is driven by a screw rod to drive a sampling rod to be inserted into soil, a sampling bin on the sampling rod is used for collecting the soil, and the rotary handle is rotated again after collection to take out the sampling rod, so that sampling is completed, but when the device is used, a manual rotating device is needed, the labor is wasted, and the working efficiency is low.

Disclosure of Invention

The utility model aims at: the geological sampling device is more convenient and labor-saving.

The technical scheme adopted by the utility model is as follows:

the utility model provides a civil engineering geology sampling device, includes the sampling tube, and the side lower extreme of sampling tube sets up the footboard, and the inside diaphragm that sets up of sampling tube, diaphragm and sampling tube pass through sliding construction and are connected, set up the motor on the diaphragm, and the drive shaft of motor is connected to the pivot pole, and the pivot pole is located diaphragm below and pivot pole lower extreme and sets up the sample drill bit, sets up auger blade on the pivot pole, and the diaphragm is connected with its drive assembly who reciprocates in the inside of sampling tube.

The lower end of the sampling tube is provided with a plugboard which is connected with the pedal in a sliding way, the plugboard penetrates through the sampling tube, and the end part of the plugboard is fixed with a side cutter.

The further technical scheme is that the side bottom of the sampling tube is fixedly provided with a mounting plate, and the mounting plate is penetrated with a fixing nail.

The further technical scheme is that the top of the sampling tube is provided with a ventilation window, and the ventilation window is hinged with the sampling tube.

The further technical scheme is that the side face of the sampling tube is provided with a towing bar, the lower part of the side face of the sampling tube is provided with a connecting rod, and the connecting rod is connected with a rotating connecting roller.

The further technical scheme is that the driving component is an electric cylinder, an air cylinder or a hydraulic cylinder.

In summary, due to the adoption of the technical scheme, the beneficial effects of the utility model are as follows:

through setting up the diaphragm inside the sampling tube, the diaphragm passes through sliding structure with the sampling tube and is connected, set up the motor on the diaphragm, the drive shaft connection pivot pole of motor, the pivot pole is located diaphragm below and pivot pole lower extreme sets up the sampling drill bit, set up auger blade on the pivot pole, when using, step on the footboard, move down through drive assembly drive diaphragm, motor drive pivot pole rotates and makes the drill bit drill soil, along auger blade rising with this pivot pole rotatory soil, withdraw auger blade through mentioning the diaphragm, thereby collect soil inside the sampling tube, compare traditional manual sampler, this scheme is more convenient laborsaving, drill bit and auger blade all are located the sampling tube inside around using moreover, can guarantee user's safety.

Drawings

FIG. 1 is a schematic view of the overall structure of the present utility model;

FIG. 2 is a schematic view of the attachment structure of the staple of the present utility model;

fig. 3 is a schematic view of a connection structure of the roller according to the present utility model.

Detailed Description

The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent.

As shown in fig. 1-3. The utility model provides a civil engineering geology sampling device, including sampling tube 103, the side lower extreme of sampling tube 103 sets up footboard 101, the inside diaphragm 107 that sets up of sampling tube 103, diaphragm 107 passes through sliding structure with sampling tube 103 to be connected, set up motor 108 on the diaphragm 107, the rotation axostylus axostyle 110 is connected to motor 108's drive shaft, rotation axostylus axostyle 110 is located diaphragm 107 below and rotation axostylus axostyle 110 lower extreme sets up sampling drill bit 106, set up auger blade 109 on the rotation axostylus axostyle 110, diaphragm 107 is connected with its drive assembly 105 that reciprocates in sampling tube 103 inside.

When the device is used, the pedal 101 is placed at a sampling position, the motor 108 and the driving assembly 105 are started by the pedal 101, the driving assembly 105 is preferably an electric cylinder, the motor 108 and the driving assembly 105 are powered by the storage battery, the driving assembly 105 drives the transverse plate 107 to move downwards, the motor 108 drives the rotating shaft rod 110 to rotate so that the drill bit 106 drills out soil, the rotating shaft rod 110 rotates the soil to ascend along the auger blade 109 along with the soil, the soil is distributed on the auger blade, finally, the rotating shaft rod 110 and the auger blade 109 are lifted and retracted into the sampling cylinder 103 by the driving assembly 105 to be collected in the sampling cylinder 103, the device can be placed upside down and is scattered, and the sliding structure of the transverse plate 107 and the sampling cylinder 103 adopts the transverse plate 107 to be directly connected with the temporal part of the sampling cylinder 103 in a sliding mode or the transverse plate 107 of the sliding rail 104 is arranged at the inner side of the sampling cylinder 103 and is connected with the sliding rail 104 in a sliding mode.

Through setting up diaphragm 107 inside sample section of thick bamboo 103, diaphragm 107 passes through sliding construction with sample section of thick bamboo 103 and is connected, set up motor 108 on the diaphragm 107, the drive shaft of motor 108 connects pivot pole 110, pivot pole 110 is located diaphragm 107 below and pivot pole 110 lower extreme sets up sampling drill bit 106, set up auger blade 109 on the pivot pole 110, during the use, step on footboard 101, drive diaphragm 107 through drive assembly 105 and move down, motor 108 drive pivot pole 110 rotates and makes drill bit 106 open soil, along with this pivot pole 110 rotatory soil rising along auger blade 109, lift diaphragm 107 and withdraw auger blade 109, thereby collect soil inside sample section of thick bamboo 103, compare traditional manual sampler, this scheme is more convenient laborsaving, and drill bit 106 and auger blade 109 all are located inside sample section of thick bamboo 103 before and after the use, can guarantee user's safety.

The lower extreme of sampling tube 103 sets up picture peg 111, picture peg 111 and footboard 101 sliding connection, picture peg 111 runs through sampling tube 103, and picture peg 111 tip fixed side knife 112, picture peg 111 is used for sealing sampling tube 103 mouth, avoids soil to spill, and the setting of side knife 112 is convenient for picture peg 111 to insert.

The mounting plate 113 is fixed at the bottom of the side surface of the sampling tube 103, the mounting plate 113 is provided with the fixing nails 114 in a penetrating mode, and after the fixing nails 114 are nailed into the ground, the stability of the device can be improved.

The top of the sampling cylinder 103 is provided with a ventilation window 115, the ventilation window 115 is hinged with the sampling cylinder 103, and the ventilation window 115 is used for heat dissipation of the motor 108

The side of the sampling tube 103 is provided with a drag rod 201, the lower part of the side of the sampling tube 103 is provided with a connecting rod 202, the connecting rod 202 is connected with a rotary connecting roller 203, the device can be conveniently moved, the device is inclined by dragging the drag rod 201 when the device is moved, and the roller 203 is contacted with the ground, so that the device is moved.

The drive assembly 105 is an electric, pneumatic or hydraulic cylinder.

The foregoing is only illustrative of the preferred embodiments of the present utility model.

Claims (6)

1. The utility model provides a civil engineering geology sampling device, a serial communication port, including sample section of thick bamboo (103), the side lower extreme of sample section of thick bamboo (103) sets up footboard (101), the inside diaphragm (107) that sets up of sample section of thick bamboo (103), diaphragm (107) are connected through sliding structure with sample section of thick bamboo (103), set up motor (108) on diaphragm (107), the rotation axis pole (110) are connected in the drive shaft of motor (108), rotation axis pole (110) are located diaphragm (107) below and rotation axis pole (110) lower extreme sets up sampling drill bit (106), set up auger blade (109) on rotation axis pole (110), diaphragm (107) are connected with its inside drive assembly (105) that reciprocates of sample section of thick bamboo (103).

2. The civil engineering geological sampling device according to claim 1, wherein a plug board (111) is arranged at the lower end of the sampling tube (103), the plug board (111) is connected with the pedal (101) in a sliding mode, the plug board (111) penetrates through the sampling tube (103), and a side cutter (112) is fixed at the end portion of the plug board (111).

3. The civil engineering geological sampling device according to claim 1, wherein a mounting plate (113) is fixed at the bottom of the side face of the sampling tube (103), and a fixing nail (114) is arranged on the mounting plate (113) in a penetrating manner.

4. A civil engineering geological sampling device according to claim 1, characterized in that the top of the sampling cylinder (103) is provided with a ventilation window (115), and the ventilation window (115) is hinged with the sampling cylinder (103).

5. The civil engineering geological sampling device according to claim 1, wherein a towing bar (201) is arranged on the side face of the sampling tube (103), a connecting rod (202) is arranged on the lower portion of the side face of the sampling tube (103), and the connecting rod (202) is rotatably connected with the roller (203).

6. A civil geological sampling device according to claim 1, characterized in that said driving assembly (105) is an electric, pneumatic or hydraulic cylinder.