CN115683718A - A water source sampling test device for hydrogeology reconnaissance - Google Patents

Abstract

The invention relates to the technical field of hydrogeological exploration, and discloses a water source sampling detection device for hydrogeological exploration, which comprises a cart base, a pay-off mechanism, a telescopic mechanism and a lifting mechanism, wherein power supply equipment is arranged at the rear end of the top of the cart base, a push rod is welded at the rear end of the cart base, a handle is welded at the upper end of the push rod, a support column is welded at the corner end of the bottom of the cart base, a cross rod is welded at the bottom of the support column, a moving wheel is rotatably connected to the outer side of the cross rod, the telescopic mechanism is connected to the front end of the power supply equipment, the pay-off mechanism is arranged in front of the telescopic mechanism, the lifting mechanism is arranged at the bottom of the pay-off mechanism and the front end of the cart base, the hydrogeological exploration suitable for a bank water source can be directly pushed and moved conveniently, the telescopic or pay-off mechanism is automatically controlled, the sampling device is positioned above a water source at different angles and positions, and the pay-off mechanism is automatically controlled to sink in water for sampling detection.

Description

A water source sampling test device for hydrogeology reconnaissance

Technical Field

The invention relates to the technical field of hydrogeological exploration, in particular to a water source sampling detection device for hydrogeological exploration.

Background

Hydrogeological surveying is also known as "hydrogeological surveying". Refers to hydrogeological research work performed to ascertain hydrogeological conditions of an area. Aims to master the cause, distribution and motion rule of underground water and surface water. The method provides a basis for reasonably exploiting and utilizing water resources and correctly designing and constructing foundations and piling projects. The method comprises two aspects of underground and above-ground hydrological exploration. The underground hydrological investigation is mainly to investigate and research the conditions of water level change, flow direction, chemical components and the like of underground water at different periods of the whole year, find out the burying conditions and the corrosivity of the underground water, judge the possible change and influence of the underground water in the construction and use stages of buildings and provide prevention and treatment suggestions. Through the retrieval, chinese patent is granted No. CN 216247357U's patent, discloses a water source sample detection device for hydrogeology reconnaissance, including the main part frame, the inner chamber of main part frame rotates and installs the pivot, the fixed surface of pivot has cup jointed the ratchet, and the ratchet is located the front of main part frame, the fixed cup joint in one end of pivot has the connecting plate, the side fixed mounting of connecting plate has the handle, the side fixed mounting of main part frame has the fixed pin, the surface rotation of fixed pin has cup jointed the pawl. This a water source sampling test device for hydrogeological survey through setting up ratchet and pawl, when the user carries out the sample of catchmenting, can stop immediately at arbitrary degree of depth, has avoided the water-collecting device excessively to sink, through setting up cursory and scale rope for the user can be accurate judge the depth of water-collecting device place, has improved the accuracy of sample result, has reduced the degree of difficulty of operation.

One water source sampling detection device for hydrogeological survey in above-mentioned patent exists following shortcoming: the position and the angle of sample can't be adjusted in automated control, have increased the degree of difficulty of sample, and inconvenient direct sink in aquatic accuracy takes out the water source and is used for water quality testing, and the structure is complicated. For this reason, a corresponding technical scheme needs to be designed for solution.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides a water source sampling detection device for hydrogeological exploration, which solves the technical problems that the hydrogeological exploration suitable for a bank water source is convenient to directly push and move, the extension or lifting pay-off mechanism is automatically controlled, the sampling device is positioned above the water source at different angles and positions, the pay-off mechanism is automatically controlled to sink in water for sampling detection, and the water source is efficiently and accurately taken out for water quality detection.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a water source sampling test device for hydrogeological survey, includes shallow base, paying out machine, telescopic machanism and hoist mechanism, the top rear end of shallow base is equipped with and is equipped with power supply unit, the rear end welding of shallow base has the push rod, the upper end welding of push rod has the handle, the welding of bottom corner end of shallow base has the pillar, the welding of bottom of pillar has the horizontal pole, the outside of horizontal pole is rotated and is connected with the removal wheel, telescopic machanism connects in power supply unit's front end, paying out machine locates telescopic machanism's the place ahead, paying out machine is including the mount, the mount is U type structure, the inside of mount is equipped with the pivot pole, the outside of pivot pole encircles the connection distribution and has the nylon rope, the fixed sampling device that is equipped with in bottom of nylon rope, hoist mechanism locates the bottom of paying out machine and the front end of shallow base.

Preferably, power supply unit electric connection is in driving motor, power supply unit, electronic telescoping device and cylinder, power supply unit's lateral part electric connection has control panel, convenient intelligent operation.

Preferably, one side of the rotating shaft rod is rotatably connected with a bearing, the bearing is fixedly arranged at the inner side end of the fixing frame, the other side of the rotating shaft rod is connected with a driving motor in a penetrating mode, the driving motor is fixedly arranged at the outer side end of the fixing frame, and the wire winding or wire unwinding is controlled to rotate automatically.

Preferably, sampling device is including a sample section of thick bamboo, miniature gas pitcher, electric putter device and balancing weight, the inside both ends of sampling device are seted up to a sample section of thick bamboo, the top of a sample section of thick bamboo is seted up flutedly, the both sides of a sample section of thick bamboo are located to the electric putter device, the top of electric putter device is connected with the push rod, push rod through connection has the apron, sampling device's inside is equipped with remote control device, remote control device's bottom electric connection has power supply unit, remote control device electric connection is in the electric putter device, sampling device's inboard lower extreme is located to miniature gas pitcher, the outside of miniature gas pitcher is connected with the solenoid valve, the outer end through connection of solenoid valve has the blast pipe, the balancing weight is fixed in sampling device's bottom, and the convenient automated control sample of intaking.

Preferably, the specification of apron is the same with the specification of recess, the bottom of apron bonds and has sealed the pad, and the fixed block that is equipped with in bottom of nylon rope, the fixed block is fixed locates sampling device's top middle-end, and the apron is convenient flexible to be intake and is sealed, and sealing performance is high.

Preferably, telescopic machanism is including electronic telescoping device and telescopic link, the welding of electronic telescoping device's rear end has first extension post, the rear end of first extension post rotates and is connected with first pivot seat, first pivot seat is installed in power supply unit's front end, the telescopic link is connected in electronic telescoping device's front end, the fixed rear end of locating the mount of telescopic link can the flexible adjusting position of automated control mount.

Preferably, hoist mechanism is including cylinder and pneumatic rod, the lower extreme welding of cylinder has the second to extend the post, the lower extreme that the second extended the post rotates and is connected with second pivot seat, and the front end bottom welding of shallow base has the extension board, the lower extreme of second pivot seat is installed in the front end bottom of shallow base and the front end of extension board, the pneumatic rod is connected in the upper end of cylinder, the upper end welding of pneumatic rod has the third to extend the post, the upper end rotation that the third extended the post is connected with the third pivot seat, the third pivot seat is installed in the bottom middle-end of mount, but automated control mount lift adjustment height.

(III) advantageous effects

This a water source sampling test device for hydrogeological survey, convenient direct implementation removes the use, be applicable to the hydrogeological survey at bank edge water source, automatic control is flexible or promote paying out machine to make sampling device be located the water source top with different angle and position, and through the nylon rope inside paying out machine, but automated control unwrapping wire makes sampling device sink in aqueous and carries out the sample detection, can be high-efficient accurate take out the water source and be used for water quality testing, moreover, the steam generator is simple in structure, and is worth promoting.

Drawings

FIG. 1 is a schematic perspective view of the front right upper end of the present invention;

FIG. 2 is a schematic view of the integral front left upper end perspective of the present invention;

FIG. 3 is a right side view of the present invention;

FIG. 4 is a schematic view of the telescopic lifting mechanism of the present invention;

FIG. 5 is a schematic view of a pay-off mechanism of the present invention;

FIG. 6 is a schematic structural diagram of a sampling device according to the present invention.

In the figure, the cart base 1, the power supply device 11, the control panel 111, the push rod 12, the handle 121, the moving wheel 13, the cross bar 131, the pillar 132, the paying-off mechanism 2, the fixing frame 21, the rotating shaft rod 211, the bearing 212, the nylon rope 213, the driving motor 22, the sampling device 23, the sample cylinder 231, the groove 2311, the micro air tank 232, the electromagnetic valve 2321, the exhaust pipe 2322, the cover plate 233, the sealing gasket 234, the electric push rod device 235, the push rod 2351, the remote control device 236, the power supply device 237, the fixing block 238, the weight block 239, the telescoping mechanism 3, the electric telescoping device 31, the first extending column 311, the first rotating shaft seat 312, the telescoping rod 32, the lifting mechanism 4, the air cylinder 41, the second extending column 411, the second rotating shaft seat 412, the extending plate 413, the air pressure rod 42, the third extending column 421 and the third rotating shaft seat 422.

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 to fig. 6, an embodiment of the present invention provides a technical solution: the utility model provides a water source sampling test device for hydrogeological survey, including shallow base 1, paying out machine constructs 2, telescopic machanism 3 and hoist mechanism 4, shallow base 1's top rear end is equipped with and is equipped with power equipment 11, sustainable stable power supply, equipment is bulky, power capacity is big, shallow base 1's rear end welding has push rod 12, push rod 12's upper end welding has handle 121, can direct both hands grip the implementation, shallow base 1's bottom corner end welding has pillar 132, pillar 132's bottom welding has horizontal pole 131, the outside of horizontal pole 131 is rotated and is connected with the removal wheel 13, the solid support removes wholly, telescopic machanism 3 connects in power equipment 11's front end, telescopic machanism 2 locates the place ahead of telescopic machanism 3, the position of telescopic regulation paying out machine constructs 2, fixed being equipped with fixing frame 21 of nylon rope 213 in bottom, fixing frame 21 is U type structure, moreover, the steam release operation is convenient for, the inside of fixing frame 21 is equipped with pivot 211, the outside of pivot pole 211 encircles the connection distribution has nylon rope 213, and is durable, long service life, the bottom of nylon rope 213 is fixed and is equipped with sampling device 23, hoist mechanism 4 locates paying out machine constructs 2, the bottom of paying out machine and push out machine constructs 2, the lifting mechanism's front end adjusts the lift mechanism.

In a further improvement, the power supply device 11 is electrically connected to the driving motor 22, the power supply device 237, the electric telescopic device 31 and the cylinder 41, and supplies power to a plurality of devices for use, and the side portion of the power supply device 11 is electrically connected to the control panel 111, so that intelligent operation through the control panel 111 is facilitated.

In a further improvement, one side of the rotating shaft 211 is rotatably connected with a bearing 212, the bearing 212 is fixedly arranged at the inner side end of the fixing frame 21 to stably support and rotate to prevent jamming, the other side of the rotating shaft 211 is connected with a driving motor 22 in a penetrating manner, the driving motor 22 is fixedly arranged at the outer side end of the fixing frame 21, and the driving motor 22 automatically controls the rotating shaft 211 to rotate to take up or pay off wires.

Further improved, the sampling device 23 comprises a sample cylinder 231, a miniature gas tank 232, an electric push rod device 235 and a balancing weight 239, the sample cylinder 231 is arranged at two ends inside the sampling device 23, a water source sample is collected through the sample cylinder 231, a groove 2311 is formed in the top of the sample cylinder 231, the electric push rod device 235 is arranged at two sides of the sample cylinder 231, the top of the electric push rod device 235 is connected with a push rod 2351, the push rod 2351 is connected with a cover plate 233 in a penetrating manner, the automatic control cover plate 233 is fixed inside the groove 2311 in a lifting manner and is sealed, a remote control device 236 is arranged inside the sampling device 23, the bottom of the remote control device 236 is electrically connected with a power supply device 237, the remote control device 236 is electrically connected with the electric push rod device 235, power supply remote operation is stabilized, the miniature gas tank 232 is arranged at the lower end inside the sampling device 23, the outer side of the miniature gas tank 232 is connected with a solenoid valve 2321, the outer end of the solenoid valve 2321 is connected in a penetrating manner, the automatic control exhaust pipe 2322 through the solenoid valve 2321, gas is discharged through the electromagnetic valve 2322, gas is released so as to reduce the gravity, so as to sample the water source at different positions, the balancing weight 239, and facilitate automatic control sampling.

In a further improvement, the specification of the cover plate 233 is the same as that of the groove 2311, the sealing gasket 234 is bonded to the bottom of the cover plate 233, the sealing performance is high, the bottom of the nylon rope 213 is fixedly provided with the fixing block 238, the fixing block 238 is fixedly arranged at the middle end of the top of the sampling device 23, and the cover plate 233 is convenient to stretch and close when water enters.

Further improved, telescopic machanism 3 is including electronic telescoping device 31 and telescopic link 32, and the welding of the rear end of electronic telescoping device 31 has first extension post 311, and the rear end of first extension post 311 rotates and is connected with first pivot seat 312, and first pivot seat 312 is installed in the front end of power supply unit 11, and the steady support activity is adjusted, and telescopic link 32 is connected in the front end of electronic telescoping device 31, and telescopic link 32 is fixed in the rear end of mount 21, but the flexible adjusting position of automated control mount 21.

Specifically, the lifting mechanism 4 includes an air cylinder 41 and an air pressure rod 42, a second extending column 411 is welded to the lower end of the air cylinder 41, the lower end of the second extending column 411 is rotatably connected with a second rotating shaft seat 412, an extending plate 413 is welded to the bottom of the front end of the cart base 1, the lower end of the second rotating shaft seat 412 is installed at the bottom of the front end of the cart base 1 and at the front end of the extending plate 413, the air pressure rod 42 is connected to the upper end of the air cylinder 41, a third extending column 421 is welded to the upper end of the air pressure rod 42, a third rotating shaft seat 422 is rotatably connected to the upper end of the third extending column 421, the third rotating shaft seat 422 is installed at the middle end of the bottom of the fixing frame 21, and the height of the fixing frame 21 can be automatically controlled to lift and adjust.

The working principle is as follows: the handle 121 is held, the cart base 1 is pushed by the push rod 12 to move on the ground stably through the moving wheel 13, and the hydraulic and geological exploration cart is suitable for the hydrogeological exploration of a bank water source;

through intelligent control of a control panel 111 at the side end of the power supply device 11, power is supplied to the driving motor 22, the power supply device 237, the electric telescopic device 31 and the air cylinder 41;

starting the electric telescopic device 31, automatically controlling the telescopic rod 32 to stretch and regulate, and enabling the whole pay-off mechanism 2 to move back and forth to adjust the position, wherein the electric telescopic device is suitable for being used above a water source;

meanwhile, the cylinder 41 is started, and the air pressure rod 42 is automatically controlled to stretch, so that the whole paying-off mechanism 2 is lifted, moved and adjusted in height, and is movably adjusted through the first rotating shaft seat 312, the second rotating shaft seat 412 and the third rotating shaft seat 422, and the clamping is prevented;

starting the driving motor 22, automatically controlling the rotation of the rotating shaft rod 211 to enable the nylon rope 213 to be subjected to paying-off treatment, enabling the sampling device 23 to descend and adjust, and entering the underwater sampling operation;

the water is sunk into the water under the action of a balancing weight 239 at the bottom of the sampling device 23, is remotely connected and controlled by a remote control device 236 and is supplied with power to an electric push rod device 235 and an electromagnetic valve 2321 through a power supply device 237;

the electric push rod device 235 at one end is started to automatically control the push rod 2351 to ascend, so that the cover plate 233 and the sealing gasket 234 ascend, sample water is obtained from the inside of the sample cylinder 231, and then the push rod 2351 is automatically controlled to descend, so that the cover plate 233 and the sealing gasket 234 descend and are sealed in the groove 2311 for detection;

starting the electromagnetic valve 2321, controlling the micro gas tank 232 to open and exhaust gas through the exhaust pipe 2322, reducing the overall gravity of the sampling device 23, enabling the sampling device 23 to move upwards for a certain distance, and controlling the exhaust amount as required;

the electric push rod device 235 at the other end is started to automatically control the push rod 2351 to ascend, so that the cover plate 233 and the sealing gasket 234 ascend, the sampling water is obtained from the inside of the sample cylinder 231, and then the push rod 2351 is automatically controlled to descend, so that the cover plate 233 and the sealing gasket 234 descend and are sealed inside the groove 2311 for detection;

and finally, the driving motor 22 is started again, the rotating shaft rod 211 is automatically controlled to rotate reversely, the nylon rope 213 is wound up, the sampling device 23 is lifted up, accommodated and adjusted, the trolley body is moved manually, and the sampling device 23 is recovered.

The cart base 1, the power supply device 11, the control panel 111, the push rod 12, the handle 121, the moving wheel 13, the cross bar 131, the pillar 132, the paying-off mechanism 2, the fixing frame 21, the rotating shaft rod 211, the bearing 212, the nylon rope 213, the driving motor 22, the sampling device 23, the sample cylinder 231, the groove 2311, the micro gas tank 232, the solenoid valve 2321, the exhaust pipe 2322, the cover plate 233, the gasket 234, the electric push rod device 235, the push rod 2351, the remote control device 236, the power supply device 237, the fixing block 238, the counterweight 239, the telescoping mechanism 3, the electric telescoping device 31, the first extension column 311, the first rotating shaft seat 312, the telescoping rod 32, the lifting mechanism 4, the cylinder 41, the second extension column 411, the second rotating shaft seat 412, the extension plate 413, the pneumatic rod 42, the third extension column 421 and the third rotating shaft seat 422 are all universal standard parts or parts known by technicians, the structures and principles of which are known by technical manuals or by conventional experimental methods can all know that the water quality control and adjust the sampling position and the water automatically, increase the difficulty of taking-out of the sampling device, and detect the sinking of water quality of water, and detect the water sources in water by a simple or by a simple and water sampling mechanism.

While there have been shown and described what are at present considered to be the basic principles and essential features of the invention and advantages thereof, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics 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.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (7)

1. The utility model provides a water source sampling test device for hydrogeological survey, includes shallow base (1), paying out machine structure (2), telescopic machanism (3) and hoist mechanism (4), its characterized in that: the trolley is characterized in that a power supply device (11) is arranged at the rear end of the top of the trolley base (1), a push rod (12) is welded at the rear end of the trolley base (1), a handle (121) is welded at the upper end of the push rod (12), a support column (132) is welded at the corner end of the bottom of the trolley base (1), a cross rod (131) is welded at the bottom of the support column (132), a moving wheel (13) is connected to the outer side of the cross rod (131) in a rotating mode, a telescopic mechanism (3) is connected to the front end of the power supply device (11), the front portion of the telescopic mechanism (3) is arranged in the paying-off mechanism (2), the paying-off mechanism (2) comprises a fixing frame (21), the fixing frame (21) is of a U-shaped structure, a rotating shaft rod (211) is arranged inside the fixing frame (21), a nylon rope (213) is distributed around the outer portion of the rotating shaft rod (211), a sampling device (23) is fixedly arranged at the bottom of the nylon rope (213), and the lifting mechanism (4) is arranged at the bottom of the paying-off mechanism (2) and the front end of the trolley base (1).

2. The water source sampling and detection device for hydrogeological exploration according to claim 1, wherein: the power supply equipment (11) is electrically connected to the driving motor (22), the power supply device (237), the electric telescopic device (31) and the air cylinder (41), and the side part of the power supply equipment (11) is electrically connected with the control panel (111).

3. The water source sampling and detection device for hydrogeological exploration according to claim 1, wherein: one side of the rotating shaft rod (211) is rotatably connected with a bearing (212), the bearing (212) is fixedly arranged at the inner side end of the fixing frame (21), the other side of the rotating shaft rod (211) is connected with a driving motor (22) in a penetrating manner, and the driving motor (22) is fixedly arranged at the outer side end of the fixing frame (21).

4. The water source sampling and detecting device for hydrogeological exploration according to claim 1, wherein: sampling device (23) is including sample section of thick bamboo (231), miniature gas pitcher (232), electric putter device (235) and balancing weight (239), the inside both ends of sampling device (23) are seted up in sample section of thick bamboo (231), recess (2311) are seted up at the top of sample section of thick bamboo (231), the both sides of sample section of thick bamboo (231) are located in electric putter device (235), the top of electric putter device (235) is connected with push rod (2351), push rod (2351) through connection has apron (233), the inside of sampling device (23) is equipped with remote control device (236), the bottom electric connection of remote control device (236) has power supply unit (237), remote control device (236) electric connection in electric putter device (235), the inboard lower extreme of sampling device (23) is located in miniature gas pitcher (232), the outside of miniature gas pitcher (232) is connected with solenoid valve (2321), the outer end through connection of solenoid valve (2321) has blast pipe (2322), the balancing weight (239) are fixed in the bottom of locating sampling device (23).

5. The water source sampling test device for hydrogeological exploration, as claimed in claim 4, wherein: the specification of the cover plate (233) is the same as that of the groove (2311), a sealing gasket (234) is bonded to the bottom of the cover plate (233), a fixing block (238) is fixedly arranged at the bottom of the nylon rope (213), and the fixing block (238) is fixedly arranged at the middle end of the top of the sampling device (23).

6. The water source sampling and detection device for hydrogeological exploration according to claim 1, wherein: telescopic machanism (3) have including electric telescopic device (31) and telescopic link (32), the rear end welding of electric telescopic device (31) has first extension post (311), the rear end of first extension post (311) is rotated and is connected with first pivot seat (312), the front end in power supply unit (11) is installed in first pivot seat (312), telescopic link (32) are connected in the front end of electric telescopic device (31), the rear end of mount (21) is fixed to telescopic link (32).

7. The water source sampling and detection device for hydrogeological exploration according to claim 1, wherein: elevating system (4) are including cylinder (41) and air pressure pole (42), the lower extreme welding of cylinder (41) has the second to extend post (411), the lower extreme that the second extended post (411) rotates and is connected with second pivot seat (412), and the front end bottom welding of shallow base (1) has extension board (413), the lower extreme of second pivot seat (412) is installed in the front end bottom of shallow base (1) and the front end of extension board (413), air pressure pole (42) are connected in the upper end of cylinder (41), the upper end welding of air pressure pole (42) has third to extend post (421), the upper end rotation that the third extended post (421) is connected with third pivot seat (422), third pivot seat (422) are installed in the bottom middle end of mount (21).

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