CN113176389A - Water source detection device convenient to detect different degree of depth water sources - Google Patents

Abstract

The invention discloses a water source detection device convenient for detecting water sources at different depths, which comprises a moving cabinet body, wherein an empty groove is formed in the moving cabinet body, a storage drawer is slidably mounted in the empty groove, a driving motor is embedded and mounted at the bottom of the empty groove, a round hoop is sleeved on the surface of the driving motor, the output end of the driving motor is connected with a drill rod, a rubber plate with the same diameter is fixed at the bottom end of the inner wall of the drill rod, a water suction pump is fixed on the bottom wall of the inner part of the moving cabinet body, the input end of the water suction pump is detachably connected with a drainage tube, the output end of the water suction pump is detachably connected with a flow guide tube, and a detection box is mounted at the top of the moving cabinet body. According to the invention, the rubber plate is arranged, and the electric telescopic rod can flexibly stretch and retract, so that the humidity detection probe can be driven to flexibly expose the inside of the conical block, the humidity of soil inside a drilling soil layer can be detected, and a detector can be assisted to judge whether a water source exists at the position of the drilling depth.

Description

Water source detection device convenient to detect different degree of depth water sources

Technical Field

The invention relates to the technical field of water source detection, in particular to a water source detection device convenient for detecting water sources at different depths.

Background

The water source detection can detect water quality, play an important role in guiding production and life of people, the water source with poor water quality needs people to invest corresponding cost such as financial resources and material resources to improve the water quality, the use is convenient, and the cost that the water source with good water quality needs to be improved is greatly reduced, so the detection of the water quality of the water source has a certain guiding effect on the tendency and the specific gravity of the urban and national financial planning, and when the water source detection is carried out, the performance of the water source detection device influences the working effect and the efficiency of the water source detection, and the water source detection device has important significance.

The existing device has the defects that:

1. reference CN212433144U discloses a portable environment water source detection device, "includes main part, solar cell panel, battery case and moving mechanism, the stand is installed to the main part upper end, solar cell panel is installed to the stand upper end, solar cell panel is two, and the symmetry installation, the main part lower extreme is provided with the battery case, battery case internally mounted has the lithium cell, lithium cell and solar cell panel electric connection, the main part passes through the hose and is connected with moving mechanism. The utility model discloses, can take the hose in the place that needs to adopt the water source through installing moving mechanism, remove the water sample of gathering each place, change into the mode of traditional artifical collection, the people only need operate through the remote controller in a position, it is more convenient and simple to use, can guarantee moving mechanism and hose tightly connected together through installation hasp and catch, but the device is when detecting the water source, can't detect in the water sample and be enough to have metal ions such as calcium, magnesium, barium, the device detects the water source functional relatively poor;

2. reference CN208568751U discloses water source detection device for agricultural, "including surveying the hydroecium, the one end fixedly connected with distribution pipe of surveying the hydroecium, the top of distribution pipe is fixed with solar cell panel, solar cell panel's one end is fixed with FD-400 wind generator, open the below of distribution pipe has the access hole, the bottom welding of surveying the hydroecium has the label groove, the bottom mounting of surveying the hydroecium has the water pipe, the top of water pipe is fixed with the sample groove. The water source detection device is suitable for the land properties and types of agricultural land, meets the requirement of long-term continuous water source water quality detection, can reference and timely retain water sources in periods with large property changes by additionally arranging the sampling groove as a water storage sample, and does not delay the subsequent water source continuous test, but does not consider whether the water source exists at the bottom of the detection land during detection, so that the device has a useless work phenomenon during water source detection operation, and wastes manpower and material resources;

3. comparison document CN210894335U discloses water source detection device for reservoir engineering management, "including a section of thick bamboo and the installing frame of drawing water, the inside swing joint that draws water a section of thick bamboo has the rubber slide, one side fixedly connected with sliding block of rubber slide, one side fixedly connected with slide bar of sliding block, the hollow movable block of one side fixedly connected with of slide bar, hollow movable block has the carousel through dwang swing joint, one side of carousel is rotated and is connected with the motor, the air vent has been seted up at the top of a section of thick bamboo that draws water, the first check valve of the outer fixed surface of a section of thick bamboo that draws water. This water source detection device for reservoir engineering management, setting through the burden piece, make the device possess and to have drew water the nozzle stub and sink the effect under water, cooperation setting through a section of thick bamboo and a check valve of drawing water, can drive rubber slide through the motor at the in-process that uses, but the device is carrying out water source detection time measuring, realize body vertically effect through the burden piece, but the weight of burden piece is heavier, the whole weight that leads to the device is heavier, it is comparatively inconvenient to transport, in addition the device is carrying out water source detection time measuring, can't know the degree of depth of device extraction water sample, it is lower to lead to water source detection operation accuracy.

Disclosure of Invention

The invention aims to provide a water source detection device which is convenient for detecting water sources at different depths so as to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a water source detection device convenient to detect different degree water sources, includes the removal cabinet body, the inside of the removal cabinet body is equipped with the dead slot, the inside slidable mounting of dead slot has storage drawer, and storage drawer's inside has deposited the reagent bottle, driving motor is installed to the bottom gomphosis of dead slot, driving motor's surface has cup jointed the circle hoop, driving motor's output is connected with the drilling rod, and the inside of drilling rod is the cavity design, the inner wall bottom mounting of drilling rod has the rubber slab of uniform diameter, the inside diapire of the removal cabinet body is fixed with the suction pump, and the suction pump is located the side the place ahead of drilling rod, the input of suction pump can be dismantled and be connected with the drainage tube, the output of suction pump can be dismantled and be connected with the honeycomb duct, the top of the removal cabinet body is installed and is detected the box.

Preferably, the top surface of the movable cabinet body is provided with an invaginated mounting frame, and the mounting frame is positioned on one side of the detection box.

Preferably, the inner wall of detection box is installed and is separated the fence, separates the fence and make for the sponge, and the bottom plate is installed to inner wall one side of detection box, and the bottom plate is located one side of separating the fence, and the light screen is installed to one side outer wall that the bottom plate is close to the detection box inner wall, and the rack is installed to the inside diapire of detection box, and the rack is located one side of bottom plate, and the internally mounted of rack has two group's baffles, and the light that the matrix was arranged is installed to one side inner wall that the detection box is close to the installing frame.

Preferably, electric telescopic handle is installed to the bottom of rubber slab, and conical humidity test probe is installed to electric telescopic handle's bottom, and the circular shape stopper is installed to humidity test probe's bottom, and the diameter of stopper is greater than humidity test probe's bottom diameter.

Preferably, the surface equidistance of drainage tube is equipped with No. two scale marks, and the internally mounted of drainage tube has the sealing washer, and the sealing washer is cyclic annular design, and the internally mounted of sealing washer has the inlet tube, and the filter screen is installed to the inner wall of inlet tube, and the filter screen is located the tail end position of inlet tube, and the bottom of sealing washer is equipped with the water inlet, and the inner wall of water inlet has the sealing plug through threaded connection.

Preferably, two sets of symmetrical arrangement's pole is installed at the top of circle hoop, the high driving motor's in top of pole top height equals, driving motor's outer surface welding is kept away from to the pole has the arc board, the radian of arc board is the same with the radian of circle hoop, accomodate the pole at the top of circle hoop, it is located one side of driving motor to accomodate the pole, accomodate the top of pole and install the disc, the diameter of disc is greater than accomodates the pole, the inside of circle hoop is equipped with the entrance to a cave, the inside winding of entrance to a cave is fixed with soft area, the surperficial equidistance in soft area has arranged one number scale mark, the end fixing in soft area has the.

Preferably, a water outlet pipe is installed on the surface of the tail end of the flow guide pipe, a conical intercepting block is installed on the inner wall of the water outlet pipe, a through small hole is formed in the tail end of the intercepting block, an intercepting net is installed inside the intercepting block, and a control valve is installed on the surface of the flow guide pipe.

Preferably, the inside diapire of the removal cabinet body is equipped with and runs through the round hole, and runs through the round hole and be the concentric design with the drilling rod, and the diameter that runs through the round hole is greater than the diameter of circle hoop.

Preferably, the internally mounted of installation frame has the display screen, display screen and humidity detection probe electric connection, and the inside of installation frame is equipped with the recess, and the recess is located the place ahead of display screen, and the internally mounted of installation frame has the frid, and the frid is located one side of recess.

Preferably, the bottom of drilling rod is installed the awl piece, and the inside of awl piece is the cavity design, and the awl piece bottom is equipped with the round hole, and the diameter of round hole is less than the stopper, and the stopper is located the outside of awl piece.

Preferably, the working steps of the device are as follows:

s1, when the device is used for water source detection operation, the driving motor or the water suction pump can be started according to the detection requirement of the device, if the water source is required to be detected, the driving motor can be started, if the water quality of the water source is required to be detected, the water suction pump is started, and sampling detection of the device is assisted to be realized;

s2, when a water source exists in the working place of the detection device, a detection person holds the hanging ring firstly, then starts the driving motor to drive the drill rod to rotate, small holes are drilled on the bottom surface, the driving motor gradually moves downwards along with the drill rod under the action of gravity along with the increase of the drilling depth, meanwhile, the two groups of arc plates at the top of the circular hoop slide along the inner wall of the drill hole to support the driving motor, the soft belt can deeply penetrate into the drill hole along with the downward movement of the driving motor, after the soft belt is tightened, the length values of the two are added through a scale line on the surface of the soft belt and the drill rod with fixed length to obtain the depth value of the drill hole, and the purpose of detection at different depths can be realized;

s3, after the conical block reaches the detection position, stopping driving the motor, starting the electric telescopic rod at the moment, driving the humidity detection probe to extend out of the conical block, immediately detecting the soil layer humidity in the drill hole, wherein the soil layer humidity is closer to a water source soil layer, the soil layer humidity is higher, the humidity value detected by the humidity detection probe is transmitted to the inside of the display screen, and the auxiliary detection personnel judge whether a water source exists in the drill hole;

s4, after the humidity detection probe is detected, the electric telescopic rod retracts, the humidity detection probe is driven to retract into the drill rod until the top surface of the limiting block abuts against the bottom surface of the conical block, the limiting block can block the round hole in the bottom of the conical block, and external soil blocks are prevented from entering the drill rod;

s5, when the water quality of a water source needs to be detected, the sealing plug can be unscrewed, water is injected into the sealing ring through the water inlet, then the sealing plug is screwed down, the drainage tube is sunk into a water body, the weight of the tube body of the drainage tube after water injection is increased, the tube body is effectively prevented from being displaced due to transverse water flow movement, the accuracy of the tube body for extracting the water source is influenced, the depth of water pumping and sampling of the device can be clearly mastered through the second scale mark on the surface of the drainage tube, and sampling detection operations at different depths are realized;

s6, starting a water pump to pump and transfer a water sample into the flow guide pipe, aligning a sampling bottle to the bottom of the water outlet pipe during sampling, then opening a control valve, and reducing the discharging speed of water flow in the water outlet pipe under the flow reducing action of the conical intercepting block to avoid liquid splashing caused by over-high flow speed of the water flow, thereby obtaining a quantitative sample solution slowly;

s7, after the sample, put the sample bottle inside separating the fence, take out the inside reagent bottle of storing drawer afterwards, drop into the sample bottle of three different degree of depth samplings of three groups with the inside carbonate solution equivalent of reagent bottle inside, open the light afterwards, under the light effect of light, can comparatively clearly look over the inside sediment of sample bottle and deposit intensive degree, judge inside calcium magnesium barium plasma and the ion content of having of water sample, and then infer water sample quality of water, realize high-efficient water quality monitoring.

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

1. the invention is provided with the detection box which consists of the separation fence, the bottom plate, the illuminating lamp and the placing frame, the shading plate arranged on the outer wall of one side of the bottom plate can increase the contrast of the bottom plate when the light irradiates, so that the deposition condition in the sampling bottle is more obvious, after the sampling is finished, the detection personnel puts the sampling bottle in the separation fence, then takes out the reagent bottle in the storage drawer, equivalently drops the carbonate solution in the reagent bottle into the sampling bottles with three groups of different depths for sampling, then puts the sampling bottle in the placing rack, so as to realize the simultaneous contrast illumination detection of the three groups of sampling bottles, turns on the illuminating lamp, under the light effect of light, can comparatively clearly look over the inside sediment of sampling bottle have or not and deposit intensive degree, judge that there are or not calcium magnesium barium plasma and ion content in the water sample, and then deduce water sample quality of water, realize high-efficient water quality monitoring.

2. The invention is provided with a rubber plate, and consists of an electric telescopic rod, a humidity detection probe and a limiting block, the electric telescopic rod is started to drive the humidity detection probe to extend out of the conical block, so as to detect soil layer humidity inside a drill hole immediately, the soil layer is closer to a water source, the humidity inside the soil layer is higher, the humidity value detected by the humidity detection probe is transmitted to the inside of a display screen, a detector is assisted to judge whether the water source exists at the corresponding drilling depth position of the drilling site, after the humidity detection probe is detected, the electric telescopic rod retracts to the recovery direction, and then the humidity detection probe is driven to retract into the drill rod, and the limiting block can block a round hole at the bottom of the conical block, so that the external soil block is prevented from entering the drill rod.

3. The invention discloses a water sampling device, which is characterized in that a drainage tube is arranged and consists of a second scale mark, a water inlet, a sealing plug, a filter screen, a water inlet tube and a sealing ring, the sealing plug is unscrewed, water is injected into the sealing ring through the water inlet, then the sealing plug is screwed down, the drainage tube is sunk into a water body, the weight of the drainage tube body after water injection is increased, the displacement of the tube body caused by the transverse scouring action during water flow movement is effectively avoided, the accuracy of water source extraction of the tube body is influenced, when a tester performs water sample extraction operation, the depth of water pumping and sampling of the device can be clearly mastered through the second scale mark, sampling detection operation at different depths is realized, solid matters and large-diameter foreign matters in the water body can be intercepted by the filter screen on the tail end surface of the water inlet tube, so that water samples can be extracted and transferred to the inside of the flow guide tube through the water inlet tube, subsequent sampling is convenient, and after the sampling is finished, the drainage tube is extracted out of the water body, the sealing plug is unscrewed, and water in the sealing ring is discharged, so that the whole weight of the drainage tube is reduced, and the whole transportation of the device is facilitated.

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 circular hoop and the driving motor of the present invention;

FIG. 3 is a schematic view of the circular hoop assembly of the present invention;

FIG. 4 is a schematic view of an installation structure of the drill rod, the rubber plate, the electric telescopic rod, the humidity detection probe, the limiting block and the conical block;

FIG. 5 is a schematic view of the mounting structure of the inspection box and the illumination lamp according to the present invention;

FIG. 6 is a partial structural view of a draft tube of the present invention;

FIG. 7 is a partial view of the structure of the draft tube of the present invention;

FIG. 8 is a schematic view of the installation structure of the intercepting block and the intercepting net of the present invention;

fig. 9 is a schematic sectional structure view of the draft tube of the present invention.

In the figure: 1. a movable cabinet body; 101. the circular hole is penetrated; 2. installing a frame; 201. a display screen; 202. a groove; 203. a groove plate; 3. a circular hoop; 301. a round bar; 302. an arc plate; 303. a soft belt; 304. a storage rod; 305. a first scale line; 306. hanging a ring; 4. a drive motor; 401. a drill stem; 402. a conical block; 5. a rubber plate; 501. an electric telescopic rod; 502. a humidity detection probe; 503. a limiting block; 6. a detection cartridge; 601. separating the fence; 602. a base plate; 603. an illuminating lamp; 604. placing a rack; 7. a water pump; 8. a drainage tube; 801. second scale mark; 802. a water inlet; 803. a sealing plug; 804. filtering with a screen; 805. a water inlet pipe; 806. a seal ring; 9. a flow guide pipe; 901. a water outlet pipe; 902. an intercepting block; 903. a control valve; 904. an intercepting net; 10. a storage drawer.

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.

Referring to fig. 1-9, an embodiment of the present invention is shown: a water source detection device convenient for detecting water sources at different depths comprises a movable cabinet body 1, wherein an empty groove is formed in the movable cabinet body 1, a storage drawer 10 is slidably mounted in the empty groove, a reagent bottle is stored in the storage drawer 10, a carbonate solution is stored in the reagent bottle stored in the storage drawer 10, if a water sample contains metal ions such as calcium, magnesium and barium, water-insoluble carbonate precipitates can be generated in a sampling bottle, whether the precipitates are generated in the sampling bottle or not and the concentration degree of the precipitates is generated through observing whether the precipitates are generated in the sampling bottle or not, whether the content of the metal ions such as calcium, magnesium and barium or the content of corresponding ions exist in the water sample or not can be judged, a driving motor 4 is embedded at the bottom of the empty groove and used for providing power support for rotary drilling of a drill rod 401, a circular hoop 3 is sleeved on the surface of the driving motor 4, the circular hoop 3 can slide down along the inner wall of the drilling hole along with the driving motor 4, meanwhile, the soft belt 303 is utilized to detect the depth of a drilled hole, a tester is assisted to detect whether a water source exists in soil layers with different depths, the output end of the driving motor 4 is connected with the drill rod 401, the interior of the drill rod 401 is hollow, when the drill rod 401 rotates, the bottom end of the inner wall of the drill rod 401 is fixed with the rubber plate 5 with the same diameter, the humidity detection probe 502 can be driven to flexibly expose out of the conical block 402 through flexible extension and retraction of the electric telescopic rod 501 to detect the humidity of the soil in the drilled hole soil layer, the tester is assisted to judge whether the water source exists at the position of the drilled hole depth, the bottom wall in the movable cabinet body 1 is fixed with the water suction pump 7, the water suction pump 7 is positioned in front of the drill rod 401 and can provide power supply for the device to extract a water sample, the input end of the water suction pump 7 is detachably connected with the drainage tube 8, the weight of the drainage tube 8 can be increased by injecting water into the sealing ring 806 in the drainage tube 8, weaken the perpendicular degree that the horizontal scouring action when rivers move influences the body, through nimble water injection, turn on the water, can alleviate the weight of body when not using drainage tube 8, make things convenient for the device to transport, the honeycomb duct 9 can be dismantled and be connected with to the output of suction pump 7, can reduce out water velocity when the sample, and then the water splash when reducing the sample, detection box 6 is installed at the top of the removal cabinet body 1, detection box 6 passes through the cooperation of inside bottom plate 602 and light 603, make things convenient for the measuring personnel to see the inside reaction condition of sample bottle more directly perceived, the supplementary water quality testing condition of judging.

The top surface of the movable cabinet body 1 is provided with an invaginated installation frame 2, the installation frame 2 is positioned on one side of the detection box 6, and the installation frame 2 provides an installation space for installing the display screen 201, the groove 202 and the groove plate 203.

The inner wall of the detection box 6 is provided with a separation fence 601, the separation fence 601 is made of sponge, one side of the inner wall of the detection box 6 is provided with a bottom plate 602, the bottom plate 602 is positioned at one side of the separation fence 601, the outer wall of one side of the bottom plate 602, which is close to the inner wall of the detection box 6, is provided with a shading plate, the inner bottom wall of the detection box 6 is provided with a placing frame 604, the placing frame 604 is positioned at one side of the bottom plate 602, the placing frame 604 is internally provided with two groups of partition plates, the inner wall of one side of the detection box 6, which is close to the mounting frame 2, is provided with illuminating lamps 603 arranged in a matrix, the shading plate arranged at the outer wall of one side of the bottom plate 602 can increase the contrast of the bottom plate 602 during light irradiation, so that the sedimentation condition inside the sampling bottle is more obvious, after sampling is finished, a detector puts the sampling bottle inside the separation fence 601, then takes out a reagent bottle inside the storage drawer 10, and equivalently drops carbonate solution inside the three groups of sampling bottles with different depths, later place the sampling bottle inside rack 604 to contrast illumination when realizing three sampling bottles of group detects, opens light 603, under the light effect of light 603, can comparatively clearly look over the inside sediment of sampling bottle and deposit intensive degree, judges that there are inside calcium magnesium barium plasma and the ion content of water sample, and then concludes water sample quality of water, realizes high-efficient water quality monitoring.

An electric telescopic rod 501 is installed at the bottom of the rubber plate 5, a conical humidity detection probe 502 is installed at the bottom of the electric telescopic rod 501, a round limiting block 503 is installed at the bottom of the humidity detection probe 502, the diameter of the limiting block 503 is larger than the bottom diameter of the humidity detection probe 502, the electric telescopic rod 501 is started to drive the humidity detection probe 502 to extend out of the conical block 402, soil layer humidity inside a drill hole is detected immediately, the soil layer is close to a water source, the humidity inside the soil layer is larger, the humidity value detected by the humidity detection probe 502 is transmitted to the inside of the display screen 201, an assistant detector judges whether a water source exists at the corresponding drilling depth position of the drill hole, after the humidity detection probe 502 is detected, the electric telescopic rod 501 retracts towards the drill pipe 401 to drive the humidity detection probe 502 to retract into the drill pipe, and the limiting block 503 can block the round hole at the bottom of the conical block 402, preventing the outer soil mass from entering the interior of the drill pipe 401.

The outer surface of the drainage tube 8 is equidistantly provided with a second scale line 801, the interior of the drainage tube 8 is provided with a sealing ring 806, the sealing ring 806 is designed in an annular shape, the inner surface of the sealing ring 806 is provided with a water inlet tube 805, the inner wall of the water inlet tube 805 is provided with a filter screen 804, the filter screen 804 is positioned at the tail end of the water inlet tube 805, the bottom of the sealing ring 806 is provided with a water inlet 802, the inner wall of the water inlet 802 is connected with a sealing plug 803 through threads, the sealing plug 803 is unscrewed, water is injected into the sealing ring 806 through the water inlet 802, then the sealing plug 803 is screwed down, the drainage tube 8 is sunk into the water body, the weight of the drainage tube 8 after water injection is increased, the displacement of the tube body caused by the transverse scouring action during water flow movement is effectively avoided, the accuracy of the water source extraction of the tube body is influenced, and when a detector performs water sample extraction operation, the depth of the device can be controlled clearly through the second scale line 801, realize different degree of depth sample detection operation, and filter screen 804 can be with the solid matter in the water and the interception of bold footpath foreign matter in the tail end surface of inlet tube 805 to inside the honeycomb duct 9 is transferred in the extraction of inlet tube 805 to the water sample, convenient follow-up sample.

Two groups of symmetrically arranged round rods 301 are installed at the top of the round hoop 3, the top end of the round rod 301 is higher than the top end of the driving motor 4, the round rod 301 is welded on the outer surface far away from the driving motor 4, an arc plate 302 is welded on the outer surface of the round rod 301, the radian of the arc plate 302 is the same as that of the round hoop 3, a containing rod 304 is installed at the top of the round hoop 3, the containing rod 304 is positioned on one side of the driving motor 4, a disc is installed at the top of the containing rod 304, the diameter of the disc is larger than that of the containing rod 304, a hole is formed in the round hoop 3, a soft belt 303 is wound and fixed in the hole, a scale mark 305 is equidistantly arranged on the surface of the soft belt 303, a hanging ring 306 is fixed at the tail end of the soft belt 303, the arc plate 302 fixed by the round rod 301 can be attached to the inner wall of a drill hole when the driving motor 4 slides down along the drill hole, further, then, the descending depth of the driving motor 4 is known through the scale mark 305 on the surface of the driving motor, the water source detection depth of the device is further known, the driving motor 4 connected with the circular hoop 3 is lifted by holding the soft belt 303 after the detection is finished, the driving motor 4 and the drill rod 401 are lifted out of the drill hole, then the soft belt 303 is wound on the surface of the accommodating rod 304, and then the hanging ring 306 is buckled in the circular disc, so that the soft belt 303 is coiled and accommodated.

The water outlet pipe 901 is installed on the surface of the tail end of the flow guide pipe 9, the conical intercepting block 902 is installed on the inner wall of the water outlet pipe 901, a small through hole is formed in the tail end of the intercepting block 902, an intercepting net 904 is installed inside the intercepting block 902, the control valve 903 is installed on the surface of the flow guide pipe 9, after a detector aligns the bottle mouth of a sampling bottle below the water outlet pipe 901, the control valve 903 is opened, at the moment, water extracted by the flow guide pipe 9 sequentially passes through the intercepting net 904 for filtering and intercepting treatment and then enters the conical intercepting block 902, due to the conical design of the intercepting block 902, the area of a channel flowing through the water inside the intercepting block 902 is gradually contracted to play a corresponding flow limiting role, then the water slowly flows out of the water outlet pipe 901, and splashing caused by the high flow rate of the water during sampling is avoided.

The inside diapire of the mobile cabinet body 1 is equipped with runs through round hole 101, and runs through round hole 101 and drilling rod 401 for the concentric design, and the diameter that runs through round hole 101 is greater than the diameter of circle hoop 3, runs through round hole 101 and can provide the passageway for drilling rod 401 passes the mobile cabinet body 1 inner wall.

The internally mounted of installing frame 2 has display screen 201, display screen 201 and humidity test probe 502 electric connection, the inside of installing frame 2 is equipped with recess 202, recess 202 is located the place ahead of display screen 201, the internally mounted of installing frame 2 has frid 203, frid 203 is located one side of recess 202, display screen 201 can come out the soil layer humidity value visual display that humidity test probe 502 detected, make things convenient for the measurement personnel to judge there is no water source, recess 202 can be used to deposit the marker pen, the convenient degree of depth to the sample bottle is marked, and the design of frid 203, can place the inside condition of deposiing of sample bottle that the record paper is used for recording different marks by the measurement personnel, carry out the record to detecting original data.

The cone block 402 is installed to the bottom of drilling rod 401, and the inside of cone block 402 is the cavity design, and cone block 402 bottom is equipped with the round hole, and the diameter of round hole is less than stopper 503, and stopper 503 is located the outside of cone block 402, and when drilling rod 401 rotated under driving motor 4 drove, can drive cone block 402 in step and rotate, the toper design of cone block 402, pressure when multiplicable cone block 402 contacted with the soil layer, and then the resistance when reducing drilling rod 401.

The working steps of the device are as follows:

s1, when the device is used for water source detection operation, the driving motor 4 or the water suction pump 7 can be started according to the detection requirement of the device, if the water source exists, the driving motor 4 can be started, if the water quality of the water source needs to be detected, the water suction pump 7 is started, and sampling detection of the device is achieved in an auxiliary mode;

s2, when a water source exists in the working place of the detection device, a detector holds the hanging ring 306, then starts the driving motor 4 to drive the drill rod 401 to rotate, small holes are drilled on the bottom surface, the driving motor 4 gradually moves downwards along with the drill rod 401 under the action of gravity along with the increase of the drilling depth, meanwhile, the two groups of arc plates 302 at the top of the circular hoop 3 slide along the inner wall of the drilled hole to support the driving motor 4, the soft belt 303 goes deep into the drilled hole along with the downward movement of the driving motor 4, after the soft belt 303 is tightened, the length values of the two groups of arc plates are added through a scale mark 305 on the surface of the soft belt 303 and the drill rod 401 with fixed length, and the purpose of detecting and detecting different depths can be achieved;

s3, after the conical block 402 reaches the detection position, stopping driving the motor 4, starting the electric telescopic rod 501 at the moment, driving the humidity detection probe 502 to extend out of the conical block 402, immediately detecting the soil layer humidity in the drill hole, wherein the soil layer humidity is closer to the water source soil layer, the higher the soil layer humidity is, the humidity value detected by the humidity detection probe 502 is transmitted to the inside of the display screen 201, and the auxiliary detection personnel judge whether the water source exists in the drill hole;

s4, after the humidity detection probe 502 is detected, the electric telescopic rod 501 retracts, and then the humidity detection probe 502 is driven to retract into the drill rod 401 until the top surface of the limiting block 503 abuts against the bottom surface of the conical block 402, the limiting block 503 can block the round hole in the bottom of the conical block 402, and external soil blocks are prevented from entering the drill rod 401;

s5, when the water quality of a water source needs to be detected, the sealing plug 803 can be unscrewed, water is injected into the sealing ring 806 through the water inlet 802, then the sealing plug 803 is screwed down, the drainage tube 8 is sunk into a water body, the weight of the tube body of the drainage tube 8 after water injection is increased, the tube body is effectively prevented from being displaced due to transverse water flow movement, the accuracy of the tube body for extracting the water source is influenced, the depth of water pumping and sampling of the device can be controlled clearly through the second scale mark 801 on the surface of the drainage tube 8, and sampling and detection operations at different depths are realized;

s6, starting the water pump 7, pumping and transferring the water sample into the flow guide pipe 9, aligning a sampling bottle to the bottom of the water outlet pipe 901 during sampling, then opening the control valve 903, and reducing the discharging speed of water flow in the water outlet pipe 901 under the flow reducing action of the conical intercepting block 902 to avoid liquid splashing caused by over-high water flow speed, thereby obtaining a quantitative sample solution slowly;

s7, after the sample, put the sample bottle inside separating fence 601, take out the inside reagent bottle of storing drawer 10 afterwards, drop into the sample bottle inside of three different degree of depth samples with the inside carbonate solution equivalent of reagent bottle inside, open light 603 afterwards, under the light effect of light 603, can comparatively clearly see the inside sediment of sample bottle and deposit intensive degree, judge that there are calcium magnesium barium plasma and ion content inside the water sample, and then infer water sample quality of water, realize high-efficient water quality monitoring.

The working principle is as follows: when the device is used for water source detection operation, if a water source exists in a detection site, the driving motor 4 can be started, if the water source quality needs to be detected, the water suction pump 7 is started to assist in achieving sampling detection of the device, when the water source exists in the detection device working site, a detection person firstly holds the hanging ring 306, then the driving motor 4 is started to drive the drill rod 401 to rotate, a small hole is drilled in the bottom surface, the driving motor 4 gradually moves downwards along with the drill rod 401 under the action of gravity along with the increase of the drilling depth, meanwhile, the two groups of arc plates 302 at the top of the circular hoop 3 slide along the inner wall of the drilled hole to play a supporting role for the driving motor 4, the soft belt 303 can deeply drill the hole along with the downward movement of the driving motor 4, after the soft belt 303 is tightened, the length values of the scale line 305 on the surface of the soft belt 303 and the drill rod 401 with the fixed length are added to obtain the drilling depth value, the purpose of detection at different depths can be realized, after the conical block 402 reaches the detection position, the driving motor 4 is stopped, the electric telescopic rod 501 is started at the moment, the humidity detection probe 502 is driven to extend out of the conical block 402, soil layer humidity inside the drill hole is detected immediately, the soil layer humidity is closer to a water source soil layer, the larger the soil layer humidity is, the humidity value detected by the humidity detection probe 502 is transmitted to the inside of the display screen 201, an auxiliary detector judges whether a water source exists in the drill hole site, after the humidity detection probe 502 is detected, the electric telescopic rod 501 retracts towards the recovery direction, the humidity detection probe 502 is driven to retract into the drill rod 401 until the top surface of the limiting block 503 abuts against the bottom surface of the conical block 402, the limiting block 503 can block the round hole at the bottom of the conical block 402, the external soil block is prevented from entering the drill rod 401, and when the water quality of the water source needs to be detected, the sealing plug 803 can be unscrewed, injecting water into the sealing ring 806 through the water inlet 802, then screwing the sealing plug 803, sinking the drainage tube 8 into the water body, increasing the weight of the drainage tube 8 after injecting water, effectively avoiding displacement of the tube body caused by horizontal water flow movement, affecting the accuracy of water source pumping of the tube body, clearly mastering the depth of water pumping and sampling of the device through the second scale mark 801 on the surface of the drainage tube 8, realizing sampling and detecting operations at different depths, then starting the water pump 7, pumping and transferring a water sample into the drainage tube 9, aligning the sampling bottle to the bottom of the water outlet pipe 901 during sampling, then opening the control valve 903, weakening the discharging speed of water flow in the water outlet pipe 901 under the flow reducing action of the conical intercepting block 902, avoiding liquid splashing caused by over-fast water flow velocity, further obtaining quantitative sample solution slowly, after sampling, placing the sampling bottle in the separating fence 601, take out the inside reagent bottle of storing drawer 10 afterwards, drop into the inside carbonate solution equivalent of reagent bottle inside the sample bottle of the different degree of depth samples of three groups, open light 603 afterwards, under the light effect of light 603, can comparatively clearly find the inside sediment of sample bottle have or not and deposit intensive degree, judge that water sample is inside to have or not calcium magnesium barium plasma and ionic content, and then infer water sample quality of water, realize high-efficient water quality monitoring.

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 (11)

1. The utility model provides a water source detection device convenient to detect different degree of depth water sources, includes the mobile cabinet body (1), its characterized in that: an empty groove is arranged inside the movable cabinet body (1), a storage drawer (10) is slidably arranged inside the empty groove, a reagent bottle is stored in the storage drawer (10), a driving motor (4) is embedded and installed at the bottom of the empty groove, the surface of the driving motor (4) is sleeved with a circular hoop (3), the output end of the driving motor (4) is connected with a drill rod (401), the interior of the drill rod (401) is designed to be hollow, the bottom end of the inner wall of the drill rod (401) is fixed with a rubber plate (5) with the same diameter, a water pump (7) is fixed on the bottom wall of the inner part of the movable cabinet body (1), and the water suction pump (7) is positioned in front of the side of the drill rod (401), the input end of the water suction pump (7) is detachably connected with a drainage tube (8), the output of suction pump (7) can be dismantled and be connected with honeycomb duct (9), detection box (6) are installed at the top of the mobile cabinet body (1).

2. The water source detection device for facilitating detection of water sources at different depths as recited in claim 1, wherein: the top surface of the movable cabinet body (1) is provided with an invaginated mounting frame (2), and the mounting frame (2) is positioned on one side of the detection box (6).

3. The water source detection device for facilitating detection of water sources at different depths as recited in claim 1, wherein: the inner wall of detection box (6) is installed and is separated fence (601), separate fence (601) and make for the sponge, bottom plate (602) are installed to inner wall one side of detection box (6), bottom plate (602) are located the one side of separating fence (601), bottom plate (602) are close to one side outer wall of detection box (6) inner wall and are installed the light screen, rack (604) are installed to the inside diapire of detection box (6), rack (604) are located the one side of bottom plate (602), the internally mounted of rack (604) has two sets of division boards, detect box (6) and be close to one side inner wall of installing frame (2) and install light (603) that the matrix was arranged.

4. The water source detection device for facilitating detection of water sources at different depths as recited in claim 1, wherein: electric telescopic handle (501) are installed to the bottom of rubber slab (5), and conical humidity test probe (502) are installed to the bottom of electric telescopic handle (501), and circular shape stopper (503) are installed to the bottom of humidity test probe (502), and the diameter of stopper (503) is greater than the bottom diameter of humidity test probe (502).

5. The water source detection device for facilitating detection of water sources at different depths as recited in claim 1, wherein: the surface equidistance of drainage tube (8) is equipped with scale mark (801) No. two, and the internally mounted of drainage tube (8) has sealing washer (806), and sealing washer (806) are the annular design, and the internally mounted of sealing washer (806) has inlet tube (805), and filter screen (804) are installed to the inner wall of inlet tube (805), and filter screen (804) are located the tail end position of inlet tube (805), and the bottom of sealing washer (806) is equipped with water inlet (802), and there is sealing plug (803) inner wall through threaded connection of water inlet (802).

6. The water source detection device for facilitating detection of water sources at different depths as recited in claim 1, wherein: circle pole (301) of two sets of symmetrical arrangement are installed at the top of circle hoop (3), the top height of the high driving motor (4) in top of circle pole (301) equals, the outer skin weld that driving motor (4) were kept away from in circle pole (301) has arc board (302), the radian of arc board (302) is the same with the radian of circle hoop (3), accomodate pole (304) is installed at the top of circle hoop (3), accomodate pole (304) and be located one side of driving motor (4), the disc is installed at the top of accomodating pole (304), the diameter of disc is greater than and accomodates pole (304), the inside of circle hoop (3) is equipped with the entrance to a cave, the inside winding of entrance to a cave is fixed with soft area (303), scale mark (305) have been arranged to the surface equidistance of soft area (303), the tail end of soft area (303) is fixed with link (306).

7. The water source detection device for facilitating detection of water sources at different depths as recited in claim 1, wherein: the water outlet pipe (901) is installed on the surface of the tail end of the flow guide pipe (9), the conical intercepting block (902) is installed on the inner wall of the water outlet pipe (901), the tail end of the intercepting block (902) is provided with a through small hole, the intercepting net (904) is installed inside the intercepting block (902), and the control valve (903) is installed on the surface of the flow guide pipe (9).

8. The water source detection device for facilitating detection of water sources at different depths as recited in claim 1, wherein: the inside diapire of the movable cabinet body (1) is equipped with runs through round hole (101), and runs through round hole (101) and drilling rod (401) and be the design of concentric circles, and the diameter that runs through round hole (101) is greater than the diameter of circle hoop (3).

9. The water source detection device for facilitating detection of water sources at different depths as recited in claim 2, wherein: the utility model discloses a humidity detection device, including installing frame (2), the internally mounted of installing frame (2) has display screen (201), display screen (201) and humidity detection probe (502) electric connection, and the inside of installing frame (2) is equipped with recess (202), and recess (202) are located the place ahead of display screen (201), and the internally mounted of installing frame (2) has frid (203), and frid (203) are located one side of recess (202).

10. The water source detection device for facilitating detection of water sources at different depths as recited in claim 1, wherein: the drill rod is characterized in that a conical block (402) is installed at the bottom end of the drill rod (401), the interior of the conical block (402) is designed to be hollow, a round hole is formed in the bottom end of the conical block (402), the diameter of the round hole is smaller than a limiting block (503), and the limiting block (503) is located on the outer portion of the conical block (402).

11. A water source detection apparatus for facilitating detection of water sources of varying depths according to any one of claims 1 to 10, the apparatus operating as follows:

s1, when the device is used for water source detection operation, the driving motor (4) or the water suction pump (7) can be started according to the detection requirement of the device, if the water source exists, the driving motor (4) can be started, if the water source quality needs to be detected, the water suction pump (7) is started, and sampling detection of the device is achieved in an auxiliary mode;

s2, when a water source exists in the working place of the detection device, a detector holds the hanging ring (306), then the driving motor (4) is started to drive the drill rod (401) to rotate, small holes are drilled on the bottom surface, the driving motor (4) gradually moves downwards along with the drill rod (401) under the action of gravity along with the increase of the drilling depth, meanwhile, two groups of arc plates (302) at the top of the circular hoop (3) slide along the inner wall of the drilled hole to support the driving motor (4), the soft belt (303) can deeply drill the hole along with the downward movement of the driving motor (4), after the soft belt (303) is tightened, the depth value of the drilled hole can be obtained by adding the length values of a first scale mark (305) on the surface of the soft belt (303) and the drill rod (401) with the fixed length, and the purpose of detecting and detecting different depths can be realized;

s3, after the conical block (402) reaches the detection position, stopping driving the motor (4), starting the electric telescopic rod (501) at the moment, driving the humidity detection probe (502) to extend out of the conical block (402), immediately detecting the soil layer humidity in the drill hole, and transmitting the humidity value detected by the humidity detection probe (502) to the inside of the display screen (201) when the soil layer humidity is larger and the water source soil layer is closer, so as to assist a detector to judge whether a water source exists in the drill hole;

s4, after the humidity detection probe (502) detects, the electric telescopic rod (501) retracts to the retracted position, then the humidity detection probe (502) is driven to retract into the drill rod (401), until the top surface of the limiting block (503) abuts against the bottom surface of the conical block (402), the limiting block (503) can block the round hole in the bottom of the conical block (402), and external soil blocks are prevented from entering the drill rod (401);

s5, when water quality of a water source needs to be detected, the sealing plug (803) can be unscrewed, water is injected into the sealing ring (806) through the water inlet (802), then the sealing plug (803) is screwed down, the drainage tube (8) is sunk into a water body, the weight of the tube body of the drainage tube (8) after water injection is increased, the tube body is effectively prevented from being displaced due to transverse water flow movement, the accuracy of the water source extraction of the tube body is influenced, the water pumping sampling depth of the device can be clearly mastered through the second scale mark (801) on the surface of the drainage tube (8), and sampling detection operations at different depths are realized;

s6, starting a water pump (7), pumping and transferring a water sample into a flow guide pipe (9), aligning a sampling bottle to the bottom of a water outlet pipe (901) during sampling, then opening a control valve (903), and under the flow reducing action of a conical intercepting block (902), reducing the discharging speed of water flow in the water outlet pipe (901), avoiding liquid splashing caused by too high water flow speed, and further slowly obtaining a quantitative sample solution;

s7, after the sample, put the sample bottle inside separating fence (601), take out the inside reagent bottle of storing drawer (10) afterwards, drop into the sample bottle inside of three different degree of depth samples with the inside carbonate solution equivalent of reagent bottle inside, open light (603) afterwards, under the light effect of light (603), can comparatively clearly find the inside deposit of sample bottle have or not and deposit intensive degree, judge that there are inside calcium magnesium barium plasma and the ion content of water sample, and then infer water sample quality of water, realize high-efficient water quality monitoring.

Images