CN110725799B - Permanent magnet shielding in-pipe pump based on cloud service and sharing system thereof - Google Patents

Abstract

The invention discloses a cloud service-based permanent magnet shielding tube in-pump and a sharing system thereof, belonging to the field of permanent magnet shielding tube in-pump, the cloud service-based permanent magnet shielding tube in-pump comprises a permanent magnet shielding tube in-pump body, a special-shaped mounting frame comprises a reinforcing column and a mounting foot, the end part of the reinforcing column penetrates through a through hole and is chiseled with a mounting groove, a two-position integrated detection piece is connected in the mounting groove, the sharing system comprises a cloud server and an auxiliary control system, a positioning system is additionally arranged on the tube in-pump body and is connected with the cloud server to form sharing, the failed tube in-pump can be accurately positioned, the failure reason and the failure elimination method of the tube in-pump each time are recorded and uploaded to the cloud end, the corresponding elimination method can be rapidly and automatically screened out when similar failures occur in the later period, the failures are enabled to be transparent, and the maintenance process is promoted, the expertise of those skilled in the art may also be increased by the sharing of troubleshooting methods.

Description

Permanent magnet shielding in-pipe pump based on cloud service and sharing system thereof

Technical Field

The invention relates to the field of pumps in permanent magnet shielding pipes, in particular to a cloud service-based pump in a permanent magnet shielding pipe and a sharing system thereof.

Background

The pump-in-pipe water supply equipment is novel water supply equipment which is released on the basis of common non-negative pressure water supply equipment. Except that the water supply equipment has all the functional characteristics of common non-negative pressure water supply equipment, the product shows the design concept of environmental protection, sanitation, low noise and no disturbance to people. The motor is a full stainless steel water-filled motor, no pollution is caused to water quality, and main flow passage components of the motor are all made of food-grade materials such as 304 stainless steel. The equipment structure forms a closed system, the permanent magnet variable frequency motor is sealed in an independent space, the shielding cavity is formed by stainless steel, one part of heat generated by the permanent magnet variable frequency motor is directly conducted to the shielding sleeve and the motor shell, the other part of heat can be scattered in the redundant space of the shielding cavity and then conducted to the shielding sleeve and the motor shell, and finally the heat is taken away through cold water. Therefore, the operation is noiseless, and the water quality is pollution-free. It is easy to see that the product will become one of the widest devices for secondary pressurized water supply.

The pump in the past uses a common alternating current motor, an inner rotor of the pump is provided with an excitation coil, current is needed to pass through the excitation coil to generate a magnetic field, and the pump is low in efficiency, high in energy consumption and high in temperature. And permanent magnetism shielding motor (outer tube, driver (permanent magnetism frequency conversion) is provided with in the permanent magnetism shielding tube pump in, is provided with permanent magnetism shielding motor (outer end is provided with the outer tube): the permanent magnet frequency conversion motor is used for softening water (purifying water bodies), replaces a fixed frequency motor and a conventional frequency conversion motor, can save energy and protect environment more, is silent, healthy, green and environment-friendly, saves energy by 30 percent (the characteristic of the permanent magnet motor), is provided with a permanent magnet magnetic pole on a rotor, can maintain the magnetic field without external energy, has no iron loss, and is high in efficiency, low in consumption and small in temperature rise. The material of the internal guide vane bearing is changed from original rubber to polytetrafluoroethylene, and the material of the impeller shaft sleeve is changed from original stainless steel to ceramic (a maintenance-free water lubrication bearing system).

With the enhancement of environmental awareness and the progress of production technology, water supply equipment has gradually become silent, a pump group in a pipe can be used as a part of water supply equipment without a pump in a negative pressure silent pipe, wherein an inlet confluence pipe is connected with tap water, an outlet confluence pipe is connected with a user, so as to carry out secondary water supply, if one pump in the pipe is operated and the other pump in the pipe leaks water, and meanwhile, when the water consumption of the user is small or no water is used, the flow pressurized by the operation pump can return to the inlet confluence pipe through the other pump, so that the circulation time is long and the temperature of liquid in a sound insulation sleeve is increased to damage a motor of a submersible electric pump, the Chinese patent application No. CN201620405305.5 provides a laminated water supply equipment with a pump in a silent pipe, the laminated water supply equipment with a pump in a silent pipe is provided with a temperature sensor in each sound insulation sleeve to detect the water temperature in the sound insulation sleeve, and the detected water temperature is transmitted to a control, in addition, the pump group in the pipe in the pump water supply equipment in the laminated type mute pipe is installed in a laminated manner, the occupied area is small compared with the common horizontal installation, the gravity center is low in vibration and low in noise compared with the vertical installation equipment, in addition, a sound absorption coating and a protective layer are additionally arranged outside the sound insulation sleeve in the water supply equipment, the noise of the pump in the mute pipe is further reduced, and the pump water supply equipment in the laminated type mute pipe has the advantages of good noise reduction performance and high safety factor.

Compared with a pump in a pipe under a common environment, the pump in a pipe applied to an underground deep well is easy to break down, the maintenance work is very complicated, generally, people can hardly determine the failure reason of the pump in the pipe at the deep well on the ground, the maintenance preparation is difficult, in addition, the failure reasons of the pump in the pipe are more, even different geographic environments can bring different failures, the removing methods of different failures are different, maintenance workers are difficult to integrate all the failure removing methods, and the maintenance brings greater challenges.

Disclosure of Invention

Technical problem to be solved

Aiming at the problems in the prior art, the invention aims to provide a permanent magnet shielding pump in pipe based on cloud service and a sharing system thereof, wherein a positioning system is additionally arranged on a pump body in pipe and is connected with a cloud server to form sharing, the pump in pipe with a fault can be accurately positioned, the fault reason and the fault removing method of the pump in pipe are recorded and uploaded to the cloud end every time, the corresponding removing method can be rapidly and automatically selected conveniently when similar faults occur in the later period, so that the faults are transparent, the maintenance process is promoted, and the professional skills of technicians in the field can be improved through the sharing of the maintenance fault method; in addition, the pressure sensing system can be convenient for maintainers to remotely monitor the stability of the pump in the pipe in the deep well.

(II) technical scheme

In order to solve the above problems, the present invention adopts the following technical solutions.

A cloud service-based permanent magnet shielding pipe pump comprises a permanent magnet shielding pipe pump body, wherein the permanent magnet shielding pipe pump body comprises a stainless steel shell with a transmission shaft penetrating through the inner end, a permanent magnet rotor is arranged on the inner side of the stainless steel shell and connected with the transmission shaft, a threaded shaft is arranged on the upper side of the permanent magnet rotor and sleeved on the transmission shaft, motor end cover bases are connected to the upper end and the lower end of the stainless steel shell, a sand throwing ring is arranged on the upper side of the stainless steel shell and connected with the upper end of the motor end cover bases, a controller is connected to the side end of the stainless steel shell, a plurality of special-shaped mounting frames are connected to the side end, away from the controller, of the stainless steel shell, and are evenly distributed at the side end of the stainless steel shell, each special-shaped mounting frame comprises a reinforcing column and a mounting foot, and the reinforcing column and the mounting foot are fixedly connected with the stainless steel, installation foot middle part is excavated there is the through-hole, the tip of reinforcement post runs through the through-hole and is excavated there is the mounting groove, be connected with two-position integrative detection piece in the mounting groove, two-position integrative detection piece includes pressure sensor and GPS locator, and the GPS locator is located the mounting groove tank bottom, and a plurality of pressure sensor constitute pressure sensing system, and a plurality of GPS locators constitute GPS positioning system, and its shared system includes cloud ware and auxiliary control system, two-position integrative detection piece is connected with cloud ware through auxiliary control system, the tip that stainless steel casing was kept away from to the installation foot is excavated there is the preformed hole, and is a plurality of be equipped with anti-shake mechanism between the dysmorphism mounting bracket, it adds positioning system on the intraductal pump body to be connected formation sharing with cloud ware, can pinpoint the intraductal pump of trouble, pump trouble in the pipe every time pump trouble, The fault reason and the fault elimination method are recorded and uploaded to the cloud, so that the corresponding elimination method can be rapidly and automatically screened conveniently in the later period when similar faults occur, the faults are transparent, the maintenance process is promoted, and the professional skills of technicians in the field can be improved through the sharing of the fault maintenance method; in addition, the pressure sensing system can be convenient for maintainers to remotely monitor the stability of the pump in the pipe in the deep well.

Furthermore, the auxiliary control system comprises a storage unit and an auxiliary control unit, the pump-in-pipe faults, fault reasons and fault removing methods of the pump-in-pipe faults and the fault reasons are recorded by the storage unit and uploaded to the cloud end through the auxiliary control unit every time, so that the corresponding removing methods can be rapidly and automatically screened out conveniently when similar faults occur in the later period, the faults are transparent, the maintenance process is promoted, and the professional skills of technicians in the field can be improved through the sharing of the maintenance fault methods.

Furthermore, the anti-shaking mechanism comprises a shaking-proof base, a pair of transverse shaking-proof blocks and a pair of longitudinal shaking-proof blocks, the shaking-proof base is fixedly connected with the side end of the stainless steel shell, the transverse shaking-proof blocks and the longitudinal shaking-proof blocks are both connected to one end face, far away from the stainless steel shell, of the shaking-proof base, the pair of transverse shaking-proof blocks are respectively connected to the upper end and the lower end of the shaking-proof base, the pair of longitudinal shaking-proof blocks are respectively connected to the left end and the right end of the shaking-proof base, and the pair of transverse shaking-proof blocks and the pair of longitudinal shaking-proof blocks respectively form counter forces for.

Further, the transverse anti-shaking block comprises a transverse buffer plate and a plurality of wedge-shaped transverse anti-shaking strips, the transverse buffer plate is fixedly connected with the anti-shaking base, and the wedge-shaped transverse anti-shaking strips are uniformly and fixedly connected to the surface of the transverse buffer plate from top to bottom; the longitudinal anti-shaking block comprises a longitudinal buffer plate and a plurality of wedge-shaped longitudinal anti-shaking strips, the longitudinal buffer plate is fixedly connected with the anti-shaking base, and the wedge-shaped longitudinal anti-shaking strips are uniformly and fixedly connected to the surface of the longitudinal buffer plate from left to right; it is a pair of the inclined plane that the strip was shaken in the horizontal anti inclined plane of wedge on the horizontal buffer plate sets up mutually, and is a pair of the inclined plane that the strip was vertically anti shaken in the wedge on the vertical buffer plate sets up mutually equally mutually, and the anti strip inclined plane that shakes of both sides sets up mutually and forms the counter force of triangular supports, utilizes triangular steadiness principle reinforcing anti shake ability of shaking of anti strip.

Further, the strip is trembled to horizontal anti shaking of wedge and the strip inboard is all connected with vibration sensor to vertical anti shaking of wedge, and vibration sensor is connected with the cloud ware through auxiliary control system, when the pump takes place to vibrate in the pipe, vibration sensor can detect the strip is trembled to horizontal anti shaking of wedge and the vertical anti even vibration of trembling on the strip of wedge, when vibration surpasses artifical default, the memory cell takes notes this data, auxiliary control unit uploads the vibration data that vibration sensor detected to the cloud ware, the vibration condition of pump in the pipe can be known in real time to the user, be convenient for in time take the maintenance measure.

Furthermore, a plurality of vibration sensors adopt a mutual parallel connection mode, and when a single vibration sensor fails, the vibration sensors cannot mutually influence each other.

Further, it is a plurality of two integrative detection pieces number alone respectively, guarantee that every pressure sensor and GPS locator have independent reference numeral, convenient accurate positioning, in addition, the pressure sensor and the GPS locator that possess a plurality of independent serial numbers on the pump can further carry out accurate positioning to the not hard up position on this intraductal pump in the same pipe, further accelerate to overhaul the process, two integrative detection pieces adopt the connected mode that connects in parallel each other, when pressure sensor or the GPS locator trouble in the integrative detection piece of single two, can not influence each other.

(III) advantageous effects

Compared with the prior art, the invention has the advantages that:

(1) according to the scheme, the positioning system is additionally arranged on the in-pipe pump body and is connected with the cloud server to form sharing, the in-pipe pump with the fault can be accurately positioned, the fault reason and the fault removing method of the in-pipe pump every time are recorded and uploaded to the cloud end, the corresponding removing method can be rapidly and automatically screened conveniently when similar faults are met in the later period, the faults are made transparent, the maintenance process is promoted, and the professional skills of technicians in the field can be improved through the sharing of the fault removing method; in addition, the pressure sensing system can be convenient for maintainers to remotely monitor the stability of the pump in the pipe in the deep well.

(2) The auxiliary control system comprises a storage unit and an auxiliary control unit, the pump-in-pipe faults, fault reasons and fault removing methods of the pump-in-pipe faults and the fault reasons are recorded by the storage unit every time and uploaded to the cloud end through the auxiliary control unit, so that the corresponding removing methods can be rapidly and automatically screened out conveniently when similar faults occur in the later period, the faults are transparent, the maintenance process is promoted, and the professional skills of technicians in the field can be improved through the sharing of the maintenance fault methods.

(3) Anti-shake mechanism includes the antivibration base, a pair of horizontal anti-shake piece and a pair of vertical anti-shake piece, antivibration base and stainless steel casing side fixed connection, horizontal anti-shake piece and vertical anti-shake piece all connect on the terminal surface that stainless steel casing was kept away from to the antivibration base, and a pair of horizontal anti-shake piece is connected both ends about the antivibration base respectively, a pair of vertical anti-shake piece is connected both ends about the antivibration base respectively, a pair of horizontal anti-shake piece and a pair of vertical anti-shake piece are to the horizontal shake and the vertical shake formation counter force of pump in the geminate transistors respectively.

(4) The strip inboard all is connected with the vibration sensor to the horizontal anti strip of trembling of wedge and the vertical anti strip inboard of trembling of wedge, and the vibration sensor is connected with the cloud ware through auxiliary control system, when the pump takes place the vibration in the pipe, the vibration sensor can detect the horizontal anti strip of trembling of wedge and the vertical anti strip of trembling of wedge and carry on the vibration, when vibration exceedes artifical default, the memory cell takes notes this data, auxiliary control unit uploads the vibration data that the vibration sensor detected to the cloud ware, the vibration condition of pump in the pipe can be known in real time to the user, be convenient for in time take maintenance measures.

(5) A plurality of vibration sensor adopt the connected mode of connecting in parallel each other, when single vibration sensor trouble, can not influence each other, a plurality of two-bit integrative detection piece number alone respectively, guarantee that every pressure sensor and GPS locator have independent reference numeral, convenient accurate positioning, in addition, pressure sensor and GPS locator that possess a plurality of independent numbers on the pump can further carry out accurate positioning to the not hard up position on this intraductal pump in the same pipe, further accelerate to overhaul the process, two-bit integrative detection piece adopts the connected mode of connecting in parallel each other, when pressure sensor or the GPS locator trouble in the single two-bit integrative detection piece, can not influence each other.

Drawings

FIG. 1 is a front perspective view of the pump-in-tube of the present invention;

FIG. 2 is a rear perspective view of the pump-in-tube of the present invention;

FIG. 3 is a schematic view of the structure at A in FIG. 2;

FIG. 4 is a schematic view of the structure at A1 in FIG. 3;

FIG. 5 is a schematic view of the structure at B in FIG. 2;

FIG. 6 is a schematic view of the structure at C in FIG. 2;

FIG. 7 is a schematic top view of the pump in tube of the present invention;

FIG. 8 is a schematic diagram of a positioning system of the present invention;

FIG. 9 is a schematic structural diagram of a pressure sensing system of the present invention;

FIG. 10 is a diagram of a sharing system of the present invention;

FIG. 11 is a cross-sectional view of the pump-in-tube of the present invention.

The reference numbers in the figures illustrate:

1 stainless steel casing, 2 controllers, 3 special-shaped mounting brackets, 31 reinforcement columns, 32 installation feet, 33 preformed holes, 4 anti-vibration bases, 5 horizontal anti-shaking blocks, 51 horizontal buffer plates, 52 wedge horizontal anti-shaking strips, 6 vertical anti-shaking blocks, 61 vertical buffer plates, 62 wedge vertical anti-shaking strips, 7 two-position integrated detection pieces, 8 permanent magnet rotors, 9 threaded shafts, 10 sand throwing rings, 11 transmission shafts and 12 motor end cover bases.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention; it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and all other embodiments obtained by those skilled in the art without any inventive work are within the scope of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "top/bottom", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

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

Example 1:

referring to fig. 11, a cloud service-based permanent magnet shield tube-in-tube pump includes a permanent magnet shield tube-in-tube pump body, the permanent magnet shield tube-in-tube pump body includes a stainless steel casing 1 having a transmission shaft 11 penetrating through an inner end thereof, a permanent magnet rotor 8 is disposed inside the stainless steel casing 1, the permanent magnet rotor 8 is connected to the transmission shaft 11, a threaded shaft 9 is disposed on an upper side of the permanent magnet rotor 8, the threaded shaft 9 is sleeved on the transmission shaft 11, motor end cover bases 12 are connected to upper and lower ends of the stainless steel casing 1, a sand slinger 10 is disposed on an upper side of the stainless steel casing 1, and the sand slinger 10 is connected to an upper end of the motor end;

referring to fig. 1, 2 and 7, a controller 2 is connected to a side end of a stainless steel casing 1, a plurality of special-shaped mounting frames 3 are connected to a side end of the stainless steel casing 1 far away from the controller 2, the plurality of special-shaped mounting frames 3 are uniformly arranged at the side end of the stainless steel casing 1, each special-shaped mounting frame 3 comprises a reinforcing column 31 and a mounting foot 32, the reinforcing column 31 and the mounting foot 32 are fixedly connected with the stainless steel casing 1, a through hole is drilled in the middle of the mounting foot 32, an end portion of the reinforcing column 31 penetrates through the through hole and is drilled with a mounting groove, a two-position integrated detector 7 is connected in the mounting groove, the two-position integrated detector 7 comprises a pressure sensor and a GPS locator, and the GPS locator is located at the bottom;

referring to fig. 10 and 9, a plurality of pressure sensors form a pressure sensing system, and referring to fig. 8, a plurality of GPS locators form a GPS positioning system, the sharing system comprises a cloud server and an auxiliary control system, the two-position integrated detection piece 7 is connected with the cloud server through the auxiliary control system, the end part of the installation foot 32 far away from the stainless steel shell 1 is provided with a reserved hole 33, an anti-shaking mechanism is arranged among a plurality of special-shaped installation frames 3, a positioning system is additionally arranged on the pump body in the pipe and is connected with the cloud server to form sharing, the in-pipe pump with faults can be accurately positioned, the in-pipe pump faults, fault reasons and fault removing methods thereof are recorded and uploaded to the cloud end every time, so that the corresponding removing methods can be rapidly and automatically screened out conveniently when similar faults occur in the later period, the fault is transparent, the maintenance process is promoted, and the professional skills of technicians in the field can be improved through the sharing of the fault maintenance method; in addition, the pressure sensing system can be convenient for maintainers to remotely monitor the stability of the pump in the pipe in the deep well.

The auxiliary control system comprises a storage unit and an auxiliary control unit, the pump-in-pipe faults, fault reasons and fault removing methods of the pump-in-pipe faults and the fault reasons are recorded by the storage unit every time and uploaded to the cloud end through the auxiliary control unit, so that the corresponding removing methods can be rapidly and automatically screened out conveniently when similar faults occur in the later period, the faults are transparent, the maintenance process is promoted, and the professional skills of technicians in the field can be improved through the sharing of the maintenance fault methods.

Please refer to fig. 2, the anti-shaking mechanism includes a vibration-proof base 4, a pair of transverse shaking-proof blocks 5 and a pair of longitudinal shaking-proof blocks 6, the vibration-proof base 4 is fixedly connected to the side end of the stainless steel casing 1, the transverse shaking-proof blocks 5 and the longitudinal shaking-proof blocks 6 are both connected to the end surface of the vibration-proof base 4 far away from the stainless steel casing 1, the transverse shaking-proof blocks 5 are respectively connected to the upper and lower ends of the vibration-proof base 4, the longitudinal shaking-proof blocks 6 are respectively connected to the left and right ends of the vibration-proof base 4, and the transverse shaking-proof blocks 5 and the longitudinal shaking-proof blocks 6 respectively form counter forces to the transverse shaking and the longitudinal.

Referring to fig. 5, the transverse anti-shake block 5 includes a transverse buffer plate 51 and a plurality of wedge-shaped transverse anti-shake bars 52, the transverse buffer plate 51 is fixedly connected to the anti-vibration base 4, and the wedge-shaped transverse anti-shake bars 52 are uniformly and fixedly connected to the surface of the transverse buffer plate 51 from top to bottom; referring to fig. 3 and 4, the longitudinal anti-shake block 6 includes a longitudinal buffer plate 61 and a plurality of wedge-shaped longitudinal anti-shake bars 62, the longitudinal buffer plate 61 is fixedly connected to the anti-vibration base 4, and the wedge-shaped longitudinal anti-shake bars 62 are uniformly and fixedly connected to the surface of the longitudinal buffer plate 61 from left to right; the inclined plane that the strip 52 was transversely resisted to wedge on a pair of horizontal buffer plate 51 sets up mutually back of the body, and the inclined plane that the strip 62 was vertically resisted to wedge on a pair of vertical buffer plate 61 sets up mutually equally mutually back of the body, and the anti strip inclined plane that shakes of both sides sets up mutually back of the body and forms the counter force that the triangular supports, utilizes triangular steadiness principle reinforcing anti shake ability of shaking of anti strip.

Please refer to fig. 5, the inner sides of the wedge-shaped transverse anti-vibration strip 52 and the wedge-shaped longitudinal anti-vibration strip 62 are connected with vibration sensors, and the vibration sensors are connected with the cloud server through an auxiliary control system, when the pump in the pipe vibrates, the vibration sensors can detect the associated vibration on the wedge-shaped transverse anti-vibration strip 52 and the wedge-shaped longitudinal anti-vibration strip 62, when the vibration exceeds an artificial preset value, the storage unit records the data, the auxiliary control unit uploads the vibration data detected by the vibration sensors to the cloud server, a user can know the vibration condition of the pump in the pipe in real time, and the maintenance measures can be taken in time.

The storage unit stores vibration data and pressure data and also stores corresponding time, and maintainers can judge whether excessive vibration occurs first or loosening of mounting screws of the maintainers occurs first by observing the vibration data and the pressure data and the corresponding time sequence of the vibration data and the pressure data, so as to judge whether the pump in the pipe vibrates due to self failure or vibration due to loosening of the mounting screws of the maintainers, thereby facilitating the adoption of corresponding maintenance preparation according to different conditions; the specific judgment method comprises the following steps: when the time corresponding to the vibration data is before the time corresponding to the pressure data, the fact that the pump in the pipe vibrates due to self faults is described, the vibration of the pump causes the loosening of a mounting screw of the pump to generate the pressure data; when the time corresponding to the vibration data is after the time corresponding to the pressure data, it is described that the pump in the pipe vibrates due to the looseness of the mounting screw of the pump in the pipe, the looseness of the mounting screw of the pump in the pipe leads to the deterioration of the stability of the pump in the pipe, and the vibration effect generated by the work of the working device inside the pump is strengthened, leading to the vibration of the pump in the whole pipe.

A plurality of vibration sensors adopt the connected mode of being connected in parallel, and when single vibration sensor trouble, can not influence each other.

A plurality of two integrative detection pieces 7 number alone respectively, guarantee that every pressure sensor and GPS locator have independent reference numeral, convenient accurate positioning, in addition, the last pressure sensor and the GPS locator that possess a plurality of independent numbers of pump can further carry out accurate positioning to the not hard up position on this intraductal pump in the same pipe, further accelerate to overhaul the process, two integrative detection pieces 7 adopt the connected mode of connecting in parallel each other, when pressure sensor or the GPS locator trouble in the integrative detection piece 7 of single two positions, can not influence each other.

Compared with the traditional in-pipe pump, the positioning system is additionally arranged on the in-pipe pump body and connected with the cloud server to form sharing, the in-pipe pump with the fault can be accurately positioned, each time the in-pipe pump fault, the fault reason and the fault removing method are recorded and uploaded to the cloud end, the corresponding removing method can be rapidly and automatically screened conveniently when similar faults occur in the later period, the faults are enabled to be transparent, the maintenance process is promoted, and the professional skills of technicians in the field can be improved through the sharing of the maintenance fault method; in addition, the pressure sensing system can be convenient for maintainers to remotely monitor the stability of the pump in the pipe in the deep well.

The foregoing is only a preferred embodiment of the present invention; the scope of the invention is not limited thereto. Any person skilled in the art should be able to cover the technical scope of the present invention by equivalent or modified solutions and modifications within the technical scope of the present invention.

Claims (8)

1. The utility model provides a pump in permanent magnetism shielding pipe based on cloud, includes pump body in the permanent magnetism shielding pipe, its characterized in that: the permanent magnet shielding pipe middle pump body comprises a stainless steel shell (1) with a transmission shaft (11) penetrating through the inner end, a permanent magnet rotor (8) is arranged on the inner side of the stainless steel shell (1), the permanent magnet rotor (8) is connected with the transmission shaft (11), a threaded shaft (9) is arranged on the upper side of the permanent magnet rotor (8), the transmission shaft (11) is sleeved with the threaded shaft (9), motor end cover bases (12) are connected to the upper end and the lower end of the stainless steel shell (1), a sand throwing ring (10) is arranged on the upper side of the stainless steel shell (1), the sand throwing ring (10) is connected with the upper end of the motor end cover bases (12), a controller (2) is connected to the side end of the stainless steel shell (1), a plurality of special-shaped mounting frames (3) are connected to the side of the stainless steel shell (1) far away from the controller (2), and the plurality of special-shaped mounting frames (3) are uniformly distributed, the special-shaped mounting rack (3) comprises a reinforcing column (31) and mounting feet (32), the reinforcing column (31) and the mounting feet (32) are fixedly connected with the stainless steel shell (1), a through hole is drilled in the middle of the mounting feet (32), the end of the reinforcing column (31) penetrates through the through hole and is drilled with a mounting groove, a two-position integrated detection piece (7) is connected into the mounting groove, the two-position integrated detection piece (7) comprises a pressure sensor and a GPS (global positioning system) locator, the GPS locator is positioned at the bottom of the mounting groove, a reserved hole (33) is drilled in the end, far away from the stainless steel shell (1), of the mounting feet (32), and an anti-shaking mechanism is arranged between the special-shaped mounting racks (3);

the anti-shaking mechanism comprises a shaking-proof base (4), a pair of transverse shaking-proof blocks (5) and a pair of longitudinal shaking-proof blocks (6), the shaking-proof base (4) is fixedly connected with the side end of the stainless steel shell (1), the transverse shaking-proof blocks (5) and the longitudinal shaking-proof blocks (6) are both connected to one end face, away from the stainless steel shell (1), of the shaking-proof base (4), the pair of transverse shaking-proof blocks (5) are respectively connected to the upper end and the lower end of the shaking-proof base (4), and the pair of longitudinal shaking-proof blocks (6) are respectively connected to the left end and the right end of the shaking-proof base (4);

horizontal anti-shake piece (5) are including horizontal buffer board (51) and a plurality of horizontal anti-shake strip (52) of wedge, horizontal buffer board (51) and antivibration base (4) fixed connection, it is a plurality of the strip (52) are transversely resisted to shake to wedge top-down even fixed connection in horizontal buffer board (51) surface.

2. The cloud service-based permanent magnet shielded in-tube pump of claim 1, wherein: the sharing system comprises a cloud server and an auxiliary control system, and the two-in-one detection piece (7) is connected with the cloud server through the auxiliary control system.

3. The cloud service-based permanent magnet shielded tube-in-tube pump and the sharing system thereof according to claim 2, wherein: the auxiliary control system comprises a storage unit and an auxiliary control unit.

4. The cloud service-based permanent magnet shielded in-tube pump of claim 1, wherein: vertical anti-shake piece (6) are including vertical buffer plate (61) and the vertical anti-shake strip (62) of a plurality of wedges, vertical buffer plate (61) and antivibration base (4) fixed connection, it is a plurality of the strip (62) are vertically anti-shake to wedge from the left side to the right side even fixed connection in vertical buffer plate (61) surface.

5. The cloud service-based permanent magnet shielded in-tube pump of claim 4, wherein: the inclined planes of the wedge-shaped transverse anti-shake strips (52) on the pair of transverse buffer plates (51) are arranged oppositely, and the inclined planes of the wedge-shaped longitudinal anti-shake strips (62) on the pair of longitudinal buffer plates (61) are also arranged oppositely.

6. The cloud service-based permanent magnet shielded tube-in-tube pump and the sharing system thereof according to claim 1 or 5, wherein: the inner sides of the wedge-shaped transverse anti-shaking strips (52) and the wedge-shaped longitudinal anti-shaking strips (62) are connected with vibration sensors, and the vibration sensors are connected with a cloud server through an auxiliary control system.

7. The cloud service-based permanent magnet shielded in-tube pump of claim 6, wherein: the vibration sensors are connected in parallel.

8. The cloud service-based permanent magnet shielded in-tube pump of claim 1, wherein: the two-position integrated detection pieces (7) are respectively numbered independently, and the two-position integrated detection pieces (7) are connected in parallel.

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