CN115327079A - Soil humidity detection device for geological exploration - Google Patents

Abstract

The invention relates to the technical field of geological exploration equipment, in particular to a soil humidity detection device for geological exploration. The invention reduces the influence caused by the accuracy of the subsequent humidity detection process in the previous humidity detection process in the continuous detection process, ensures the detection accuracy, and is beneficial to carrying out continuous humidity detection at different depths at the same position, thereby effectively improving the detection efficiency of geological prospecting personnel in the soil humidity detection process and facilitating the development of various subsequent works.

Description

Soil humidity detection device for geological exploration

Technical Field

The invention relates to the technical field of geological exploration equipment, in particular to a soil humidity detection device for geological exploration.

Background

Soil moisture detection plays a very important role:

1. scientific and reasonable guidance and direct service projects can be provided for agricultural structure adjustment and important farming activities;

2. can provide a basis for research and integration of agricultural water-saving technology and drought-enduring and disaster-resisting quality-improving efficiency-improving technology.

3. Can provide comment basis for authenticating national project construction investment and agricultural technical service achievement.

In the geological survey process, soil humidity is generally monitored, and effective data support is conveniently provided for the development of the projects. In the process of modern geological exploration, the humidity sensor is usually adopted to carry out depth detection on the soil depth, so that the workload of geological exploration personnel is effectively improved, and the complexity of the detection process caused by the sampling step is avoided.

Because the soil moisture of the different degree of depth of same region is different at soil moisture detection's in-process, consequently the effect of single detection is inaccurate, but carry out soil moisture detection's in-process at soil sensor because aforementioned testing process effect does not end, cause the influence to the soil moisture testing result of deeper depths easily, thereby lead to the error, influence the actual judgement, lead to the problem that can not detect in succession easily on this basis, the effect that detects has been influenced to a certain extent, for this reason we provide a soil moisture detection device for geological survey.

Disclosure of Invention

The invention aims to solve the defects in the prior art, and provides a soil humidity detection device for geological exploration.

In order to achieve the purpose, the invention adopts the following technical scheme:

a soil humidity detection device for geological exploration comprises two groups of vertically arranged push rod motors, wherein the top ends of the push rod motors are fixedly provided with a same group of top plates, the centers of the bottom ends of the top plates are fixedly provided with motors with output shafts vertically downward, the bottom ends of the motors are coaxially connected with a U-shaped synchronous frame, and a detection assembly for borehole detection is arranged between two groups of support arms of the U-shaped synchronous frame;

the detection assembly comprises a connecting cylinder inserted between the vertical support arms of the U-shaped synchronous frame, the bottom end of the connecting cylinder is coaxially connected with a drilling screw rod, and a drilling conical head is fixedly mounted at the bottom end of the drilling screw rod;

the connecting cylinder is characterized in that a strip-shaped detection hole is formed in the lower portion of the side face of the connecting cylinder, a cleaning pad for cleaning is bonded on the inner wall of each of two sides of the strip-shaped detection hole of the connecting cylinder, an embedded seat is rotatably arranged in the connecting cylinder corresponding to the strip-shaped detection hole, a temperature and humidity sensor is clamped in the embedded seat, one end of the temperature and humidity sensor is connected with a detection rod extending to the outer side of the connecting cylinder from the strip-shaped detection hole, and the end portion of the detection rod is connected with a detection head;

a directional hole is vertically formed in the side face of the connecting cylinder above the strip-shaped detecting hole, and a resetting component used for plugging the strip-shaped detecting hole is arranged in the connecting cylinder in a sliding mode at the directional hole;

damping pads are installed at the bottom ends of the push rod motors.

As an optimal technical scheme of this application, inlay the outside installation bearing that all overlaps in both sides of establishing the seat, just installation bearing fixed mounting in on the inner wall of connecting cylinder, conveniently realize inlaying the angle modulation of establishing seat and temperature and humidity sensor, accomodate to the connecting cylinder inside for temperature and humidity sensor and measuring pole and detection head and provide the basis.

As an preferred technical scheme of this application, the top of drilling screw rod with inlay to be provided with conflict mechanism between the bottom of setting up the seat, be used for realizing inlay popping out of setting up seat and temperature and humidity sensor and test bar, conflict mechanism include with drilling screw rod top articulated deflection pipe, the top of deflection pipe is the opening setting to be equipped with the top in the opening interpolation with inlay the articulated telescopic link in setting up the seat bottom.

As an optimal technical scheme of this application, the telescopic link is located the inside one end fixed mounting of deflector has the anticreep falling plate, avoids taking place to drop, just the telescopic link is located partial outside cover in the deflector is equipped with the spring, the both ends of spring respectively with the inner wall of deflector pipe and the anticreep falling plate is connected to make whole the setting seat of inlaying drive temperature and humidity sensor and measuring rod and measuring head can deflect, guarantee that the measuring rod drives the outside that the connecting cylinder can be spilt out to the measuring head, guarantee going on smoothly that soil moisture detected.

As an optimal technical scheme of this application, the subassembly that resets sets up including the laminating the inboard arc closed cover of connecting cylinder, the lateral surface of arc closed cover is located through the dead lever link the outside movable plate that dials of connecting cylinder, dial on the movable plate the screw thread wear to be equipped with the conflict screw of contradicting in the connecting cylinder outside to realize the locking of the subassembly position that resets effectively, make things convenient for actual operation.

As an preferred technical scheme of this application, the outside fixed mounting of arc closed cover has the spacing cutting of forked tail of two sets of vertical settings, just the inner wall of connecting cylinder along vertical direction seted up with the forked tail spout of the spacing cutting adaptation of forked tail avoids taking place to drop when guaranteeing that reset assembly can stably slide.

As an optimal technical scheme of this application, the inboard lower part fixed mounting of arc closed cover has the last stoving cover that the slope set up, just the inner wall of connecting cylinder has the lower stoving cover that corresponds the setting with last stoving cover in the below fixed mounting that the hole was visited in the bar, is used for right the test rod with detect the head stoving processing, cooperation slidable reset assembly's setting for the test rod can effectively deflect and accomodate with the detection head extremely the inside of connecting cylinder.

As an optimal technical scheme of this application, go up to dry the cover with it is the same to dry the cover structure down, all includes the housing casing of cavity structure, the inside of housing casing evenly is provided with a plurality of heater strips of group, conveniently makes to dry the cover and realize the heat production with drying the cover down on, and then effectively dries to the test rod and the test head of accomodating into the connecting cylinder, reduces the error influence that aforementioned testing process caused follow-up testing process, guarantees that equipment can continuous work.

As an preferred technical scheme of this application, distance between two sets of vertical support arms of U-shaped synchronizing rack with the diameter adaptation of connecting cylinder, just the U-shaped synchronizing rack with it is vice to be equipped with two sets of parallel arrangement's lock nut between the connecting cylinder, and then has guaranteed whole determine module and U-shaped synchronizing rack synchronous revolution effectively, ensures going on smoothly of drilling process.

As a preferred technical scheme of this application, the diameter of connecting cylinder is less than the diameter of drilling screw rod, just the diameter of drilling screw rod with the top surface diameter of drilling conical head equals to guarantee that drilling conical head and drilling screw rod can effectively drill, and avoided going on of the too big influence drilling process of drilling in-process connecting cylinder diameter, ensure going on smoothly of testing process.

The invention has the beneficial effects that:

this application can make measuring staff and detection head accomodate comparatively conveniently at the in-process of in-service use to accomodating the in-process and effectively cleaning and drying measuring staff and detection head, reduced the influence that the accuracy of follow-up humidity testing process caused among the preceding humidity testing process in the continuous testing process, ensure to detect accurate nature, be favorable to carrying out the continuous humidity detection of the different degree of depth in same position, thereby improved the detection efficiency of geological survey personnel in to soil humidity testing process effectively, make things convenient for developing of follow-up each item work.

Drawings

Fig. 1 is a schematic structural diagram of a soil moisture detection device for geological exploration according to the present invention;

FIG. 2 is a schematic cross-sectional view of a detection assembly of a soil moisture detection apparatus for geological exploration according to the present invention;

FIG. 3 is an enlarged view of the structure at A in FIG. 1;

FIG. 4 is a schematic partial structural view of a soil moisture detecting apparatus for geological exploration according to the present invention;

FIG. 5 is a schematic structural diagram of a reset assembly of the soil moisture detection device for geological exploration according to the present invention;

FIG. 6 is a schematic cross-sectional view of a collision mechanism of the soil moisture detecting device for geological exploration according to the present invention;

fig. 7 is a schematic cross-sectional structural view of a lower drying cover of a soil moisture detection apparatus for geological exploration according to the present invention.

In the figure: 1. a push rod motor; 2. a top plate; 3. an electric motor; 4. a U-shaped synchronization rack; 5. a detection component; 51. a connecting cylinder; 52. a locking nut pair; 53. embedding a base; 54. resetting the assembly; 541. an arc-shaped closing cover; 542. a poking plate; 543. abutting against the screw; 544. dovetail limiting cutting; 545. an upper drying cover; 55. a temperature and humidity sensor; 56. a collision mechanism; 561. a deflection pipe; 562. an anti-falling plate; 563. a telescopic rod; 564. a spring; 57. a detection lever; 58. a detection head; 59. a lower drying cover; 591. a housing shell; 592. heating wires; 510. drilling a screw rod; 511. drilling a conical head; 512. mounting a bearing; 513. a wiping pad; 6. a damping pad.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1-3, a soil moisture detection device for geological exploration comprises two groups of vertically arranged push rod motors 1, wherein the top ends of the push rod motors 1 are fixedly provided with a same group of top plates 2, the centers of the bottom ends of the top plates 2 are fixedly provided with motors 3 with output shafts vertically downward, the bottom ends of the motors 3 are coaxially connected with a U-shaped synchronous frame 4, and a detection assembly 5 for drilling detection is arranged between two groups of support arms of the U-shaped synchronous frame 4;

the detection assembly 5 comprises a connecting cylinder 51 inserted between the vertical support arms of the U-shaped synchronous frame 4, the bottom end of the connecting cylinder 51 is coaxially connected with a drilling screw 510, and a drilling conical head 511 is fixedly arranged at the bottom end of the drilling screw 510;

a strip-shaped detection hole is formed in the lower portion of the side face of the connecting cylinder 51, a wiping pad 513 for wiping is bonded on each of the inner walls of the connecting cylinder 51 on the two sides of the strip-shaped detection hole, an embedded seat 53 is rotatably arranged in the connecting cylinder 51 corresponding to the strip-shaped detection hole, a temperature and humidity sensor 55 is clamped in the embedded seat 53, one end of the temperature and humidity sensor 55 is connected with a detection rod 57 extending to the outer side of the connecting cylinder 51 at the strip-shaped detection hole, and the end portion of the detection rod 57 is connected with a detection head 58;

a directional hole is vertically formed in the side face of the connecting cylinder 51 above the strip-shaped detection hole, and a reset assembly 54 for plugging the strip-shaped detection hole is arranged in the connecting cylinder 51 in a sliding manner at the directional hole;

the damping cushions 6 are arranged at the bottom ends of the push rod motors 1, so that the vibration between the whole equipment and the ground in the working process is reduced, and the stable work is ensured;

the distance between two sets of vertical support arms of U-shaped synchronous frame 4 and the diameter adaptation of connecting cylinder 51, and the lock is equipped with two sets of parallel arrangement's lock nut pair 52 between U-shaped synchronous frame 4 and the connecting cylinder 51, and then has guaranteed whole determine module 5 and U-shaped synchronous frame 4 synchronous revolution effectively, ensures going on smoothly of drilling process.

The diameter of the connecting cylinder 51 is smaller than that of the drilling screw 510, and the diameter of the drilling screw 510 is equal to that of the top surface of the drilling conical head 511, so that the drilling conical head 511 and the drilling screw 510 can effectively drill holes, the phenomenon that the diameter of the connecting cylinder 51 is too large in the drilling process to influence the drilling process is avoided, and smooth proceeding of the detection process is ensured.

Referring to fig. 2 and 4, the two sides of the embedding seat 53 are both sleeved with the mounting bearings 512, and the mounting bearings 512 are fixedly mounted on the inner wall of the connecting cylinder 51, so that the embedding seat 53 and the temperature and humidity sensor 55 can be conveniently adjusted in angle, and a foundation is provided for the temperature and humidity sensor 55, the detection rod 57 and the detection head 58 to be accommodated in the connecting cylinder 51.

Referring to fig. 4 and 6, an abutting mechanism 56 is hinged between the top end of the drilling screw 510 and the bottom end of the embedding seat 53 for popping up the embedding seat 53, the temperature and humidity sensor 55 and the detection rod 57, the abutting mechanism 56 includes a deflection tube 561 hinged to the top end of the drilling screw 510, the top end of the deflection tube 561 is provided with an opening, and an expansion rod 563 with the top end hinged to the bottom end of the embedding seat 53 is inserted into the opening.

Telescopic link 563 is located the inside one end fixed mounting of deflection pipe 561 and has anticreep fall board 562, avoid taking place to drop, and telescopic link 563 is located the partial outside cover of deflection pipe 561 and is equipped with spring 564, spring 564's both ends are connected with deflection pipe 561's inner wall and anticreep fall board 562 respectively, thereby make whole seat 53 that inlays drive temperature and humidity sensor 55 and detection pole 57 and detect head 58 and can deflect, guarantee that detection pole 57 drives the outside that connecting cylinder 51 can be visited out to detection head 58, guarantee going on smoothly of soil moisture detection.

Referring to fig. 5, the subassembly 54 resets includes that the laminating sets up at the inboard arc closed cover 541 of connecting cylinder 51, and the lateral surface of arc closed cover 541 passes through the dead lever connection and is located the outside stirring board 542 of connecting cylinder 51, and the last screw thread of stirring board 542 is worn to be equipped with the conflict screw 543 of contradicting in the connecting cylinder 51 outside to realize the locking of subassembly 54 position that resets effectively, convenient actual operation.

The outside fixed mounting of arc closure 541 has the spacing cutting 544 of forked tail of two sets of vertical settings, and the inner wall of connecting cylinder 51 is seted up along vertical direction with the forked tail spout of the spacing cutting 544 adaptation of forked tail, avoids taking place to drop when guaranteeing reset assembly 54 can stably slide.

Referring to fig. 2 and 4, an upper drying cover 545 is fixedly mounted at the lower portion of the inner side of the arc-shaped closing cover 541, and a lower drying cover 59 is fixedly mounted on the inner wall of the connecting cylinder 51 below the strip-shaped detecting hole, and is disposed corresponding to the upper drying cover 545, and is used for drying the detecting rod 57 and the detecting head 58, and the arrangement of the slidable reset assembly 54 is matched, so that the detecting rod 57 and the detecting head 58 can effectively deflect and be accommodated in the connecting cylinder 51.

Referring to fig. 7, the upper drying cover 545 and the lower drying cover 59 have the same structure and both include the housing case 591 with the cavity structure, and the inside of the housing case 591 is uniformly provided with a plurality of groups of heating wires 592, so that the upper drying cover 545 and the lower drying cover 59 can conveniently realize heat production, and then the detection rod 57 and the detection head 58 which are accommodated in the connecting cylinder 51 are effectively dried, thereby reducing the error influence of the detection process on the subsequent detection process and ensuring the continuous operation of the device.

The working process is as follows: in the process of actual operation, firstly, the device is placed at a position to be detected, then the motor 3 is started, the U-shaped synchronous frame 4 drives the whole detection assembly 5 to synchronously rotate, meanwhile, the push rod motor 1 is gradually contracted, the depth of a drilled hole is continuously adjusted, after the hole is drilled to the detection depth, the reset assembly 54 is lifted upwards, the embedded seat 53 bearing the detection rod 57 and the temperature and humidity sensor 55 is popped out under the action force of the spring 564 in the collision mechanism 56, finally, the detection rod 57 is collided at the inner wall of the top end of the strip-shaped detection hole, the detection head 58 at the end part of the detection rod 57 is contacted with soil at the corresponding depth, and therefore the primary humidity detection process is completed;

when the depth of deeper soil is detected, the reset component 54 is pressed down, so that the whole of the detection rod 57, the temperature and humidity sensor 55 and the embedded seat 53 can deflect under the action of the upper drying cover 545 which slides down integrally according to the reset component 54 and finally are stored in the connecting cylinder 51, at the moment, the detection rod 57 and the detection head 58 which are deflected and stored in the connecting cylinder 51 are effectively wiped under the action of the wiping pad 513 on the side surface of the strip-shaped detection hole, and the influence of clay soil on the subsequent detection effect is avoided; after the detection rod 57 and the detection head 58 are completely accommodated in the connecting cylinder 51, the detection rod 57 and the detection head 58 are wrapped between the upper drying cover 545 and the lower drying cover 59, and the detection rod 57 and the detection head 58 are effectively dried under the effect of energization heating of the internal heating wire 592, so that subsequent humidity detection accuracy is guaranteed;

when the detection lever 57 and the detection head 58 are accommodated in the connecting cylinder 51, the spring 564 of the abutting mechanism 56 is compressed to prepare for the next ejection of the detection lever 57 and the detection head 58.

Finally, it should be noted that: in the description of the present invention, it should be noted that the terms "vertical", "upper", "lower", "horizontal", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of describing the present invention and simplifying the description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention.

In the description of the present invention, it should also be noted that, unless otherwise explicitly specified or limited, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A soil humidity detection device for geological exploration comprises two groups of vertically arranged push rod motors (1), and is characterized in that the top ends of the push rod motors (1) are fixedly provided with a same group of top plates (2), the centers of the bottom ends of the top plates (2) are fixedly provided with motors (3) with output shafts vertically downward, the bottom ends of the motors (3) are coaxially connected with U-shaped synchronous frames (4), and a detection assembly (5) for drilling detection is arranged between two groups of support arms of each U-shaped synchronous frame (4);

the detection assembly (5) comprises a connecting cylinder (51) inserted between the vertical support arms of the U-shaped synchronous frame (4), the bottom end of the connecting cylinder (51) is coaxially connected with a drilling screw rod (510), and a drilling conical head (511) is fixedly installed at the bottom end of the drilling screw rod (510);

a strip-shaped detection hole is formed in the lower portion of the side face of the connecting cylinder (51), a wiping pad (513) for wiping is bonded on the inner wall of each of two sides of the strip-shaped detection hole of the connecting cylinder (51), an embedded seat (53) is rotatably arranged in the connecting cylinder (51) corresponding to the strip-shaped detection hole, a temperature and humidity sensor (55) is clamped in the embedded seat (53), one end of the temperature and humidity sensor (55) is connected with a detection rod (57) extending to the outer side of the connecting cylinder (51) at the strip-shaped detection hole, and the end portion of the detection rod (57) is connected with a detection head (58);

a directional hole is vertically formed in the side face of the connecting cylinder (51) above the strip-shaped detecting hole, and a resetting component (54) for plugging the strip-shaped detecting hole is arranged in the connecting cylinder (51) in a sliding mode at the directional hole;

damping pad (6) are all installed to the bottom of push rod motor (1).

2. The soil moisture detecting apparatus for geological exploration, as claimed in claim 1, wherein said mounting seat (53) is externally sleeved with mounting bearings (512) at both sides thereof, and said mounting bearings (512) are fixedly mounted on the inner wall of said connecting cylinder (51).

3. The soil moisture detecting device for geological exploration, as recited in claim 2, wherein an interference mechanism (56) is hinged between the top end of said drilling screw (510) and the bottom end of said embedded seat (53) for implementing ejection of said embedded seat (53), temperature and humidity sensor (55) and detecting rod (57), said interference mechanism (56) comprises a deflection tube (561) hinged to the top end of said drilling screw (510), the top end of said deflection tube (561) is open, and a telescopic rod (563) having a top end hinged to the bottom end of said embedded seat (53) is inserted into the open end.

4. The soil moisture detecting device for geological exploration, as recited in claim 3, wherein an anti-drop plate (562) is fixedly installed at one end of the telescopic rod (563) located inside the deflection tube (561) to avoid dropping, a spring (564) is sleeved outside a portion of the telescopic rod (563) located inside the deflection tube (561), and two ends of the spring (564) are respectively connected with the inner wall of the deflection tube (561) and the anti-drop plate (562).

5. The soil moisture detecting device for geological exploration, according to claim 1, wherein said reset component (54) comprises an arc-shaped closed cover (541) attached to the inner side of said connecting cylinder (51), the outer side surface of said arc-shaped closed cover (541) is connected to a toggle plate (542) located outside said connecting cylinder (51) through a fixing rod, and an interference screw (543) interfering with the outer side of said connecting cylinder (51) is threaded through said toggle plate (542).

6. The soil moisture detecting device for geological exploration according to claim 5, wherein two sets of dovetail limit inserting strips (544) vertically arranged are fixedly installed on the outer side of the arc-shaped closing cover (541), and a dovetail sliding groove matched with the dovetail limit inserting strips (544) is formed in the inner wall of the connecting cylinder (51) along the vertical direction.

7. The soil moisture detecting apparatus for geological exploration, according to claim 5, wherein an upper drying cover (545) is fixedly installed at the inner lower portion of said arc-shaped closing cover (541) in an inclined manner, and a lower drying cover (59) corresponding to said upper drying cover (545) is fixedly installed at the inner wall of said connecting cylinder (51) below said strip-shaped detecting hole for drying said detecting rod (57) and said detecting head (58).

8. The soil moisture detecting apparatus for geological exploration, as recited in claim 7, characterized in that said upper drying hood (545) and said lower drying hood (59) are identical in structure, and each includes a hood casing (591) having a cavity structure, and a plurality of sets of heating wires (592) are uniformly disposed inside said hood casing (591).

9. The soil moisture detection device for geological exploration according to claim 1, characterized in that the distance between two sets of vertical arms of said U-shaped synchronization frame (4) is adapted to the diameter of said connecting cylinder (51), and two sets of parallel locking nut pairs (52) are locked between said U-shaped synchronization frame (4) and said connecting cylinder (51).

10. The soil moisture detection device for geological exploration, as recited in claim 1, characterized in that said connecting cylinder (51) has a diameter smaller than the diameter of said drilling screw (510), and said drilling screw (510) has a diameter equal to the diameter of the top surface of said drilling cone (511).

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