CN211063636U - Equipment for automatically monitoring water level of well - Google Patents

Abstract

An apparatus for automatically monitoring well water level, characterized in that: the equipment consists of a frame unit, an electric cabinet, a winding unit, an origin unit, a cycloid unit, a control unit, a server and a computer; the rotating shaft and the motor are supported by the frame unit, the motor drives the rotating shaft to rotate and wind wires, the electric wires penetrate through the center of the rotating shaft and the center of the shaft and axially extend out to be connected with the rotating conductive slip ring, and the rotating conductive slip ring transmits a signal of the falling end of the electric wires conducted by water to the control unit; the cycloid unit drives the cycloid frame to rotate by an angle through the auxiliary motor, so that the electric wire is inclined when wound, and climbing force is provided to ensure that the electric wire is wound in a full circle; the other part of the original point unit is fixed on the swinging frame; the control unit controls the return to the original point, the electric wire is lowered, the electric wire is contacted with water to obtain data, and the wire is wound on a full circle under the assistance of the cycloid unit; the control card sends the data to the server, and the server uploads the data to the computer for viewing.

Description

Equipment for automatically monitoring water level of well

Technical Field

The utility model relates to an equipment of automatic monitoring well water level, its affiliated field is the geological exploration trade, to deep well periodic automated inspection, and can constitute a long-range unified equipment and method that detects, gathers, the processing data.

Background

In the geological exploration industry, underground water level is often explored and detected, and water level explorationists below each provincial level at present adopt the traditional mode, namely, a wire with a plumb is connected with a buzzer, the wire is extended into a deep well, two wire ends are conductive, and the wire is determined to touch the water surface, so that the water level height is obtained; the national resource ministry adopts more advanced equipment, and the pressure probe is put into a deep well, but the probe working condition requirement is strict, and the probe must be equipped with a unique deep well, the deep well can only be adapted to the probe to measure, and equipment for pumping water such as a water pump and a pipe cannot be arranged, domestic networking exploration has the condition of few network points and high cost.

Disclosure of Invention

In order to liberate the manpower, replace traditional manual equipment through automatic equipment, in order to solve the high cost of probe measurement method, all possess full automated inspection in order to realize all ordinary wells, gather, the ability of handling, the utility model provides an automatic detect deep well water level's built-in equipment directly through setting up other automatic operation, replaces the people manual, the high frequency, the short period, big density, real-time detection is underground water resource situation all over the country, reduces equipment cost, reduces the cycle length of manpower detection data, and is slow untimely, and it is high to solve probe detection cost, problem of non-commonality.

The utility model discloses a following technical scheme realizes:

an apparatus for automatically monitoring well water level, characterized in that: the equipment consists of a frame unit, an electric cabinet, a winding unit, an origin unit, a cycloid unit, a control unit, a server and a computer; the rotating shaft and the motor are supported by the frame unit, the motor drives the rotating shaft to rotate and wind wires, all parts of the electric cabinet are coordinated, the limiting ball is fixed on the electric wire and can trigger the limiting switch on the cycloid frame to return to the original point, one end of the electric wire is fixed with a pendant, the other end of the electric wire is wound on the rotating shaft, the electric wire penetrates through the center of the rotating shaft and the shaft and axially extends out to be connected with the rotating conductive sliding ring, the rotating conductive sliding ring is respectively connected with the rotating shaft support and the rotating shaft, and the rotating conductive sliding ring transmits a signal which is conducted; the cycloid unit drives the cycloid frame to rotate by an angle through the auxiliary motor, so that the electric wire is inclined when wound, and has a climbing force, thereby ensuring that the electric wire is wound in a full circle without a gap between the electric wire and the electric wire; the other part of the original point unit is fixed on the swinging frame; the control unit controls the return to the original point, the electric wire is lowered, the electric wire is contacted with water to obtain data, and the wire is wound on a full circle under the assistance of the cycloid unit; the control card comprises a temperature detection module, a communication transmission module, a geographical positioning module, a data processing module and a function expansion module, receives and processes data of meter detection, temperature detection, geographical positioning and power-on time judgment protection, sends the data to the server, and the server uploads the data to the computer for checking.

The frame unit consists of a rotating shaft bracket, a motor bracket, a cycloid bracket support, a chassis, a shield, a battery box area and a support; the rotating shaft has a winding function, the middle of the rotating shaft penetrates through a shaft, the rotating shaft is fixed with the shaft, and two ends of the shaft are connected with the rotating shaft bracket through bearings; the motor bracket fixes the motor, the motor is fixed with one end of the shaft through the coupling, the motor rotates, and the shaft and the rotating shaft rotate so as to wind the electric wire; the cycloid frame support is fixed below the rotating shaft, an auxiliary motor is fixed below the cycloid frame support and can rotate forward and backward, and the auxiliary motor penetrates through the cycloid frame support to extend out of a shaft of the auxiliary motor; the upper surface of the wire swinging frame support is provided with a wire swinging frame which is fixed with the auxiliary motor shaft to realize angle rotation change; the rotating shaft support, the motor support and the line swinging frame support are fixed on the underframe, the underframe supports the equipment, and the rotating shaft support and the motor support are provided with center holes and are concentric; the electric cabinet area is fixed with the electric cabinet; the protective cover protects the equipment; the support supports the fixture.

The electric cabinet is fixed in an electric cabinet area of the frame unit, and a circuit breaker, a transformer, a power line, a phase sequence protector, a control card, a terminal strip and a driver are arranged on the electric cabinet; the transformer transforms the high voltage electricity into the required low voltage; the circuit breaker controls the on-off of the main circuit; the control card processes the instruction; the power line supplies power to the equipment; a driver driving motor; the terminal block distributes voltage; the phase sequence protector is connected with a lower circuit of the electric brake of the water well, when the water well works, the phase sequence protector is electrified, the normally closed contact of the phase sequence protector is converted into a normally open contact, and the control card judges whether the equipment stops working and detects when time is delayed, so that the water level is detected after the water level rises.

The winding unit consists of a motor, a rotating shaft, a coupling, a shaft, a rotating conductive slip ring, an electric wire and a line swinging frame; the motor is provided with a band-type brake; the rotating shaft is an I-shaped rotating shaft, the shaft penetrates through the rotating shaft and is fixed, and the rotating shaft is provided with a transverse hole and an axial hole; the shaft is provided with a transverse hole 2 and an axial hole 2, the transverse hole of the rotating shaft corresponds to the transverse hole of the shaft, and a threading wire can enter the center of the shaft from the rotating shaft and then extend out of the axial hole 2 of the shaft; the electric wire passes through the line swinging frame, the electric wire is wound on the rotating shaft, one end of the electric wire passes through the transverse hole of the rotating shaft, the transverse hole 2 of the shaft and the axial hole 2 of the shaft and is connected with a lead at one end of the rotating conductive slip ring, a lead at the other end of the rotating conductive slip ring is connected with the control card, the rotating conductive slip ring is respectively connected with the rotating shaft bracket and the shaft of the rotating shaft, and the rotating conductive slip ring transmits an electric signal conducted by the falling object end in water to; the cycloid unit drives the cycloid frame to rotate by an angle through the auxiliary motor, so that the climbing force is generated when the electric wire is wound, the electric wire is wound in a full circle, and no gap is reserved between the electric wires; the motor is connected with the shaft through a coupling, and the shaft is fixed with the rotating shaft; the line swinging frame can swing left and right by a certain angle by taking the axis of the auxiliary motor as a center, so that certain climbing force is brought to a winding line.

The origin unit is fixed on the line swinging frame and structurally comprises the line swinging frame, a long shaft 1, a long shaft 2, a long roller 1, a long roller 2, a mandril hole, a long shaft elliptical hole, a long shaft circular hole, a limit switch, an electric wire, a limit ball and a control card; the cycloid frame is concave, a pair of long-axis round holes and a pair of long-axis elliptical holes are arranged in the front half part of the cycloid frame, the long axis 1 and the long axis 2 respectively penetrate through the long-axis elliptical holes and the long-axis round holes, the long roller 1 and the long roller 2 respectively penetrate through the long axis 1 and the long axis 2, and the width which is larger than the diameter of the wire and smaller than the diameter of the limiting ball is arranged between the two rollers; a jack rod hole is arranged at one end of the front half part of the cycloid frame and vertically penetrates through the longitudinal half part of the elliptical hole with the long axis; the ejector rod is placed in the ejector rod hole, and the limit switch is fixed on the ejector rod hole; fixing a limiting ball on the electric wire; the wire passes through the two rollers; when the limiting ball touches the roller and continues to rise, the long shaft 1 can be pulled up along with the limiting ball from the bottom of the long shaft elliptical hole and moves to the top of the long shaft elliptical hole, the long shaft 1 pushes the ejector rod to jack up, the ejector rod jacks the limiting switch, the limiting switch is normally opened and normally closed, and control card origin zero resetting instruction triggering is realized; when the wire is discharged, the limiting ball leaves the two long rollers, the long shaft 1 is restored to the bottom of the elliptical hole of the long shaft, and the limiting is normally opened.

The cycloid unit comprises a cycloid frame, a cycloid frame support, an auxiliary motor and an electric wire; the cycloid frame is in a concave shape, a cycloid frame shaft hole is formed in the middle of the rear half part of the cycloid frame, the auxiliary motor is fixed below the cycloid frame support, a shaft of the auxiliary motor is fixed with the cycloid frame shaft hole, the auxiliary motor rotates for a certain angle, and the cycloid frame also rotates for a certain angle; the electric wire passes through the cycloid frame, and the certain angle of cycloid frame rotation makes the electric wire transversely have an angle with the pivot at pivot winding in-process, makes the winding have the tiltmotive, carries out the climbing state, twines in the pivot, guarantees that the electric wire is full circle winding, and the space does not remain between the line, and the electric wire spring layer when appropriate, and the cycloid frame rotates certain angle to the opposite direction, commutates to guarantee that no matter the electric wire is from a left side to a right side, or from a right side to a left side, all is the climbing state.

The control unit comprises a control card, an electric cabinet and a touch screen; the control unit equipment is provided with a touch screen and can display and operate the equipment on site; the control card has the functions of temperature sensing detection, GPS, data monitoring and equipment safety state; under control of the control card, the cooperation among the parts is as follows: when the preset specified time is up, the motor opens the internal contracting brake, the motor rotates, the rotating shaft winds upwards to return to the original point, the original point returns slowly, when the limiting ball touches the limiting switch, the normal opening is changed into the normal closing, the data is stopped, the data is recorded, the data is put down for a certain distance again, the data is obtained by the slow pull-up and touch again, and the average number of the data of the two times is taken as 0 point; after the original point is returned, the motor drives the rotating shaft to lower the wire until the rotating shaft touches the water surface, the wire is in a channel, the motor stops rotating, the driver obtains the number of pulses to be sent to the control card, and data are packed; the motor is wound, and a cycloid unit is adopted to ensure that the electric wire is fully wound and layered; the cycloid units jump to layers at proper time and perform reversing, so that the wires are in a climbing state no matter from left to right or from right to left; the limit ball returns to a certain distance from the limit switch and stops; then, the local temperature, the detection data, the geographic position and the safety state information are sent to a server and are checked by a computer; when the well works, the phase sequence protector is electrified, the normally open contact and the normally closed contact are switched to be used as triggers, whether the equipment stops working or not is judged through the control card, and when the equipment is delayed to detect, so that the water level is detected in a static water level state instead of a false water level which is pumped by the water pump.

The utility model has the advantages of it is following and beneficial effect:

in the geological exploration industry, underground water level is often explored and detected, and water level explorationists below each provincial level at present adopt the traditional mode, namely, a wire with a plumb is connected with a buzzer, the wire is extended into a deep well, two wire ends are conductive, and the wire is determined to touch the water surface, so that the water level height is obtained; the national resource ministry adopts more advanced equipment, the pressure probe is put into a deep well, but the working condition of the probe is strict, the probe is required to be provided with a unique deep well, the deep well can only be matched with the probe for measurement, and devices for pumping water such as a water pump and a pipe can not be arranged, domestic networking exploration is realized, and the conditions of few network points and high cost exist; in order to liberate manpower, traditional manual equipment is replaced by automatic equipment, the high cost of a probe measuring method is solved, and the full-automatic detection, acquisition and processing capabilities of all common wells are realized, the utility model provides a built-in equipment for automatically detecting the water level of a deep well, which directly replaces manual operation, high frequency, small period and large density by setting up automatic operation, detects the underground water resource conditions all over the country in real time, reduces the equipment cost, reduces the period length of manpower detection data, is slow and untimely, and solves the problems of high cost and non-universality of probe detection; the utility model discloses can carry out timely analysis processes with national data, be convenient for accomplish timely effectual understanding to internal ground water level situation.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts;

FIG. 1 is an assembly view of the apparatus for automatically monitoring well water levels;

FIG. 2 is an exploded view of the apparatus for automatically monitoring well water levels;

FIG. 3 is a schematic view of the equipment well; a water well 1 b;

FIG. 4 is a schematic view of the frame of the apparatus; the device comprises a frame unit 1a, a rotating shaft support 1a-1, a motor support 1a-2, a central hole 1a-1-1 cycloid frame support 1a-3, an underframe 1a-4, a shield 1a-5, a box area 1a-6 and a support 1 a-7;

FIG. 5 is a schematic view of a winding unit of the apparatus; the winding device comprises a winding unit 1c, a rotating shaft 1c-1, a transverse hole 1c-1-1, an axial hole 1c-1-2, a motor 1c-2, a wire 1c-3, a shaft 1c-4, a transverse hole 21 c-4-1, an axial hole 21 c-4-2, a rotary conductive slip ring 1c-5, a coupling 1c-6 and a bearing 1 c-7;

FIG. 6 is a schematic diagram of an origin unit of the apparatus; the device comprises an origin unit 1d, a limiting ball 1d-1, a long shaft 11 d-2, a long shaft 21d-3, a long roller 11 d-4, a long roller 21 d-5, a mandril 1d-6, a mandril hole 1d-7, a long shaft elliptical hole 1d-8, a long shaft circular hole 1d-9 and a limiting switch 1 d-10;

FIG. 7 is a schematic diagram of a control unit of the apparatus; the system comprises a control unit 1f, a control card 1f-1, an electric cabinet 1f-2, a circuit breaker 1f-3, a transformer 1f-4, a power line 1f-5, a phase sequence protector 1f-6, a terminal strip 1f-7, a driver 1f-8 and a touch screen 1 f-9;

figure 8 is a schematic view of a gerotor cell of the device; a cycloid element 1 e; a swinging wire frame 1e-1, a swinging wire frame shaft hole 1e-2, an auxiliary motor 1e-3, an auxiliary motor 1e-4 and an auxiliary motor shaft 1 e-4-1;

FIG. 9 is a schematic view of the equipment wire module, wires 1 c-3; a limiting ball 1d-1 and a falling object 1 e-3;

FIG. 10 is a control schematic of the apparatus; 1g of a server and 1h of a computer;

FIG. 11 is a schematic view of the transverse and axial bores of the rotating shaft 1c-1 and shaft 1c-4 of the apparatus.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the technical solutions of the present invention will be described in detail below; obviously, the described embodiments are only a part of the embodiments of the present invention, and not all of them; based on the embodiments of the present invention, all other embodiments obtained by those skilled in the art without creative efforts belong to the protection scope of the present invention; in addition, the technical idea scheme and method of the present invention are protected, other technicians slightly deform the structure shape and wipe the edge ball, but the structure scheme and method of the physical property and principle are the same, namely fall into the scope of the patent claims; in the deep well detection field, all be based on the frame, can lean on the utility model discloses measuring method measures the water level, can transmit data to the server to the computer end can receive the processing data, all belongs to the utility model discloses the category if do little change, do not break away from its definition, still constitute infringement.

An apparatus for automatically monitoring well water level, characterized in that: the equipment consists of a frame unit 1a, an electric cabinet 1f-2, a winding unit 1c, an origin unit 1d, a cycloid unit 1e, a control unit 1f, a server 1g and a computer 1 h; the rotating shaft 1c-1 and the motor 1c-2 are supported through the frame unit 1a, the motor 1c-2 drives the rotating shaft 1c-1 to wind wires in a rotating manner, all parts of the electric cabinet 1f-2 are coordinated, the limiting ball 1d-1 is fixed on the electric wire 1c-3, the limiting switch 1d-10 on the swinging wire frame 1e-1 can be triggered to return to the original point, the pendant 1e-3 is fixed at one end of the electric wire 1c-3, the other end of the electric wire 1c-3 is wound on the rotating shaft 1c-1, the electric wire 1c-3 penetrates through the center of the rotating shaft 1c-1 and the shaft 1c-4 and is axially stretched out to be connected with the rotating conductive slip ring 1c-5, the rotating conductive slip ring 1c-5 is respectively connected with the rotating shaft support 1a-1 and the rotating shaft 1c-1, and the rotating conductive slip ring 1c-5 transmits signals of the pendant 1e- A unit 1 f; the cycloid unit 1e drives the cycloid frame 1e-1 to rotate by an angle through the auxiliary motor 1e-4, so that the electric wire 1c-3 is inclined when being wound, and has climbing force, thereby ensuring that the electric wire 1c-3 is wound in a full circle and no gap is reserved between the electric wire 1c-3 and the electric wire 1 c-3; the other part of the origin unit 1d is fixed on the cycloid frame 1 e-1; the control unit 1f controls the wire 1c-3 to be lowered to the original point, the wire 1c-3 is contacted with water to obtain data, and the wire is wound on a full circle under the assistance of the cycloid unit 1 e; the control card 1f-1 comprises a temperature detection module, a communication transmission module, a geographical positioning module, a data processing module and a function expansion module, the control card 1f-1 receives and processes data of meter number detection, temperature detection, geographical positioning and power-on time judgment protection, the data are sent to the server 1g, and the server 1g uploads the data to the computer 1h for checking.

The frame unit consists of a rotating shaft bracket 1a-1, a motor bracket 1a-2, a line swinging bracket 1a-3, an underframe 1a-4, a shield 1a-5, a cabinet area 1a-6 and a support 1 a-7; the rotating shaft 1c-1 has a winding function, a shaft 1c-4 penetrates through the middle of the rotating shaft 1c-1, the rotating shaft 1c-1 is fixed with the shaft 1c-4, and two ends of the shaft 1c-4 are connected with the rotating shaft support 1a-1 through bearings 1 c-7; the motor support 1a-2 fixes the motor 1c-2, the motor 1c-2 is fixed with one end of the shaft 1c-4 through the coupling 1c-6, the motor 1c-2 rotates, and the shaft 1c-4 and the rotating shaft 1c-1 rotate, so that the electric wire 1c-3 is wound; the swinging wire rack support 1a-3 is fixed below the rotating shaft 1c-1, an auxiliary motor 1e-4 is fixed below the swinging wire rack support 1a-3 and can rotate forward and backward, and the auxiliary motor 1e-4 penetrates through the swinging wire rack support 1a-3 to upwards extend out of the auxiliary motor shaft 1 e-4-1; a swinging wire frame 1e-1 is arranged on the swinging wire frame support 1a-3, and the swinging wire frame 1e-1 is fixed with the auxiliary motor shaft 1e-4-1 to realize angle rotation change; the rotating shaft support 1a-1, the motor support 1a-2 and the line swinging frame support 1a-3 are fixed on the bottom frame 1a-4, the bottom frame 1a-4 supports equipment, and the rotating shaft support 1a-1 and the motor support 1a-2 are provided with center holes 1a-1-1 which are concentric; the electric cabinet area 1a-6 is fixed with an electric cabinet 1 f-2; the shields 1a-5 protect the equipment; the supports 1a-7 support the fixture.

The electric cabinet 1f-2 is fixed in an electric cabinet area 1a-6 of the frame unit 1a, a circuit breaker 1f-3, a transformer 1f-4, a power line 1f-5, a phase sequence protector 1f-6, a control card 1f-1, a terminal block 1f-7 and a driver 1f-8 are mounted on the electric cabinet 1 f-2; the transformer 1f-4 transforms the high voltage electricity into the required low voltage; the circuit breaker 1f-3 controls the on-off of the main circuit; the control card 1f-1 processes the instruction; the power line 1f-5 supplies power to the equipment; the driver 1f-8 drives the motor 1 c-2; terminal rows 1f-7 distribute voltage; when the well 1b works, the phase sequence protector 1f-6 is electrified, the normally open contact and the normally closed contact are switched to be used as triggers, whether the equipment stops working or not is judged through the control card 1f-1, and when the equipment is detected in a delayed mode, so that the water level is detected in a static water level state instead of a false water level which is pumped by the water pump.

The winding unit 1c consists of a motor 1c-2, a rotating shaft 1c-1, a coupling 1c-6, a shaft 1c-4, a rotary conductive slip ring 1c-5, an electric wire 1c-3 and a line swinging frame 1 e-1; the motor 1c-2 is provided with a band-type brake; the rotating shaft 1c-1 is an I-shaped rotating shaft 1c-1, the shaft 1c-4 penetrates through the rotating shaft 1c-1 and is fixed, and the rotating shaft 1c-1 is provided with a transverse hole 1c-1-1 and an axial hole 1 c-1-2; the shaft 1c-4 is provided with a transverse hole 21 c-4-1 and an axial hole 21 c-4-2, the transverse hole 1c-1-1 of the rotating shaft corresponds to the transverse hole 1c-4-1 of the shaft, and the rotating shaft can be threaded to enter the center of the shaft 1c-4 from the rotating shaft 1c-1 and then extend out of the axial hole 21 c-4-2 of the shaft 1 c-4; the electric wire 1c-3 penetrates through the line swinging frame 1e-1, the electric wire 1c-3 is wound on the rotating shaft 1c-1, one end of the electric wire 1c-3 penetrates through the transverse hole 1c-1-1 of the rotating shaft 1c-1, the transverse hole 21 c-4-1 of the shaft 1c-4 and the axial hole 21 c-4-2 of the shaft 1c-4, the electric wire is extended out to be connected with one end of the rotating conductive slip ring 1c-5 through a lead, the other end of the rotating conductive slip ring 1c-5 is connected with the control card 1f-1, the rotating conductive slip ring 1c-5 is respectively connected with the rotating shaft bracket 1a-1 and the shaft 1c-4 of the rotating shaft 1c-1, and the rotating conductive slip ring 1c-5 transmits an electric signal conducted by the end of the line weight 1e-3 when; the cycloid unit 1e drives the cycloid frame 1e-1 to rotate by an angle through the auxiliary motor 1e-4, so that the electric wire 1c-3 has climbing force when being wound, the electric wire 1c-3 is ensured to be wound in a full circle, and no gap is left between the electric wires; the motor 1c-2 is connected with the shaft 1c-4 through a coupling 1c-6, and the shaft 1c-4 is fixed with the rotating shaft 1 c-1; the swinging wire frame 1e-1 can swing left and right by a certain angle by taking the center of the auxiliary motor shaft 1e-4-1 as a center, so as to bring certain climbing force to the winding wire.

The origin unit 1d is fixed on the cycloid frame 1e-1 and structurally comprises the cycloid frame 1e-1, a long shaft 11 d-2, a long shaft 21d-3, a long roller 11 d-4, a long roller 21 d-5, a mandril 1d-6, a mandril hole 1d-7, a long shaft elliptical hole 1d-8, a long shaft circular hole 1d-9, a limit switch 1d-10, an electric wire 1c-3, a limit ball 1d-1 and a control card 1 f-1; the cycloid frame 1e-1 is concave, a pair of long-axis circular holes 1d-9 are formed in the front half part of the cycloid frame 1e-1, a pair of long-axis elliptical holes 1d-8 are formed, a long axis 11 d-2 and a long axis 21d-3 respectively penetrate through the long-axis elliptical holes 1d-8, the long-axis circular holes 1d-9, a long roller 11 d-5 and a long roller 21 d-6 respectively penetrate through the long axis 11 d-2 and the long axis 21d-3, and the width which is larger than the diameter of a wire and smaller than the diameter of the limiting ball 1d-1 is formed between the two rollers; a push rod hole 1d-7 is arranged on one end of the front half part of the cycloid frame 1e-1 and vertically penetrates through the long half part of the long-axis elliptical hole 1 d-8; the ejector rod 1d-6 is placed in the ejector rod hole 1d-7, and the limit switch 1d-10 is fixed on the ejector rod hole 1 d-7; fixing a limiting ball 1d-1 on the wire 1 c-3; the electric wire 1c-3 passes through the two rollers; when the limiting ball 1d-1 touches the roller and continues to rise, the long shaft 11 d-2 is pulled up from the bottom of the long shaft elliptical hole 1d-8 along with the limiting ball 1d-1 and moves to the top of the long shaft elliptical hole 1d-8, the long shaft 11 d-2 pushes the ejector rod 1d-6 to be ejected upwards, the ejector rod 1d-6 is ejected to the limiting switch 1d-10, the limiting switch 1d-10 is normally opened and normally closed, and the zero return instruction triggering of the origin of the control card 1f-1 is realized; when the discharge wire 1c-3 is down, the limiting ball 1d-1 leaves the two long rollers, the long shaft 11 d-2 is restored to the bottom of the long shaft elliptical hole 1d-8, and the limiting is normally open.

The cycloid unit 1e comprises a cycloid frame 1e-1, cycloid frame supports 1a-3, an auxiliary motor 1e-4 and wires 1 c-3; the cycloid frame 1e-1 is concave, a cycloid frame shaft hole 1e-2 is formed in the middle of the rear half part of the cycloid frame 1e-1, an auxiliary motor 1e-4 is fixed below the cycloid frame support 1a-3, an auxiliary motor shaft 1e-4-1 is fixed with the cycloid frame shaft hole 1e-2, the auxiliary motor 1e-4 rotates for a certain angle, and the cycloid frame 1e-1 also rotates for a certain angle; the electric wire 1c-3 penetrates through the line swinging frame 1e-1, the line swinging frame 1e-1 rotates for a certain angle, the electric wire 1c-3 enables the electric wire 1c-3 and the rotating shaft 1c-1 to transversely form an angle in the winding process of the rotating shaft 1c-1, the winding has an inclination force, the electric wire is wound on the rotating shaft 1c-1 to ensure that the electric wire 1c-3 is wound in a full circle without gaps among the electric wires, the electric wire 1c-3 jumps layers when appropriate, the line swinging frame 1e-1 rotates for a certain angle in the opposite direction to carry out reversing, and therefore the electric wire 1c-3 is ensured to be in a climbing state no matter the electric wire 1c-3 is in a climbing state from left to right or from right to left.

The control unit 1f comprises a control card 1f-1, an electric cabinet 1f-2 and a touch screen 1 f-9; the control unit 1f equipment is provided with a touch screen 1f-9 and can display and operate the equipment on site; the control card 1f-1 has the functions of temperature sensing detection, GPS, data monitoring and equipment safety state; under the control of the control card 1f, the cooperation among the components is: when the preset specified time is up, the motor 1c-2 opens the brake, the motor 1c-2 rotates, the rotating shaft 1c-1 is wound upwards to return to the original point, the original point returns slowly, when the limiting ball 1d-1 touches the limiting switch 1d-10, the normally open state is changed into the normally closed state, the stopping is carried out, data is recorded, the data is placed for a certain distance again, the data is obtained by pulling up slowly and touching again, and the average number of the data for two times is taken as 0 point; after the original point is returned, the motor 1c-2 drives the rotating shaft 1c-1 to lower the electric wire 1c-3 until the rotating shaft touches the water surface, the electric wire 1c-3 is connected, the motor 1c-2 stops rotating, the driver 1f-7 obtains the pulse number to be sent to the control card 1f-1, and data are packed; the motor 1c-2 is wound, and in order to ensure that the electric wire 1c-3 is a full circle and a full layer, a cycloid unit 1e is adopted; the cycloid unit 1e jumps layer by layer at a proper time to carry out reversing, so that the electric wire 1c-3 is ensured to be in a climbing state no matter from left to right or from right to left; the limit ball 1d-1 returns to a certain distance from the limit switch 1d-10 and stops; then, the local temperature, the detection data, the geographical position and the safety state information are sent to a server 1g and checked by a computer 1 h; when the well 1b works, the phase sequence protector 1f-6 is electrified, the normally open contact and the normally closed contact are switched to be used as triggers, whether the equipment stops working or not is judged through the control card 1f-1, and when the equipment is detected in a delayed mode, so that the water level is detected in a static water level state instead of a false water level which is pumped by the water pump.

Claims (14)

1. An apparatus for automatically monitoring well water level, characterized in that: the equipment consists of a frame unit, an electric cabinet, a winding unit, an origin unit, a cycloid unit, a control unit, a server and a computer; the rotating shaft and the motor are supported by the frame unit, the motor drives the rotating shaft to rotate and wind wires, all parts of the electric cabinet are coordinated, the limiting ball is fixed on the electric wire and can trigger the limiting switch on the cycloid frame to return to the original point, one end of the electric wire is fixed with a pendant, the other end of the electric wire is wound on the rotating shaft, the electric wire penetrates through the center of the rotating shaft and the shaft and axially extends out to be connected with the rotating conductive sliding ring, the rotating conductive sliding ring is respectively connected with the rotating shaft support and the rotating shaft, and the rotating conductive sliding ring transmits a signal which is conducted; the cycloid unit drives the cycloid frame to rotate by an angle through the auxiliary motor, so that the electric wire is inclined when wound, and has a climbing force, thereby ensuring that the electric wire is wound in a full circle without a gap between the electric wire and the electric wire; the other part of the original point unit is fixed on the swinging frame; the control unit controls the wire to return to the original point, the wire is lowered, the wire touches water to obtain data, and the wire is wound on a full circle under the assistance of the cycloid unit; the control card comprises a temperature detection module, a communication transmission module, a geographical positioning module, a data processing module and a function expansion module, receives and processes data of meter detection, temperature detection, geographical positioning and power-on time judgment protection, sends the data to the server, and the server uploads the data to the computer for checking.

2. An apparatus for automatically monitoring well water levels as defined in claim 1, wherein: the frame unit comprises pivot support, motor support, cycloid frame holds in the palm, chassis, guard shield, the circuit box district, support.

3. An apparatus for automatically monitoring well water levels as defined in claim 2, wherein: the rotating shaft has a winding function, the middle of the rotating shaft penetrates through a shaft, the rotating shaft is fixed with the shaft, and two ends of the shaft are connected with the rotating shaft support through bearings.

4. An apparatus for automatically monitoring well water levels as defined in claim 2, wherein: the motor is fixed to the motor support, the motor is fixed with one end of the shaft through the shaft coupling, the motor rotates, and the shaft and the rotating shaft rotate to wind electric wires.

5. An apparatus for automatically monitoring well water levels as defined in claim 2, wherein: the cycloid frame support is fixed below the rotating shaft, an auxiliary motor is fixed below the cycloid frame support and can rotate forward and backward, and the auxiliary motor penetrates through the cycloid frame support to move upwards to extend out of a shaft of the auxiliary motor; the upper surface of the wire swinging frame support is provided with a wire swinging frame which is fixed with the auxiliary motor shaft to realize angle rotation change.

6. An apparatus for automatically monitoring well water levels as defined in claim 2, wherein: the rotating shaft support, the motor support and the line swinging frame support are fixed on the underframe, the underframe supports the equipment, and the rotating shaft support and the motor support are provided with center holes and are concentric; the electric cabinet area is fixed with the electric cabinet; the protective cover protects the equipment; the support supports the fixture.

7. An apparatus for automatically monitoring well water levels as defined in claim 1, wherein: the electric cabinet is fixed in the electronic box district of frame element, installs circuit breaker, transformer, power cord on the electric cabinet, and the phase sequence protector, control card, terminal row, driver.

8. An apparatus for automatically monitoring well water levels as defined in claim 7, wherein: the phase sequence protector is connected with a lower circuit of the electric brake of the water well, when the water well works, the phase sequence protector is electrified, the normally closed contact of the phase sequence protector is converted into a normally open contact, and the control card judges whether the equipment stops working and detects when time is delayed, so that the water level is detected after the water level rises.

9. An apparatus for automatically monitoring well water levels as defined in claim 1, wherein: the winding unit consists of a motor, a rotating shaft, a coupling, a shaft, a rotating conductive slip ring, an electric wire and a line swinging frame.

10. An apparatus for automatically monitoring well water levels as defined in claim 9, wherein: the motor is provided with a band-type brake; the rotating shaft is an I-shaped rotating shaft, the shaft penetrates through the rotating shaft and is fixed, and the rotating shaft is provided with a transverse hole and an axial hole; a transverse hole 2 and an axial hole 2 are arranged in the shaft center, the transverse hole of the rotating shaft corresponds to the transverse hole of the shaft, a threading wire can enter the shaft center from the rotating shaft and then extend out of the axial hole 2 of the shaft; the electric wire passes through the line swinging frame, the electric wire is wound on the rotating shaft, one end of the electric wire passes through the transverse hole of the rotating shaft, the transverse hole 2 of the shaft and the axial hole 2 of the shaft and is connected with a lead at one end of the rotating conductive slip ring, a lead at the other end of the rotating conductive slip ring is connected with the control card, the rotating conductive slip ring is respectively connected with the rotating shaft bracket and the shaft of the rotating shaft, and the rotating conductive slip ring transmits an electric signal conducted by the falling object end in water to; the motor is connected with the shaft through a coupling, and the shaft is fixed with the rotating shaft; the line swinging frame can swing left and right by a certain angle by taking the axis of the auxiliary motor as a center, so that certain climbing force is brought to a winding line.

11. An apparatus for automatically monitoring well water levels as defined in claim 1, wherein: the origin unit is fixed on the line swinging frame and structurally comprises the line swinging frame, a long shaft 1, a long shaft 2, a long roller 1, a long roller 2, a mandril hole, a long shaft elliptical hole, a long shaft circular hole, a limit switch, an electric wire, a limit ball and a control card.

12. An apparatus for automatically monitoring well water levels as defined in claim 11, wherein: the cycloid frame is concave, a pair of long-axis round holes and a pair of long-axis elliptical holes are arranged in the front half part of the cycloid frame, the long axis 1 and the long axis 2 respectively penetrate through the long-axis elliptical holes and the long-axis round holes, the long roller 1 and the long roller 2 respectively penetrate through the long axis 1 and the long axis 2, and the width which is larger than the diameter of the wire and smaller than the diameter of the limiting ball is arranged between the two rollers; a jack rod hole is arranged at one end of the front half part of the cycloid frame and vertically penetrates through the longitudinal half part of the elliptical hole with the long axis; the ejector rod is placed in the ejector rod hole, and the limit switch is fixed on the ejector rod hole; fixing a limiting ball on the electric wire; the wire passes through the two rollers; when the limiting ball touches the roller and continues to rise, the long shaft 1 can be pulled up along with the limiting ball from the bottom of the long shaft elliptical hole and moves to the top of the long shaft elliptical hole, the long shaft 1 pushes the ejector rod to jack up, the ejector rod jacks the limiting switch, the limiting switch is normally opened and normally closed, and the control card receives a signal to realize returning to the original point; when the wire is discharged, the limiting ball leaves the two long rollers, the long shaft 1 is restored to the bottom of the elliptical hole of the long shaft, and the limiting is restored to the normally open state.

13. An apparatus for automatically monitoring well water levels as defined in claim 1, wherein: the cycloid unit comprises a cycloid frame, a cycloid frame support, an auxiliary motor and an electric wire; the cycloid frame is in a concave shape, a cycloid frame shaft hole is formed in the middle of the rear half part of the cycloid frame, the auxiliary motor is fixed below the cycloid frame support, a shaft of the auxiliary motor is fixed with the cycloid frame shaft hole, the auxiliary motor rotates for a certain angle, and the cycloid frame also rotates for a certain angle; the electric wire passes through the cycloid frame, and the certain angle of cycloid frame rotation makes the electric wire transversely have an angle with the pivot at pivot winding in-process, makes the winding have the tiltmotive, carries out the climbing state, twines in the pivot, guarantees that the electric wire is full circle winding, and the space does not remain between the line, and the electric wire spring layer when appropriate, and the cycloid frame rotates certain angle to the opposite direction, commutates to guarantee that no matter the electric wire is from a left side to a right side, or from a right side to a left side, all is the climbing state.

14. An apparatus for automatically monitoring well water levels as defined in claim 1, wherein: the control unit comprises a control card, an electric cabinet and a touch screen; the control unit equipment is provided with a touch screen and can display and operate the equipment on site.

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