CN220207124U - Survey soil sample rig - Google Patents

Abstract

The utility model discloses a survey soil sample drilling machine, which comprises a vehicle body, wherein a fixed block is fixedly arranged on the top wall of the vehicle body, an electric telescopic rod is movably arranged at the bottom end of the fixed block, a power mechanism is fixedly arranged at the telescopic end of the electric telescopic rod, the power mechanism comprises a motor casing and a rotating rod, the joint of the power mechanism and the electric telescopic rod is fixedly provided with the motor casing, and the survey soil sample drilling machine further comprises: the utility model relates to the technical field of soil sample collection for land survey, and discloses a sampling mechanism, which comprises a sampling box and a containing groove, wherein supporting rods are uniformly formed at the left end and the right end of the sampling mechanism, and a plurality of groups of sampling boxes are arranged on two groups of supporting rods; the sampling box and the sampling port that set up, when the motor in the holding tank drives bull stick and helical blade during operation, can shift into the sampling box with sample soil, carries out the layering sample to different degree of depth soil sample and preserves, does benefit to the later stage and detects the soil sample.

Description

Survey soil sample rig

Technical Field

The utility model relates to the technical field of soil sample collection of land exploration, in particular to an exploration soil sample drilling machine.

Background

Auger is one of the most commonly used soil collection devices, and typically requires manual removal of soil samples from the auger blade during sampling and soil removal, as the auger blade is at risk of blade scratch during removal by direct contact with a relatively sharp operator.

To this end, the present utility model provides a survey soil sample rig that solves the above-mentioned problems by providing a sampling mechanism.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model provides a survey soil sample drilling machine, which solves the problems.

In order to achieve the above purpose, the utility model is realized by the following technical scheme: the utility model provides a survey soil sample rig, includes the automobile body, automobile body roof fixed mounting has the fixed block, fixed block bottom movable mounting has electric telescopic handle, electric telescopic handle fixed mounting has power unit, power unit includes motor casing and bull stick, power unit and electric telescopic handle junction fixed mounting have the motor casing, still include:

sampling mechanism, motor casing bottom fixed mounting has sampling mechanism, sampling mechanism includes sample box and holding tank, both ends homogeneous body shaping has the bracing piece about the sampling mechanism, two sets of install a plurality of groups sample box on the bracing piece, the holding tank has been seted up to sampling mechanism top intermediate position.

Preferably, each group of sampling boxes is provided with a sampling port corresponding to the position of the accommodating groove, clamping blocks are movably mounted in the middle positions of two sides of the bottom end of the sampling port, clamping grooves are formed in the front and back sides of each supporting rod, each group of clamping grooves penetrate through the supporting rods on one side outside, sliding grooves are formed in the sliding grooves, and pressing blocks are slidably mounted in the sliding grooves.

Preferably, the pressing block comprises a first square block, a first mounting groove is formed in the bottom end of the first square block, a first spring is elastically connected in the first mounting groove, the other end of the first spring is elastically connected to the connecting block, and two ends of the connecting block are fixedly arranged on the inner wall of the sliding groove.

Preferably, the clamping block comprises a second square block, a second mounting groove is formed in one side, close to the outer side, of the second square block, a second spring is elastically connected in the second mounting groove, and the other end of the second spring is elastically connected with a triangular clamping block

Preferably, each group of sampling boxes is connected with the supporting rod through clamping grooves and clamping blocks in a clamping mode.

Preferably, the power mechanism further comprises a motor and a spiral blade, the motor is fixedly arranged in the motor shell, the bottom end of the motor is rotationally connected with a rotating rod, the spiral blade is integrally formed on the rotating rod, and the rotating rod and the spiral blade penetrate through the accommodating groove.

Preferably, the maximum diameter of the rotating rod and the spiral blade is 18cm, and the diameter of the accommodating groove is 20cm.

Preferably, the bottom end of the vehicle body is provided with a square groove corresponding to the power mechanism.

Preferably, universal wheels are arranged at four corners of the bottom wall of the vehicle body, and the universal wheels are provided with brake pads.

Advantageous effects

The utility model provides a survey soil sample drilling machine. Compared with the prior art, the method has the following beneficial effects:

(1) This survey soil sample rig, through the sampling box and the sampling port that set up, when the motor in the holding tank drives bull stick and helical blade during operation, accessible helical blade shifts into the soil sampling port then gets into the sampling box, conveniently takes a sample to soil, and the sampling box can be dismantled to sample box and later stage to the washing of sampling box to pressing briquetting, draw-in groove and fixture block that set up.

Drawings

FIG. 1 is a schematic diagram of the main structure of the present utility model;

FIG. 2 is an enlarged view of the main structure of the present utility model;

FIG. 3 is a cross-sectional view of the sampling mechanism of the present utility model;

FIG. 4 is a schematic side view of the sampling mechanism and power mechanism of the present utility model;

FIG. 5 is a bottom view of the body structure of the present utility model;

FIG. 6 is a cross-sectional view of a press block of the present utility model;

fig. 7 is a cross-sectional view of a latch of the present utility model.

In the figure 1, the vehicle body; 2. a sampling mechanism; 201. a support rod; 202. a receiving groove; 203. pressing the blocks; 2031. a first square block; 2032. a first mounting groove; 2033. a connecting block; 2034. a first spring; 204. a clamping groove; 205. a sampling box; 206. a clamping block; 2061. a second square block; 2062. a second mounting groove; 2063. a second spring; 2064. triangular clamping blocks; 207. a sampling port; 208. a chute; 3. a fixed block; 4. a power mechanism; 401. a motor; 402. a motor housing; 403. a rotating rod; 404. a helical blade; 5. an electric telescopic rod; 6. a square groove; 7. and a universal wheel.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Embodiment one:

referring to fig. 1-7, a survey soil sample rig, including automobile body 1, automobile body 1 roof fixed mounting has fixed block 3, and fixed block 3 bottom movable mounting has electric telescopic handle 5, and electric telescopic handle 5 telescopic handle fixed mounting has power unit 4, and power unit 4 includes motor casing 402 and bull stick 403, and power unit 4 and electric telescopic handle 5 junction fixed mounting have motor casing 402, still include: sampling mechanism 2, motor casing 402 bottom fixed mounting has sampling mechanism 2, and sampling mechanism 2 includes sampling box 205 and holding tank 202, and both ends homogeneous body shaping has bracing piece 201 about sampling mechanism 2, installs a plurality of sets of sampling boxes 205 on two sets of bracing pieces 201, and holding tank 202 has been seted up to sampling mechanism 2 top intermediate position.

Sampling ports 207 are formed in the upper ends of the sampling boxes 205 corresponding to the accommodating grooves 202, clamping blocks 206 are movably mounted in the middle positions of the two sides of the bottom ends of the sampling ports 207, clamping grooves 204 are formed in the front side and the rear side of each supporting rod 201, sliding grooves 208 are formed in the outer sides of the clamping grooves 204, penetrating through the supporting rods 201, and pressing blocks 203 are slidably mounted in the sliding grooves 208; the pressing block 203 comprises a first square block 2031, a first installation groove 2032 is formed in the bottom end of the square block 2031, a first spring 2034 is elastically connected in the installation groove, the other end of the first spring 2034 is elastically connected to a connecting block 2033, and two ends of the connecting block 2033 are fixedly installed on the inner wall of the chute 208; the clamping block 206 comprises a second square block 2061, a second mounting groove 2062 is formed in the outer side of the second square block 2061, a second spring 2063 is elastically connected in the second mounting groove 2062, and a triangular clamping block 2064 is elastically connected to the other end of the second spring 2063; each group of sampling boxes 205 are connected with the supporting rod 201 in a clamping way through clamping grooves 204 and clamping blocks 206; the power mechanism 4 further comprises a motor 401 and a spiral blade 404, the motor 401 is fixedly arranged in the motor housing 402, the bottom end of the motor 401 is rotationally connected with a rotating rod 403, the spiral blade 404 is integrally formed on the rotating rod 403, and the rotating rod 403 and the spiral blade 404 penetrate through the accommodating groove 202.

In this embodiment, through the sampling box 205 installed on the sampling mechanism 2, the sampling holes 207 are formed at the upper end of the sampling box 205 corresponding to the position of the accommodating groove 202, when the motor 401 in the accommodating groove 202 drives the rotating rod 403 and the screw blade 404 to work, the screw blade 404 rotates along with the rotating rod 403, when the rotating rod and the screw blade 404 are driven to underground by the motor 401 and the electric telescopic rod 5, the rotating rod 403 and the screw blade 404 penetrate through the accommodating groove 202, the diameter of the screw blade 404 is slightly smaller than that of the accommodating groove 202, the screw blade 404 is spirally upward, so that the soil drilled when the drill bit works downward is conveyed upward by the screw blade 404, when the soil on the screw blade 404 is transferred to the position of the sampling hole 207 formed at the upper end of the sampling box 205, the soil on the screw blade 404 is extruded to drop into the sampling box 205 through the sampling hole 207, when each group of sampling boxes 205 are filled with soil, the motor 401 stops working, the square blocks 2031 at two sides of the supporting rod 201 are pressed, the square blocks 2031 are forced to slide in the sliding grooves 208, the bottom ends of the square blocks 2031 are provided with first installation grooves 2032, first springs 2034 are elastically connected in the installation grooves, as the first springs 2034 are elastically connected to the connecting blocks 2033, two ends of the connecting blocks 2033 are fixedly arranged on the inner wall of the sliding grooves 208, the first springs 2034 are extruded and contracted, the other ends of the first springs 2034 are elastically connected to the connecting blocks 2033, at the moment, the bottom ends of the square blocks 2031 are extruded and clamped in triangular clamping blocks 2064 in the sliding grooves 208, the triangular clamping blocks 2064 are forced and extruded, the springs at the bottom of the triangular clamping blocks 2064 are compressed and contracted into second installation grooves 2062, at the same time, the triangular clamping blocks 2064 are contracted into the second installation grooves 2062, at the moment, the clamping blocks 206 arranged at two sides of the sampling box 205 corresponding to the positions of the clamping grooves 204 can be pulled out from the installation grooves 204, at the moment, the sampling box 205 is completely taken out from the sampling mechanism 2, taking out soil sample from sampling box 205, aim at draw-in groove 204 with two sets of fixture blocks 206 on the sampling box, forcefully inwards extrude, can extrude the triangle fixture block on the fixture block 206 to the second mounting groove, when the triangle fixture block arrived to spout 208 position, the triangle fixture block will not be pressed and rebound to spout 208 in, can accomplish the installation to sampling box 205, the sampling box 205 that sets up conveniently takes out the soil, avoided because the comparatively sharp staff direct contact of helical blade 404 has the risk of blade fish tail in-process of taking out, and sampling box 205 conveniently carries out the layering sample to different degree of depth soil samples and preserve, do benefit to later detection, the pressure piece 203 that sets up, draw-in groove 204 and fixture block 206 can dismantle sampling box 205 and later washs sampling box 205.

In order to allow the rotating rod 403 and the screw blade 404 to penetrate through the accommodating groove 202 and rotate in the accommodating groove 202 for sampling, it is preferable that the maximum diameter of the rotating rod 403 and the screw blade 404 is 18cm, and the diameter of the accommodating groove 202 is 20cm.

In order to enable the electric telescopic rod 5 to control the power mechanism 4 to stretch and retract, the rotary rod 403 and the spiral blade 404 conveniently work to sample ground soil, and preferably, the square groove 6 is formed in the bottom end of the vehicle body 1 corresponding to the power mechanism 4.

In order to facilitate the movement of the vehicle body 1 and the fixation of the vehicle body 1 on the ground during operation, preferably, universal wheels 7 are mounted at four corners of the bottom wall of the vehicle body 1, and the universal wheels 7 are provided with brake pads.

And all that is not described in detail in this specification is well known to those skilled in the art.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (9)

1. Survey soil sample rig, including automobile body (1), automobile body (1) roof fixed mounting has fixed block (3), fixed block (3) bottom movable mounting has electric telescopic handle (5), electric telescopic handle (5) telescopic handle fixed mounting has power unit (4), power unit (4) include motor casing (402) and bull stick (403), power unit (4) and electric telescopic handle (5) junction fixed mounting have motor casing (402), a serial communication port, still include:

sampling mechanism (2), motor casing (402) bottom fixed mounting has sampling mechanism (2), sampling mechanism (2) are including sampling box (205) and holding tank (202), both ends homogeneous body shaping has bracing piece (201) about sampling mechanism (2), two sets of install a plurality of groups sampling box (205) on bracing piece (201), holding tank (202) have been seted up to sampling mechanism (2) top intermediate position.

2. A survey soil sample rig according to claim 1 wherein: sampling ports (207) are formed in the upper ends of the sampling boxes (205) in groups corresponding to the positions of the accommodating grooves (202), clamping blocks (206) are movably mounted in the middle positions of the two sides of the bottom ends of the sampling ports (207), clamping grooves (204) are formed in the front side and the rear side of each supporting rod (201), sliding grooves (208) are formed in the outer sides, close to the clamping grooves (204), of the supporting rods (201), of the clamping grooves, and pressing blocks (203) are mounted in the sliding grooves (208) in a sliding mode.

3. A survey soil sample rig according to claim 2 wherein: the pressing block (203) comprises a first square block (2031), a first mounting groove (2032) is formed in the bottom end of the first square block (2031), a first spring (2034) is elastically connected in the first mounting groove (2032), the other end of the first spring (2034) is elastically connected to a connecting block (2033), and two ends of the connecting block (2033) are fixedly arranged on the inner wall of the sliding groove (208).

4. A survey soil sample rig according to claim 2 wherein: the fixture block (206) comprises a second square block (2061), a second installation groove (2062) is formed in the outer side of the second square block (2061), a second spring (2063) is elastically connected in the second installation groove (2062), and a triangular fixture block (2064) is elastically connected to the other end of the second spring (2063).

5. A survey soil sample rig according to claim 2 wherein: each group of sampling boxes (205) is connected with the supporting rod (201) in a clamping way through a clamping groove (204) and a clamping block (206).

6. A survey soil sample rig according to claim 1 wherein: the power mechanism (4) further comprises a motor (401) and a spiral blade (404), the motor (401) is fixedly installed in the motor casing (402), the bottom end of the motor (401) is rotationally connected with a rotating rod (403), the spiral blade (404) is integrally formed on the rotating rod (403), and the rotating rod (403) and the spiral blade (404) penetrate through the accommodating groove (202).

7. A survey soil sample rig according to claim 4 wherein: the maximum diameter of the rotating rod (403) and the spiral blade (404) is 18cm, and the diameter of the accommodating groove (202) is 20cm.

8. A survey soil sample rig according to claim 1 wherein: the bottom end of the vehicle body (1) is provided with a square groove (6) corresponding to the power mechanism (4).

9. A survey soil sample rig according to claim 1 wherein: universal wheels (7) are arranged at four corners of the bottom wall of the vehicle body (1), and the universal wheels (7) are provided with brake pads.