CN215178738U

CN215178738U - Geological engineering investigation is with quick coring device

Info

Publication number: CN215178738U
Application number: CN202120870677.6U
Authority: CN
Inventors: 张凯
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-04-26
Filing date: 2021-04-26
Publication date: 2021-12-14
Anticipated expiration: 2031-04-26

Abstract

The utility model belongs to the technical field of geological survey equipment, especially, be a quick coring device for geological engineering investigation, including the supporting seat that is used for supporting, the inboard of supporting seat is equipped with the actuating mechanism that is used for the transmission, the below of actuating mechanism is equipped with the coring drill pipe that is used for the sample, the supporting seat is equipped with the ground pole that inserts that is used for inserting the ground location, be equipped with the dismouting subassembly that is used for connecting the dismantlement between actuating mechanism and the coring drill pipe; during the clearance, operating personnel accessible screwdriver releases the locating piece from the embedded groove in, and the locator card pole is pulled down to make the locator card pole deviate from in the through-hole and remove spacing to spacing slider, later uses the screwdriver to release spacing slider from leading to the inslot and get into the inboard of bracing piece and can remove being connected between bracing piece and the connecting seat fixed, realizes taking off the clearance to coring drill pipe, makes things convenient for in operating personnel to clear away the inside remaining soil of coring drill pipe, the detection precision when guaranteeing follow-up sampling.

Description

Geological engineering investigation is with quick coring device

Technical Field

The utility model belongs to the technical field of the geological survey equipment, concretely relates to geological engineering investigation is with quick coring device.

Background

In the geological engineering exploration process, coring and sample storage are needed, so that geological samples can be conveniently detected, and generally, coring operation is carried out by the exploration personnel through a coring device.

SUMMERY OF THE UTILITY MODEL

Present geological engineering reconnaissance will get the sample discharge back in the core drill pipe, have the adhesion because of moist geological soil and can have in the drill pipe inner chamber and remain, because it is the welding setting with its motor output shaft that bores and get of drive to get the core drill pipe, be not convenient for take off the drill pipe wholly, and the operating space between motor and drill pipe is narrow and small, and operating personnel is not convenient for clear up, causes the drill pipe to have the deposit easily to remain, and remaining sample also can lead to the fact certain influence to subsequent sample detection precision during subsequent operation. The utility model provides a geological engineering investigation is with quick coring device has the characteristics of being convenient for tear open fast and get the drill pipe clearance.

The utility model provides a following technical scheme: including the supporting seat that is used for the support, the inboard of supporting seat is equipped with and is used for driven actuating mechanism, actuating mechanism's below is equipped with the core drill pipe that gets that is used for the sample, the supporting seat is equipped with the ground pole that inserts that is used for inserting the ground location, actuating mechanism with get and be equipped with the dismouting subassembly that is used for connecting the dismantlement between the core drill pipe, the outside of supporting seat is equipped with the regulation insert the adjustment mechanism of ground pole grafting distance.

Wherein, the dismouting subassembly includes connecting seat, bracing piece, two spacing slider and two locator card poles, the connecting seat set firmly in actuating mechanism's output, the bracing piece set firmly in get the top of core drill pipe, the bracing piece block fixed with the inboard of connecting seat, two spacing slider all with the sliding connection of bracing piece, just spacing slider's one end runs through the connecting seat, the locator card pole run through spacing slider and with the connecting seat block is fixed.

Wherein, the inboard of connecting seat has seted up logical groove, spacing slider sliding connection in logical inslot.

The supporting rod is elastically connected with the limiting sliding block through a first pressure spring.

The limiting slide block is provided with a through hole, and the positioning clamping rod penetrates through the through hole.

The inner side of the positioning clamping rod is connected with a positioning block in a sliding mode, and a second pressure spring is elastically connected between the positioning clamping rod and the positioning block.

The connecting seat is provided with an embedded groove, and one end of the positioning block is clamped and connected with the embedded groove.

Wherein, adjustment mechanism includes sliding seat, slide bar, screw thread seat and screw rod, the sliding seat with the screw thread seat set firmly in insert the outer wall of ground pole and be the symmetric distribution, the slide bar set firmly in the roof of supporting seat, slide bar sliding connection in the sliding seat, screw rod threaded connection in the inboard of screw thread seat, just the bottom of screw rod with the supporting seat rotates to be connected.

The utility model has the advantages that: when carrying out the clearance of coring drill pipe inboard residual soil, operating personnel accessible screwdriver releases the locating piece from the embedded groove, make the locator card pole deviate from in the through-hole and remove spacing to limit slide to the locator card pole lower pull-down, later use the screwdriver to release limit slide from leading to the inslot and get into the inboard of bracing piece and can remove being connected between bracing piece and the connecting seat fixed, the realization is to the clearance of taking off of coring drill pipe, can not be convenient for the clearance operation because of space restriction, it clears away to the inside residual soil of coring drill pipe to make things convenient for operating personnel, can not receive the influence because of remaining the doping of the soil sample of batch around leading to the fact, detection accuracy when guaranteeing follow-up sampling.

The parts of the device not involved are the same as or can be implemented using prior art.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is an enlarged view of portion A of FIG. 1;

FIG. 3 is a top sectional view of the connecting seat and the supporting rod of the present invention;

fig. 4 is a cross-sectional view of the middle positioning clip rod and the positioning block of the present invention.

In the figure: 1. a supporting seat; 2. a drive mechanism; 21. coring the drill pipe; 3. a ground inserting rod; 4. disassembling and assembling the components; 41. a connecting seat; 411. a through groove; 412. a groove is embedded; 42. a support bar; 421. a first pressure spring; 43. a limiting slide block; 431. a through hole; 44. positioning the clamping rod; 441. positioning blocks; 442. a second pressure spring; 5. an adjustment mechanism; 51. a sliding seat; 52. a slide bar; 53. a threaded seat; 54. a screw.

Detailed Description

Referring to fig. 1-4, the present invention provides the following technical solutions: including the supporting seat 1 that is used for supporting, the inboard of supporting seat 1 is equipped with and is used for driven actuating mechanism 2, and actuating mechanism 2's below is equipped with the core drill pipe 21 that is used for the sample, and supporting seat 1 is equipped with and is used for inserting ground pole 3 of ground location, is equipped with between actuating mechanism 2 and the core drill pipe 21 to be used for connecting the dismouting subassembly 4 of dismantling, and the outside of supporting seat 1 is equipped with the adjustment mechanism 5 of adjusting 3 grafting distances of ground pole of inserting.

In this embodiment: the driving mechanism 2 consists of a motor and a cylinder, the coring drill pipe 21 at the bottom of the disassembly and assembly component 4 is driven by the motor to rotate, the coring drill pipe 21 is driven to drill into soil to take samples by the cylinder pushing the motor to descend, the stable installation is realized between the driving mechanism 2 and the coring drill pipe 21 through the clamping fit of the support rod 42 and the connecting seat 41, the limiting slide blocks 43 at two sides of the support rod 42 are clamped in the through grooves 411 arranged on the connecting seat 41, the primary positioning between the connecting seat 41 and the support rod 42 is realized, the connecting seat 41 and the support rod 42 can not shake up and down, the limiting slide blocks 43 are limited by the positioning clamping rods 44 penetrating the connecting seat 41 and penetrating through the through holes 431 arranged on the limiting slide blocks 43, the limiting slide blocks 43 can not slide into the support rod 42 under the clamping effect of the positioning clamping rods 44, and the limiting slide blocks 43 can not slide into the support rod 42 due to the shake when the coring drill pipe 21 is inserted into the soil under the driving of the driving mechanism 2, the installation stability of the connecting seat 41 and the supporting rod 42 is ensured, after the positioning clamping rod 44 is inserted, the positioning block 441 can be pushed to be clamped on the inner side of the embedded groove 412 through the elasticity of the second pressure spring 442, so that the positioning clamping rod 44 cannot be separated from the through hole 431, the stability is further ensured, the coring drill pipe 21 is more conveniently detached and cleaned through the clamping installation mode between the connecting seat 41 and the supporting rod 42, the positioning block 441 is pushed out from the embedded groove 412 through a screwdriver, the positioning clamping rod 44 is pulled down to enable the positioning clamping rod 44 to be separated from the through hole 431 and free of limiting of the limiting slide block 43, then the limiting slide block 43 is pushed out from the through groove 411 and enters the inner side of the supporting rod 42 through the screwdriver, the connection and fixation between the supporting rod 42 and the connecting seat 41 can be free, the coring drill pipe 21 is detached and cleaned, and the cleaning operation cannot be inconvenient due to space limitation.

The dismounting assembly 4 comprises a connecting seat 41, a supporting rod 42, two limiting slide blocks 43 and two positioning clamping rods 44, wherein the connecting seat 41 is fixedly arranged at the output end of the driving mechanism 2, the supporting rod 42 is fixedly arranged at the top end of the coring drill pipe 21, the supporting rod 42 is fixedly clamped at the inner side of the connecting seat 41, the two limiting slide blocks 43 are both in sliding connection with the supporting rod 42, one end of each limiting slide block 43 penetrates through the connecting seat 41, and the positioning clamping rods 44 penetrate through the limiting slide blocks 43 and are fixedly clamped with the connecting seat 41; spacing slider 43 joint through bracing piece 42 both sides is in the logical groove 411 that connecting seat 41 was seted up, realize the preliminary location between connecting seat 41 and the bracing piece 42, the rocking of orientation about making connecting seat 41 and bracing piece 42 can not appear, penetrate connecting seat 41 and run through the through-hole 431 that spacing slider 43 seted up through locator card pole 44 and realize spacing to spacing slider 43, make spacing slider 43 can't slide to bracing piece 42 under the clamping effect that receives locator card pole 44, thereby can guarantee installation stability.

A through groove 411 is formed in the inner side of the connecting seat 41, and the limiting slide block 43 is connected in the through groove 411 in a sliding manner; lead to groove 411 and play the limiting displacement to limit slider 43, get into behind limit slider 43 the inboard of leading to groove 411 because of leading to the spacing of groove 411 for bracing piece 42 joint can't appear rocking of upper and lower direction behind the inboard of connecting seat 41.

The supporting rod 42 is elastically connected with the limiting slide block 43 through a first pressure spring 421; the first pressure spring 421 plays a role in resetting, and after the support rod 42 is clamped on the inner side of the connecting seat 41, the limit slide block 43 is pushed to slide towards the inner side of the through groove 411 through elastic resetting of the first pressure spring 421 without manual adjustment.

The limiting slide block 43 is provided with a through hole 431, and the positioning clamping rod 44 penetrates through the through hole 431; the limiting slide block 43 is limited by the positioning clamping rod 44 penetrating through the connecting seat 41 and penetrating through the through hole 431 formed in the limiting slide block 43, so that the limiting slide block 43 cannot slide towards the inner side of the supporting rod 42 under clamping limitation.

A positioning block 441 is slidably connected to the inner side of the positioning clamp rod 44, a second pressure spring 442 is elastically connected between the positioning clamp rod 44 and the positioning block 441, an embedded groove 412 is formed in the connecting seat 41, and one end of the positioning block 441 is connected to the embedded groove 412 in a clamping manner; after the locator card rod 44 passes through the connecting seat 41 and is inserted into the through hole 431, the elastic reset of the second pressure spring 442 pushes the locating block 441 to enter the embedded groove 412 for limiting, so that the stability of the locator card rod 44 in limiting the limiting slide block 43 is ensured, the limiting slide block 43 cannot be separated from the through groove 411 due to vibration of the device during operation, and the connectivity of the connecting seat 41 and the supporting rod 42 is improved.

The adjusting mechanism 5 comprises a sliding seat 51, a sliding rod 52, a threaded seat 53 and a screw 54, the sliding seat 51 and the threaded seat 53 are fixedly arranged on the outer wall of the ground inserting rod 3 and are symmetrically distributed, the sliding rod 52 is fixedly arranged on the top wall of the supporting seat 1, the sliding rod 52 is slidably connected in the sliding seat 51, the screw 54 is in threaded connection with the inner side of the threaded seat 53, and the bottom end of the screw 54 is rotatably connected with the supporting seat 1; the upper end of supporting seat 1 is equipped with the seat of rotating with screw rod 54 adaptation, and the bottom of screw rod 54 is rotated in the inboard of rotating the seat, puts supporting seat 1 on ground when using, makes screw rod 54 under the screw thread influence through twisting the inboard screw rod 54 of screw thread seat 53, because of the spacing sliding action of slide bar 52 and sliding seat 51, promotes to insert ground pole 3 and pegs graft and support the location to supporting seat 1 in soil.

The utility model discloses a theory of operation and use flow: when the device is used, the supporting seat 1 is placed on the ground, the ground inserting rod 3 is driven to be inserted into soil to support and position the supporting seat 1 by screwing the screw rod 54 on the inner side of the threaded seat 53, the coring drill pipe 21 is driven to be drilled into the soil to be sampled by the driving mechanism 2, after the sampling is finished, when the residual soil on the inner side of the coring drill pipe 21 is cleaned, an operator can push the positioning block 441 out from the embedded groove 412 by using a screwdriver, pull the positioning clamping rod 44 downwards to enable the positioning clamping rod 44 to be pulled out from the through hole 431 to remove the limit of the limit slider 43, then push the limit slider 43 out from the through groove 411 to enter the inner side of the supporting rod 42 by using the screwdriver to remove the connection and fixation between the supporting rod 42 and the connecting seat 41, the coring drill pipe 21 is removed and cleaned, the cleaning operation is not inconvenient due to space limitation, and the operator can conveniently clean the residual soil inside of the coring drill pipe 21, the soil samples of the previous batch and the next batch are not influenced by residual doping due to residue, the detection precision in the subsequent sampling is ensured, when the core drill pipe 21 is subsequently reinstalled, the limiting slide block 43 is pushed into the inner side of the support rod 42 to contract the first pressure spring 421, then the support rod 42 is inserted into the connecting seat 41 until the limiting slide block 43 is located at the position of the through groove 411, the limiting slide block 43 is pushed to enter the through groove 411 to realize primary connection through elastic resetting of the first pressure spring 421, then an operator presses the positioning block 441 towards the inner side of the positioning clamp rod 44 to enable the second pressure spring 442 to contract, then the positioning clamp rod 44 is inserted into the connecting seat 41 and penetrates through the through hole 431 until the positioning block 441 reaches the position of the embedded groove 412, the positioning block 441 is pushed to enter the embedded groove 412 through the elastic reset of the second pressure spring 442, so that the limiting slide block 43 is locked, and the connection between the connecting seat 41 and the supporting rod 42 is completed.

Claims

1. The utility model provides a geological engineering investigation is with quick coring device which characterized in that: including the supporting seat that is used for the support, the inboard of supporting seat is equipped with and is used for driven actuating mechanism, actuating mechanism's below is equipped with the core drill pipe that gets that is used for the sample, the supporting seat is equipped with the ground pole that inserts that is used for inserting the ground location, actuating mechanism with get and be equipped with the dismouting subassembly that is used for connecting the dismantlement between the core drill pipe, the outside of supporting seat is equipped with the regulation insert the adjustment mechanism of ground pole grafting distance.

2. The rapid coring device for geological engineering investigation of claim 1, which is characterized in that: the dismouting subassembly includes connecting seat, bracing piece, two spacing slider and two locator card poles, the connecting seat set firmly in actuating mechanism's output, the bracing piece set firmly in get the top of core drill pipe, the bracing piece block fixed with the inboard of connecting seat, two spacing slider all with the sliding connection of bracing piece, just spacing slider's one end runs through the connecting seat, the locator card pole runs through spacing slider and with the connecting seat block is fixed.

3. The rapid coring device for geological engineering investigation of claim 2, characterized in that: a through groove is formed in the inner side of the connecting seat, and the limiting sliding block is connected in the through groove in a sliding mode.

4. The rapid coring device for geological engineering investigation of claim 2, characterized in that: the supporting rod is elastically connected with the limiting sliding block through a first pressure spring.

5. The rapid coring device for geological engineering investigation of claim 2, characterized in that: the limiting slide block is provided with a through hole, and the positioning clamping rod penetrates through the through hole.

6. The rapid coring device for geological engineering investigation of claim 2, characterized in that: the inner side of the positioning clamping rod is connected with a positioning block in a sliding mode, and a second pressure spring is elastically connected between the positioning clamping rod and the positioning block.

7. The rapid coring device for geological engineering investigation of claim 6, which is characterized in that: the connecting seat is provided with an embedded groove, and one end of the positioning block is clamped and connected with the embedded groove.

8. The rapid coring device for geological engineering investigation of claim 1, which is characterized in that: adjustment mechanism includes sliding seat, slide bar, screw thread seat and screw rod, the sliding seat with the screw thread seat set firmly in insert the outer wall of ground pole and be the symmetric distribution, the slide bar set firmly in the roof of supporting seat, slide bar sliding connection in the sliding seat, screw rod threaded connection in the inboard of screw thread seat, just the bottom of screw rod with the supporting seat rotates to be connected.