CN113945421A

CN113945421A - Water resource water quality sampling and detecting equipment with portable drill bit

Info

Publication number: CN113945421A
Application number: CN202111468284.3A
Authority: CN
Inventors: 陈琛; 邓清漪; 邓君宇; 邱小如; 杨万婷; 白盈盈; 裴东亮; 赵旭; 赵子雯
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-12-03
Filing date: 2021-12-03
Publication date: 2022-01-18

Abstract

The invention discloses water resource and water quality sampling and detecting equipment with a portable drill bit, which comprises a collecting cylinder, a rotating motor, an electric telescopic cylinder and an embedded disc, wherein the bottom wall of the collecting cylinder is provided with the rotating motor; the top of the collecting cylinder is provided with an electric telescopic cylinder, and the top of the electric telescopic cylinder is provided with an embedded disc; the inner wall of a collecting cylinder is provided with a partition plate, the inner wall of one side of the collecting cylinder is provided with a plug, the outer walls of the two sides of the collecting cylinder are provided with through grooves, the inner walls of the through grooves are embedded with a filter plate, and the top of the collecting cylinder is provided with an electric push rod. The invention can drive the drilling head to drill and sample by double power, can effectively avoid the situation of insufficient power after drilling to a certain depth, wherein before drilling, the position relation between the drilling mechanism and the bottom plate can be adjusted, so that the drilling mechanism and the bottom plate are free from contact, thereby avoiding vibration transmission, and during detection, the detection measuring cup loaded with a sample needs to be clamped and limited, thereby effectively avoiding the phenomenon of deviation.

Description

Water resource water quality sampling and detecting equipment with portable drill bit

Technical Field

The invention relates to the technical field of sampling detection, in particular to water resource and quality sampling detection equipment with a portable drill bit.

Background

With the continuous improvement of the living requirements of people, the water quality standard of domestic water is correspondingly developed and perfected, so that the soil water quality detection is carried out in different areas for a long time, and the soil water quality detection is used for inspecting the environment quality, researching whether the water quality is suitable for use or inspecting the pollution or the pollution degree of the water quality.

The existing water quality sampling and detecting equipment has the following defects:

1. patent document CN111929100A discloses a hydrogeology surveys sampling device, "including base and sampling head, the base rotates through the pivot and is connected with movable sill bar, the top parallel arrangement of base has the roof, the bottom surface symmetry sliding connection of roof has two movable ejector pins, movable sill bar is at the inside swing joint of activity ejector pin, installs movable sill bar, activity ejector pin, second knob, two-way lead screw, bracing piece, slider between base and roof, conveniently adjusts movable sill bar and activity ejector pin, guarantees the sampling head and the perpendicular sample in ground, guarantees the representativeness of sample, at the internally mounted sample shell of roof, at the internally mounted first motor of sample shell, slide bar, sliding block, gear, second motor, rack, conveniently take a sample to the geology, use manpower sparingly, improve sampling efficiency, install push pedal on the roof, The tight spring in top and push rod conveniently take out geological sample from the sampling head. However, when the water body is sampled in the soil, the soil blocks contained in the water body cannot be filtered, so that more impurities are contained in the obtained water body;

2. the patent document CN111487086A discloses a field geological detection sampling device, which comprises a motor, a drill bit, protective baffles and handle bars, wherein guide rods are symmetrically and fixedly arranged at two ends of each protective baffle, a scale value is arranged on one guide rod, the motor is arranged between the two guide rods, the motor is respectively connected with sliding sleeves on the two guide rods through connecting rods, and the end parts of the two guide rods are welded with the handle bars; the driving output end of the motor is positioned on one side of the protective baffle, the driving output end of the motor is provided with a threaded shaft, the other end of the threaded shaft penetrates through the protective baffle and is in threaded connection with the protective baffle, the other end of the threaded shaft is provided with a drill bit, the motor is controlled through a control switch, and the motor is provided with a handle; the drill bit is a cylindrical body, a plurality of drill teeth are arranged on the outer wall of the lower end of the drill bit, and a plurality of internal teeth are arranged on the inner wall of the lower end of the drill bit. The invention improves the stability of the motor during operation, is convenient for recording the drilling depth, achieves the sampling rate of the rock core up to 100 percent and keeps the sequence of the rock sample coincident with the stratum. In the device, when the motor drives the drill bit to extend to a certain depth in the soil, the rotating force transmitted to the drill bit by the motor is weakened, so that the drilling efficiency and effect of the drill bit are reduced;

3. patent document CN111207947A discloses a hydrogeological detection sampling device, which comprises a detection handle, when detecting and sampling again, a user pushes the detection handle downwards, a rotating shell rotates to drive a soil turning piece to rotate, thereby turning the soil to be detected and sampled, when the soil turning mechanism works, the detection handle downwards drives the connecting block to move downwards and then drives the connecting piece to move downwards, the lower end of the connecting piece is provided with the clamping sleeve, the clamping sleeve is abutted against the clamping block, the connecting piece moves downwards, the clamping sleeve moves downwards, so that the sampling shovel of the sampling piece is clamped towards the middle, the soil to be detected and sampled is clamped, under the action of the second elastic piece, the clamping sleeve always clamps the sampling shovel and is provided with a fixing mechanism, the fixing mechanism comprises a fixing handle, the fixing handle is pushed downwards, the fixing blade is inserted into soil to be fixed, and a first friction piece and a second friction piece are arranged on the detecting handle and the fixing handle respectively. However, the drilling component in the device is in contact with the device body during operation, so that the device body can vibrate greatly along with the drilling, and the stability of the placement of other components on the device body is influenced;

4. patent document CN113405856A discloses a water source detection sampling instrument for engineering geological exploration, which comprises a detection box, a detection cavity is arranged in the detection box, a partition plate is arranged in the detection cavity, a first rotary joint is arranged at the top of the partition plate, a rotating rod is arranged at the top end of the first rotating joint, a bearing plate is arranged at the top of the rotating rod, four placing grooves are arranged at the top of the bearing plate, the water source detection sampling instrument for engineering geological exploration is provided with the bearing plate and the sample cylinder, so that the instrument can respectively store and detect water source samples with different depths, meanwhile, the cleaning cavity and the screw rod are arranged, so that when the water quality detector moves towards the transmission column after detecting each time, the cleaning box rotates to the outer side of the water quality detector, so that the probe of the water quality detector is conveniently cleaned, and the detection result is more accurate. "but in the in-process that detects the sample water among this device, the device receives when colliding or vibrations, and the phenomenon is emptyd probably to appear in the barrel of loading the sample, influences the accurate nature that the sample detected.

Disclosure of Invention

The invention aims to provide water resource and water quality sampling and detecting equipment with a portable drill bit, so as to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a water resource and water quality sampling and detecting device with a portable drill bit comprises a collecting cylinder, a rotating motor, an electric telescopic cylinder and an embedded disc, wherein the rotating motor is installed on the bottom wall of the collecting cylinder;

the top of the collecting cylinder is provided with an electric telescopic cylinder, and the top of the electric telescopic cylinder is provided with an embedded disc;

the inner wall of a collecting cylinder is provided with a partition board, the partition board is positioned above a rotating motor, one side inner wall of the collecting cylinder is provided with a plug, one end of the plug extends out of the collecting cylinder, the outer walls of the two sides of the collecting cylinder are provided with through grooves, the through grooves are positioned above the plug, the filter plate is embedded in the inner wall of the through grooves, an electric push rod is installed at the top of the collecting cylinder, the bottom of the electric push rod is provided with a disc, the outer walls of the two sides of the disc are provided with blocking plates, and the outer wall of one side, opposite to the two blocking plates, of the two sets of blocking plates is attached to the outer walls of the two sets of filter plates respectively.

Preferably, the drilling head is installed to the bottom of a collecting vessel, the top of drilling head is provided with the notch, the output of rotating the motor is installed with the connecting rod through the axle, and the bottom of connecting rod extends into the inside of notch, the staple is installed in the front of drilling head, and the inside of connecting rod is run through at the back of staple.

Preferably, the clamping plates are installed on the outer walls of the two sides of the embedding disc, the comprehensive plate is installed on the top of the clamping plates, the servo motor is installed on the top of the embedding disc, and the top of the servo motor penetrates through the inside of the comprehensive plate.

Preferably, two sets of fixed blocks are all installed to the front and the back of combined plywood, and wherein the round bar is all installed to one side outer wall of two sets of fixed blocks of arranging around two sets of, and the one end of two sets of round bars is laminated with the outer wall of two sets of other fixed blocks respectively, and is two sets of sleeves, four groups of arranging side by side are all installed to the surface of round bar electric lift rod is all installed to telescopic bottom, and the supporting shoe is all installed to four groups of electric lift rod's bottom.

Preferably, the bottom plate is installed at the top of supporting shoe, the workstation is installed at the top of bottom plate, and the workstation is located one side of electric lift pole, the measuring cup is installed at the top of workstation, the fixed plate of arranging around two sets of the top of workstation are installed, and two sets of fixed plates are located the place ahead and the rear of examining the measuring cup respectively, and miniature electric stretch rod, two sets of are all installed to the back of one set of fixed plate and the front of another set of fixed plate wherein, the arc is all installed to the one end of miniature electric stretch rod, and the relative one side of two sets of arc all laminates with the surface of measuring cup.

Preferably, the treater is installed at the top of bottom plate, and the treater is located the rear of workstation, the flat board is installed at the top of treater, the operation ware is installed at the top of flat board.

Preferably, the storage box is installed at the top of bottom plate, and the storage box is located one side that electric lift pole kept away from the workstation, the sponge piece is installed to the diapire of storage box, the top of sponge piece is provided with the recess, the top of bottom plate is provided with circular recess, the pushing hands is installed at the top of bottom plate.

Preferably, two sets of part boxes that arrange side by side are installed to the bottom of bottom plate, and two sets of part boxes are located the both sides of two sets of collecting vessels respectively, four sets of support columns of evenly arranging are installed to the bottom of bottom plate, and four sets of pulley are all installed to the bottom of support column.

Preferably, the water quality sampling and detecting equipment comprises the following working steps:

s1, applying a pulling force or a pushing force to the pushing handle by a worker, then transmitting the pulling force and the pushing force to the pulley, then moving the device to a set sampling place, then applying an upward lifting force to the comprehensive plate to drive the parts related to the comprehensive plate to move upwards, at the moment, the bottom of the supporting block can be separated from the top of the bottom plate, then applying a rotating force with the top end as the center of circle to the electric lifting rod to drive the sleeve to rotate on the outer surface of the circular rod, adjusting the included angle between the electric lifting rod and the comprehensive plate to be 120-150 degrees, simultaneously, the electric lifting rod needs to be extended downwards to extend the comprehensive length of the electric lifting rod to drive the supporting block arranged at the bottom end of the electric lifting rod to move towards the ground until the bottom of the electric lifting rod is contacted with the ground, stopping the operation of the electric lifting rod, at the moment, the comprehensive plate and the servo motor, The whole formed by the electric lifting rod, the supporting block, the electric telescopic cylinder and all the parts arranged at the bottom of the electric telescopic cylinder is not contacted with the bottom plate;

s2, starting a servo motor, wherein a shaft arranged at the output end of the servo motor can drive the embedding disc to rotate at a set speed, and then all parts arranged at the bottom of the embedding disc can rotate along with the shaft;

s3, when the drilling head goes deep into the ground to a certain depth and the shaft arranged at the output end of the servo motor is inconvenient to drive the drilling head to rotate, the rotating motor can be started, the shaft arranged at the output end of the rotating motor can drive the connecting rod to rotate, then the drilling head arranged with the connecting rod through the fixing nail can rotate, and at the moment, the electric telescopic cylinder continuously extends downwards to assist the drilling head in drilling;

s4, when the drilling head reaches a set depth, stopping rotating the motor and the electric telescopic cylinder, wherein the electric push rod needs to be upwards contracted to drive the disc arranged at the bottom of the electric push rod to drive the blocking plate to upwards move so that the blocking plate is separated from the filter plate, then the water body in the soil outside the collecting cylinder can enter the water collecting cavity in the collecting cylinder along the filter plate, and when the water body at the depth is successfully sampled, the electric telescopic cylinder is started again to drive the electric telescopic cylinder to upwards contract so as to drive the drilling head to extend out of the soil, and then a worker pulls out the plug so that the water body in the water collecting cavity is led out from the water outlet provided with the plug;

s5, the drilling head can be inserted into the soil again, sampling operation is carried out on water bodies of soil layers with different depths, the water bodies led out from the inside of the water collecting cavity can be led into the detection measuring cup, then the two groups of micro electric extension rods are started to enable the micro electric extension rods to extend outwards, so that the arc-shaped plate mounted at one end of the micro electric extension rods is driven to be attached to the outer wall of the detection measuring cup, then the external detection mechanism is adopted to carry out various detections on the water bodies inside the detection measuring cup, and then the detection data are transmitted to the inside of the processor.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, when the drilling head reaches a set depth, the electric push rod needs to be contracted upwards to drive the disc arranged at the bottom of the electric push rod to drive the blocking plate to move upwards, so that the blocking plate is separated from the filter plate, the filter plate can be used for filtering and sampling soil blocks in water, and at the moment, the water in the soil outside the collecting cylinder can enter the water collecting cavity inside the collecting cylinder along the filter plate to sample the water in the soil at the set depth, so that after the drilling is not needed, water sampling equipment is additionally adopted to take water from the drilled holes, and the integral working efficiency can be effectively improved;

2. when the drilling head goes deep into the ground to a certain depth, the shaft arranged at the output end of the servo motor is inconvenient to drive the drilling head to rotate, the rotating motor can be started, the shaft arranged at the output end of the rotating motor can drive the connecting rod to rotate, then the drilling head arranged with the connecting rod through the fixing nail can rotate along with the connecting rod, and at the moment, the electric telescopic cylinder continuously extends downwards to assist the drilling head in drilling, so that the drilling efficiency and effect below the depth can be improved;

3. when the included angle between the electric lifting rod and the comprehensive plate is adjusted to be 120-150 degrees and the electric lifting rod is not in contact with the bottom plate, the electric lifting rod needs to extend downwards to extend the comprehensive length of the electric lifting rod so as to drive the supporting block arranged at the bottom end of the electric lifting rod to move towards the ground until the bottom of the electric lifting rod is in contact with the ground, namely the electric lifting rod stops running;

4. after the miniature electric stretch pole started, it can be corresponding carries out the operation of outside extension or inside shrink, then the corresponding arc that drives its one end and install is followed and is removed, when the detection is about to begin, two sets of miniature electric stretch poles need carry out outside extension operation to the arc that drives its one end and the outer wall laminating of examining the measuring cup, be used for increasing the stability of examining the measuring cup and placing, avoid the sample water to appear empting the situation in the measuring cup in the testing process.

Drawings

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

FIG. 2 is a schematic view of the mounting structure of the collecting cylinder, the rotating motor and the electric push rod of the present invention;

FIG. 3 is a schematic view of the installation structure of the electric push rod, the disc and the blocking plate according to the present invention;

FIG. 4 is a schematic view of the mounting structure of the collecting cylinder, the drilling head and the connecting rod of the present invention;

FIG. 5 is a schematic view of the mounting structure of the clamping plate, the comprehensive plate and the servo motor according to the present invention;

FIG. 6 is a schematic view of the installation structure of the engaging plate and the engaging plate according to the present invention;

FIG. 7 is a schematic view of the storage case and sponge block of the present invention;

FIG. 8 is a schematic front view of the present invention;

FIG. 9 is a schematic structural diagram of the electric telescopic cylinder, the drill bit and the circular groove according to the present invention.

In the figure: 1. a collection canister; 2. rotating the motor; 3. an electric telescopic cylinder; 4. a fitting disk; 5. a partition plate; 6. blocking; 7. a filter plate; 8. an electric push rod; 9. a disc; 10. a blocking plate; 11. drilling a hole head; 12. a notch; 13. a connecting rod; 14. fixing nails; 15. a clamping plate; 16. a composite board; 17. a servo motor; 18. a fixed block; 19. a round bar; 20. a sleeve; 21. an electric lifting rod; 22. a support block; 23. a base plate; 24. a work table; 25. detecting the measuring cup; 26. a fixing plate; 27. a miniature electric extension rod; 28. an arc-shaped plate; 29. a processor; 30. a flat plate; 31. an operator; 32. a storage tank; 33. a sponge block; 34. a circular groove; 35. a pushing handle; 36. a parts box; 37. a support pillar; 38. a pulley.

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. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example one

As shown in fig. 2 and 3, a water resource and quality sampling and detecting device with a portable drill comprises a collecting cylinder 1, a rotating motor 2, an electric telescopic cylinder 3 and an embedding disc 4, wherein the electric telescopic cylinder 3 is installed at the top of the collecting cylinder 1, and the embedding disc 4 is installed at the top of the electric telescopic cylinder 3;

it is specific, the inside of collecting vessel 1 has the inner chamber space, can provide short duration storage space for the water that rotates the motor 2 and can sample, electronic expansion cylinder 3 starts the back, it can be corresponding carries out downwardly extending or upwards shrink operation, then can drive each part that its bottom was installed and follow the activity from top to bottom, be in the non-fixed linking state between gomphosis dish 4 and two sets of block boards 15, it is used for linking up electronic expansion cylinder 3 and servo motor 17 simultaneously, when servo motor 17 moves, gomphosis dish 4 can be with the turning force of the axle that servo motor 17 output was installed to the power downwardly transferring to electronic expansion cylinder 3 place, make gomphosis dish 4 self and electronic expansion cylinder 3 follow the rotation.

Division board 5 is installed to the inner wall of surge drum 1, and division board 5 is located the top of rotating motor 2, jam 6 is installed to one side inner wall of surge drum 1, and the one end that blocks up 6 extends the inside of surge drum 1, the both sides outer wall of surge drum 1 all is provided with logical groove, and lead to the groove and be located the top of blockking up 6, filter 7 is installed to the inner wall gomphosis of leading to groove, electric putter 8 is installed at the top of surge drum 1, electric putter 8's bottom is having disc 9, closure plate 10 is all installed to the both sides outer wall of disc 9, and the outer wall of one side that two sets of closure plates 10 are opposite laminates with the outer wall of two sets of filters 7 respectively.

Specifically, the partition plate 5 is used for partitioning the space inside the collecting cylinder 1, so that a water collecting cavity and a placing cavity are sequentially formed from top to bottom, the two groups of cavities are not interfered with each other, the plug 6 is used for plugging a water outlet inside the water collecting cavity, the situation that sample water flows away from the water outlet when the device collects the sample water inside soil is avoided, and invalid sampling is caused, the through groove is arranged for embedding and mounting the filter plate 7, the filter plate 7 can be used for filtering soil blocks in a sampling water body, after the electric push rod 8 is started, downward extension or upward contraction operation can be correspondingly carried out, then the disc 9 mounted at the bottom of the electric push rod can drive the plug plate 10 to move up and down, after the drilling head 11 reaches a set depth, the electric push rod 8 needs to carry out upward contraction operation, the disc 9 mounted at the bottom of the electric push rod can drive the plug plate 10 to move up, so that the plug plate 10 is separated from the filter plate 7, at the moment, the water inside the soil outside the collecting cylinder 1 can enter the water collecting cavity inside the soil along the filter plate 7, so that the water inside the soil with the set depth can be sampled.

Example two

As shown in fig. 4, 5 and 8, the rotating motor 2 is installed on the bottom wall of the collecting cylinder 1, the drilling head 11 is installed at the bottom of the collecting cylinder 1, a notch 12 is arranged at the top of the drilling head 11, the connecting rod 13 is installed at the output end of the rotating motor 2 through a shaft, the bottom of the connecting rod 13 extends into the notch 12, the fixing nail 14 is installed on the front face of the drilling head 11, and the back face of the fixing nail 14 penetrates through the inside of the connecting rod 13.

Specifically, when the drilling head 11 goes deep into the ground to a certain depth, the shaft mounted at the output end of the servo motor 17 cannot drive the drilling head 11 to rotate, the rotating motor 2 can be started, the shaft mounted at the output end can drive the connecting rod 13 to rotate, then the drilling head 11 mounted with the connecting rod 13 through the fixing nail 14 can rotate along with the shaft to enable the drilling head 11 to perform drilling operation on the ground, the diameter of the notch 12 is the same as that of the connecting rod 13, the notch 12 and the connecting rod 13 can be mutually embedded, two groups of vertically arranged slots are formed in the outer surfaces of the drilling head and the connecting rod, after the drilling head and the connecting rod are assembled, the fixing nail 14 needs to penetrate through the inside of the connecting rod 13 and the drilling head 11 through the slots, and the nut is used for screwing, so that the relation between the drilling head and the drilling head is increased.

The clamping plates 15 are mounted on the outer walls of the two sides of the embedded disc 4, the comprehensive plates 16 are mounted at the tops of the two groups of clamping plates 15, the servo motor 17 is mounted at the top of the embedded disc 4, and the top of the servo motor 17 penetrates through the inside of the comprehensive plates 16.

Specifically, the link between the snap-on board 15 is used for increasing gomphosis dish 4 and the combined material board 16, combined material board 16 is used for installing servo motor 17, be in the non-fixed gomphosis state between gomphosis dish 4 and the snap-on board 15, after servo motor 17 starts, the axle that its output was installed can drive gomphosis dish 4 and carry out the rotation operation according to set rate, each part of 4 bottoms of gomphosis dish installed can be followed and rotated, what bore hole head 11 this moment can carry out rotatory drilling operation subaerial, the downwardly extending operation that cooperates electric telescopic tube 3 to go on simultaneously, drill into toward the underground for supplementary bore hole head 11.

EXAMPLE III

As shown in fig. 6 and 9, two sets of fixing blocks 18 are mounted on the front and back of the integrated board 16, wherein two sets of fixing blocks 18 arranged in front and back are mounted on the outer wall of one side of each of the two sets of fixing blocks 19, one ends of the two sets of fixing blocks 19 are respectively attached to the outer walls of the other two sets of fixing blocks 18, two sets of sleeves 20 arranged side by side are mounted on the outer surfaces of the two sets of fixing blocks 19, electric lifting rods 21 are mounted at the bottoms of the four sets of sleeves 20, and supporting blocks 22 are mounted at the bottoms of the four sets of electric lifting rods 21.

Specifically, the fixing block 18 is used to increase the stability of the installation of the round bar 19, the round bar 19 and the sleeve 20 are in a non-fixed installation state, when a rotational force is applied to the sleeve 20 by an external force, the sleeve can rotate on the outer surface of the round bar 19 correspondingly to change the included angle between the electric lifting bar 21 installed at the bottom of the sleeve and the comprehensive plate 16, when the included angle between the electric lifting bar 21 and the comprehensive plate 16 is adjusted to 120 ° to 150 °, and the electric lifting bar 21 and the bottom plate 23 are not in contact, the electric lifting bar 21 needs to be extended downwards to extend the comprehensive length of the electric lifting bar 21 to drive the supporting block 22 installed at the bottom end of the electric lifting bar to move towards the ground until the bottom of the supporting block is in contact with the ground, i.e. the operation of the electric lifting bar 21 is stopped, at this time, the comprehensive plate 16, the servo motor 17, the electric lifting bar 21, the supporting block 22, the electric telescopic cylinder 3 and the parts installed at the bottom of the comprehensive plate 23 are not in contact with the bottom of the bottom, when the device is used for drilling, the influence of vibration generated during drilling on the bottom plate 23 and the processor 29 and the operator 31 on the top of the bottom plate can be effectively reduced.

Example four

As shown in fig. 1 and 7, a bottom plate 23 is installed at the top of the supporting block 22, a workbench 24 is installed at the top of the bottom plate 23, the workbench 24 is located on one side of the electric lifting rod 21, a detection measuring cup 25 is installed at the top of the workbench 24, two sets of fixing plates 26 arranged in front and back are installed at the top of the workbench 24, the two sets of fixing plates 26 are respectively located in front of and behind the detection measuring cup 25, a micro electric extension rod 27 is installed on the back of one set of fixing plates 26 and the front of the other set of fixing plates 26, an arc-shaped plate 28 is installed at one end of each set of micro electric extension rod 27, and one side, opposite to the two sets of arc-shaped plates 28, is attached to the outer surface of the detection measuring cup 25.

Specifically, the bottom plate 23 provides a stable placing space for each component on the top of the bottom plate, so that each component above the bottom plate is mutually integrated into a whole for water quality sampling and monitoring, the workbench 24 provides a monitoring platform for water obtained by outdoor water quality sampling, the detection measuring cup 25 is used for providing a loading space for sample water in the detection process, the fixing plate 26 is used for installing the micro electric extension rod 27, after the micro electric extension rod 27 is started, which can correspondingly extend outwards or contract inwards, and then correspondingly drive the arc-shaped plate 28 arranged at one end to move along, when the detection is about to start, the two groups of micro-electric extension rods 27 need to be extended outwards to drive the arc-shaped plate 28 arranged at one end of the micro-electric extension rods to be attached to the outer wall of the detection cup 25, the stability of placing of measuring cup 25 is used for increasing, avoids sample water body to appear the situation of empting in the detection process measuring cup 25.

The processor 29 is mounted on the top of the bottom plate 23, the processor 29 is located behind the workbench 24, the flat plate 30 is mounted on the top of the processor 29, and the manipulator 31 is mounted on the top of the flat plate 30.

Specifically, when the device is used for detection, an external detection mechanism is required to be used for performing various detections on the water body inside the detection measuring cup 25, the external detection mechanism is not shown in the drawing, then the detection data is transmitted to the inside of the processor 29, then the detection data is displayed through the operator 31, and the operator can perform various operations on the detection data on the operator 31.

Storage box 32 is installed at the top of bottom plate 23, and storage box 32 is located the one side that workstation 24 was kept away from to electric lift pole 21, and sponge piece 33 is installed to the diapire of storage box 32, and the top of sponge piece 33 is provided with the recess, and the top of bottom plate 23 is provided with circular recess 34, and pushing hands 35 is installed at the top of bottom plate 23.

Specifically, storage box 32 can provide the space of placing for reserve drilling head 11, and sponge piece 33 has increased the inside compliance of storage box 32, has improved storage box 32's shock resistance simultaneously, effectively avoids its inside deposit drilling head 11 of placing to receive great jolting, and the appearance of circular recess 34 can agree with the appearance of drilling head 11 mutually, can be used to the block and place drilling head 11, and pushing hands 35 can be convenient for the staff and exert the motive force to this device.

Two groups of part boxes 36 which are arranged side by side are installed at the bottom of the bottom plate 23, the two groups of part boxes 36 are respectively positioned at two sides of the two groups of collecting cylinders 1, four groups of supporting columns 37 which are uniformly arranged are installed at the bottom of the bottom plate 23, and pulleys 38 are installed at the bottoms of the four groups of supporting columns 37.

Specifically, the parts box 36 provides a parts storage space for the device, the supporting column 37 has a certain height, a certain activity space is reserved between the bottom plate 23 and the ground, and when a pushing force or a pulling force applied by a worker to the pushing handle 35 is transmitted to the pulley 38, the device can be driven to move to a set sampling site.

Specifically, the water quality sampling detection equipment comprises the following working steps:

s1, the worker applies a pulling force or a pushing force to the pushing handle 35, then the pulling force and the pushing force can be transmitted to the position of the pulley 38, then the device can be moved to a set sampling site, then an upward lifting force is applied to the comprehensive plate 16, the components related to the device are driven to move upwards, at this time, the bottom of the supporting block 22 can be separated from the top of the bottom plate 23, then a rotating force with the top end as the center of circle is applied to the electric lifting rod 21, the electric lifting rod 21 is driven to drive the sleeve 20 to rotate on the outer surface of the round rod 19, the included angle between the electric lifting rod 21 and the comprehensive plate 16 is adjusted to be 120-150 degrees, meanwhile, the electric lifting rod 21 needs to be extended downwards to extend the comprehensive length of the electric lifting rod 21, so as to drive the supporting block 22 installed at the bottom end of the electric lifting rod to move towards the ground until the bottom of the electric lifting rod contacts with the ground, and then the operation of the electric lifting rod 21 is stopped, at the moment, the integrated plate 16, the servo motor 17, the electric lifting rod 21, the supporting block 22, the electric telescopic cylinder 3 and the whole formed by all the parts arranged at the bottom of the electric telescopic cylinder are not in contact with the bottom plate 23;

s2, starting the servo motor 17, wherein a shaft arranged at the output end of the servo motor can drive the embedded disc 4 to rotate at a set speed, and then all parts arranged at the bottom of the embedded disc 4 can rotate along with the embedded disc, so that the drilling head 11 can rotate and drill on the ground, and meanwhile, the drilling head 11 can extend downwards in cooperation with the electric telescopic cylinder 3 to assist the drilling head 11 to drill underground;

s3, when the drilling head 11 goes deep into the ground to a certain depth, the shaft installed at the output end of the servo motor 17 cannot drive the drilling head 11 to rotate, the rotating motor 2 can be started, the shaft installed at the output end can drive the connecting rod 13 to rotate, then the drilling head 11 installed with the connecting rod 13 through the fixing nail 14 can rotate along with the shaft, and at the moment, the electric telescopic cylinder 3 continuously extends downwards to assist the drilling head 11 in drilling;

s4, when the drilling head 11 reaches a set depth, stopping rotating the motor 2 and the electric telescopic cylinder 3, wherein the electric push rod 8 needs to be upwards contracted to drive the disc 9 arranged at the bottom of the electric push rod to drive the blocking plate 10 to upwards move so that the blocking plate 10 is separated from the filter plate 7, then the water body in the soil outside the collecting cylinder 1 can enter the water collecting cavity inside the collecting cylinder along the filter plate 7, when the water body at the depth is successfully sampled, the electric telescopic cylinder 3 is started again to drive the electric telescopic cylinder to upwards contract so as to drive the drilling head 11 to extend out of the soil, and then the plug 6 is pulled down by a worker so that the water body in the water collecting cavity is led out from the water outlet of the mounting plug 6;

s5, later the drilling head 11 can go deep into inside soil once more, carry out sampling operation to the water on different degree of depth soil horizon, the water of deriving from the intracavity portion that catchments simultaneously can be leading-in to examining measuring cup 25 in, later start two sets of miniature electric stretch rod 27, impel it to carry out outside extension operation, in order to drive the outer wall laminating of the arc 28 that its one end was installed and examining measuring cup 25, later adopt external detection mechanism to carry out each item to the water that detects measuring cup 25 inside, then will detect data transfer to the inside of treater 29.

The working principle is as follows: before the device is operated, the included angle between the electric lifting rod 21 and the comprehensive plate 16 needs to be adjusted to 120-150 degrees, meanwhile, the electric lifting rod 21 needs to be extended downwards to enable the bottom of the supporting block 22 to be contacted with the ground, then the servo motor 17 is started, a shaft installed at the output end of the servo motor can drive the embedded disc 4 to rotate at a set speed, then all parts installed at the bottom of the embedded disc 4 can rotate along with the shaft, at the moment, the drilling head 11 can rotate and drill on the ground, meanwhile, the downward extension operation is carried out by matching with the electric telescopic cylinder 3 to assist the drilling head 11 to drill into the ground, when the drilling head 11 goes deep into the ground to a certain depth, the shaft installed at the output end of the servo motor 17 cannot drive the drilling head 11 to rotate, the rotary motor 2 can be started instead to drive the drilling head 11 to drill, and when the drilling head 11 reaches the set depth, stop rotating motor 2 and the operation of electronic telescopic cylinder 3, electric putter 8 need drive disc 9 and closure plate 10 and upwards remove this moment, make and break away from the contact between closure plate 10 and the filter 7, then the inside water of collector 1 outside soil can enter into to its inside water-collecting chamber along filter 7, be used for obtaining the soil water sample of this degree of depth, later when the staff with the leading-in to detection measuring cup 25 of sample water, need drive the arc 28 that its one end was installed and examine the outer wall laminating of measuring cup 25 through two sets of miniature electric stretcher bars 27, be used for fixed detection measuring cup 25, later adopt external detection mechanism to carry out each item to the inside water of detection measuring cup 25 and detect, then will detect data transmission to the inside of treater 29.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims

1. The utility model provides a water resource quality of water sample test equipment with portable drill bit, includes a collecting vessel (1), rotates motor (2), electronic flexible section of thick bamboo (3) and gomphosis dish (4), its characterized in that: the bottom wall of the collecting cylinder (1) is provided with a rotating motor (2);

the top of the collecting cylinder (1) is provided with an electric telescopic cylinder (3), and the top of the electric telescopic cylinder (3) is provided with a tabling disc (4);

division board (5) are installed to the inner wall of surge drum (1), and division board (5) are located the top of rotating motor (2), one side inner wall of surge drum (1) is installed and is blockked up (6), and the one end that blocks up (6) extends the inside of surge drum (1), the both sides outer wall of surge drum (1) all is provided with logical groove, and leads to the groove and be located the top of blockking up (6), filter (7) are installed to the inner wall gomphosis that leads to the groove, electric putter (8) are installed at the top of surge drum (1), the bottom of electric putter (8) is having disc (9), closure plate (10) are all installed to the both sides outer wall of disc (9), and the outer wall laminating of one side that two sets of closure plate (10) are opposite with the outer wall of two sets of filters (7) respectively.

2. The water resource water quality sampling and detecting equipment with the portable drill bit as claimed in claim 1, is characterized in that: drilling head (11) are installed to the bottom of collection section of thick bamboo (1), the top of drilling head (11) is provided with notch (12), the output of rotating motor (2) is installed through the axle and is had connecting rod (13), and the bottom of connecting rod (13) extends the inside that gets into notch (12), staple (14) are installed in the front of drilling head (11), and the inside of connecting rod (13) is run through at the back of staple (14).

3. The water resource water quality sampling and detecting equipment with the portable drill bit as claimed in claim 1, is characterized in that: the utility model discloses a combined type electric cooker, including gomphosis dish (4), the both sides outer wall of gomphosis dish (4) all installs joint plate (15), and is two sets of combined type board (16) are installed to the top of joint plate (15), servo motor (17) are installed at the top of gomphosis dish (4), and the inside of combined type board (16) is run through at the top of servo motor (17).

4. The water resource water quality sampling and detecting equipment with the portable drill bit as claimed in claim 3, is characterized in that: two sets of fixed blocks (18) are all installed to the front and the back of combined sheet (16), and wherein round bar (19) are all installed to one side outer wall of the fixed block (18) of arranging around two sets of, and the one end of two sets of round bar (19) is laminated with the outer wall of two sets of other fixed blocks (18) respectively, and is two sets of sleeve (20) of arranging side by side, four sets of are all installed to the surface of round bar (19) electric lift pole (21) are all installed to the bottom of sleeve (20), and supporting shoe (22) are all installed to the bottom of four sets of electric lift pole (21).

5. The water resource water quality sampling and detecting equipment with the portable drill bit as claimed in claim 4, is characterized in that: bottom plate (23) are installed at the top of supporting shoe (22), workstation (24) are installed at the top of bottom plate (23), and workstation (24) are located one side of electric lift pole (21), the top of workstation (24) is installed and is examined measuring cup (25), two sets of fixed plate (26) of arranging around installing at the top of workstation (24), and just two sets of fixed plate (26) are located the place ahead and the rear of examining measuring cup (25) respectively, and wherein miniature electric stretch rod (27), two sets of miniature electric stretch rod (27) are all installed at the back of a set of fixed plate (26) and the front of another set of fixed plate (26), and arc (28) are all installed to the one end of miniature electric stretch rod (27), and the outer surface laminating of measuring cup (25) is all examined to one side that two sets of arc (28) are relative.

6. The water resource water quality sampling and detecting equipment with the portable drill bit as claimed in claim 5, is characterized in that: treater (29) are installed at the top of bottom plate (23), and treater (29) are located the rear of workstation (24), dull and stereotyped (30) are installed at the top of treater (29), operation ware (31) are installed at the top of dull and stereotyped (30).

7. The water resource water quality sampling and detecting equipment with the portable drill bit as claimed in claim 5, is characterized in that: bin (32) is installed at the top of bottom plate (23), and bin (32) are located one side that workstation (24) were kept away from in electric lift pole (21), sponge piece (33) are installed to the diapire of bin (32), the top of sponge piece (33) is provided with the recess, the top of bottom plate (23) is provided with circular recess (34), pushing hands (35) are installed at the top of bottom plate (23).

8. The water resource water quality sampling and detecting equipment with the portable drill bit as claimed in claim 5, is characterized in that: two sets of part boxes (36) of arranging side by side are installed to the bottom of bottom plate (23), and two sets of part boxes (36) are located the both sides of two sets of collecting vessel (1) respectively, four groups of support column (37) of evenly arranging are installed to the bottom of bottom plate (23), four groups pulley (38) are all installed to the bottom of support column (37).

9. The water resource and quality sampling and detecting equipment with the portable drill bit as claimed in any one of claims 1 to 8, wherein the water quality sampling and detecting equipment comprises the following working steps:

s1, a worker applies a pulling force or a pushing force to the pushing handle (35), the pulling force and the pushing force can be transmitted to the position of the pulley (38), then the device can be driven to move to a set sampling site, then an upward lifting force is applied to the comprehensive plate (16), parts related to the device are driven to move upwards, the bottom of the supporting block (22) can be separated from the top of the bottom plate (23), then a rotating force with the top end as the center of a circle is applied to the electric lifting rod (21), the electric lifting rod drives the sleeve (20) to rotate on the outer surface of the round rod (20), the included angle between the electric lifting rod (21) and the comprehensive plate (16) is adjusted to 120-150 degrees, meanwhile, the electric lifting rod (21) needs to extend downwards to extend the comprehensive length of the electric lifting rod to drive the supporting block (22) mounted at the bottom end of the electric lifting rod to move towards the ground, until the bottom of the electric telescopic cylinder contacts with the ground, the electric lifting rod (21) stops running, and at the moment, the integrated plate (16), the servo motor (17), the electric lifting rod (21), the supporting block (22), the electric telescopic cylinder (3) and the whole formed by all the parts arranged at the bottom of the electric telescopic cylinder are not in contact with the bottom plate (23);

s2, starting a servo motor (17), wherein a shaft arranged at the output end of the servo motor can drive the embedded disc (4) to rotate at a set speed, and then all parts arranged at the bottom of the embedded disc (4) can rotate along with the embedded disc, so that the drilling head (11) can rotate on the ground to drill holes and is matched with the electric telescopic cylinder (3) to extend downwards to assist the drilling head (11) to drill underground;

s3, when the drilling head (11) penetrates into the ground to a certain depth, the shaft installed at the output end of the servo motor (17) is inconvenient to drive the drilling head (11) to rotate, the rotating motor (2) can be started, the shaft installed at the output end of the rotating motor can drive the connecting rod (13) to rotate, then the drilling head (11) installed with the connecting rod (13) through the fixing nail (14) can rotate along with the rotating shaft, and the electric telescopic cylinder (3) continuously extends downwards at the moment to assist the drilling of the drilling head (11);

s4, when the drilling head (11) reaches a set depth, stopping rotating the motor (2) and the electric telescopic cylinder (3), and at the moment, enabling the electric push rod (8) to be contracted upwards to enable the disc (9) installed at the bottom of the electric push rod to drive the blocking plate (10) to move upwards to enable the blocking plate (10) to be separated from the filter plate (7), enabling the water body in the soil outside the collecting cylinder (1) to enter a water collecting cavity in the soil along the filter plate (7), and after sampling of the water body at the depth succeeds, starting the electric telescopic cylinder (3) again to enable the electric telescopic cylinder to be contracted upwards to enable the drilling head (11) to extend out of the soil, pulling down the plug (6) by a worker to enable the water body in the water collecting cavity to be led out from a water outlet where the plug (6) is installed;

s5, later the drill bit (11) can deepen into inside the soil once more, carry out the sample operation to the water on different degree of depth soil horizon, the water of deriving from catchmenting the intracavity portion simultaneously can leading-in to examining measuring cup (25), later start two sets of miniature electric stretch rod (27), impel it to carry out outside extension operation, in order to drive the outer wall laminating of arc (28) that its one end was installed and examining measuring cup (25), later adopt external detection mechanism to carry out each item to the water of examining measuring cup (25) inside and detect, then will detect the inside of data transfer to treater (29).