CN110469518B - Intelligent deep well pump with automatic power-off protection mechanism - Google Patents

Abstract

The invention discloses an intelligent deep well pump with an automatic power-off protection mechanism, which comprises a cylinder connecting pipe, a cylinder base, a water lifting pipe, a first chuck and a second chuck, wherein the water lifting pipe is fixedly arranged on the outer surface of the upper end of the cylinder connecting pipe; the intelligent deep well pump with the automatic power-off protection mechanism has the advantages that the intelligent deep well pump is provided with the automatic power-off protection structure, the safety is improved, the intelligent deep well pump is provided with the three-section type combined fixing structure, the difficulty in installation, maintenance and operation is reduced, and the intelligent deep well pump is convenient for a user to operate.

Description

Intelligent deep well pump with automatic power-off protection mechanism

Technical Field

The invention belongs to the technical field of deep well pump devices, particularly relates to an intelligent deep well pump, and more particularly relates to an intelligent deep well pump with an automatic power-off protection mechanism.

Background

The deep well pump is characterized in that the motor and the pump are integrated into a whole, the deep well pump is a pump which is immersed in an underground water well to suck and convey water, and is widely applied to farmland irrigation and drainage, industrial and mining enterprises, urban water supply and drainage, sewage treatment and the like.

Compared with the invention, the high-efficiency deep-well pump disclosed in the reference document CN106968967B comprises a water pump main body, a water pump controller, an impeller and a main shaft, wherein a top cover is arranged at the top end of the water pump main body, and a through hole which penetrates through the top cover and can enable the main shaft to pass through is arranged on the top cover.

The conventional intelligent deep well pump is of an integrated fixed structure, so that when a fault phenomenon occurs in the intelligent deep well pump, the operation difficulty of a user for dismounting the intelligent deep well pump is increased, and the maintenance and installation operation of the intelligent deep well pump by the user are not facilitated; meanwhile, the traditional intelligent deep well pump does not have an auxiliary control structure, so that the difficulty in the control operation of the intelligent deep well pump is increased, and the flexibility of the intelligent deep well pump in the opening and closing operation is reduced; meanwhile, the traditional intelligent deep well pump does not have an automatic power-off structure, and is easy to damage when the voltage of the intelligent deep well pump is too high, so that certain adverse effects are brought to a user.

Disclosure of Invention

In order to overcome the defect that the traditional intelligent deep well pump is of an integrated fixed structure, when the intelligent deep well pump has a fault phenomenon, the operation difficulty of removing the intelligent deep well pump by a user is increased, and the maintenance and installation operation of the intelligent deep well pump by the user are not facilitated; meanwhile, the traditional intelligent deep well pump does not have an auxiliary control structure, so that the difficulty in the control operation of the intelligent deep well pump is increased, and the flexibility of the intelligent deep well pump in the opening and closing operation is reduced; meanwhile, the traditional intelligent deep well pump does not have an automatic power-off structure, and is easy to damage when the voltage of the intelligent deep well pump is too high, so that the intelligent deep well pump with the automatic power-off protection mechanism is provided.

The purpose of the invention is realized by the following technical scheme:

an intelligent deep well pump with an automatic power-off protection mechanism comprises a cylinder connecting pipe, a cylinder base, a water lifting pipe, a first chuck and a second chuck, wherein the water lifting pipe is fixedly arranged on the outer surface of the upper end of the cylinder connecting pipe;

the outer surface of the upper end of the second chuck is fixedly provided with a second sleeve, four groups of butt joint buckles are fixedly arranged on the inner side of the bottom of the second chuck, the first chuck and the second chuck are meshed and fixed through arc-shaped clamping teeth and the butt joint buckles, arc-shaped notches are formed in the inner sides of one ends of the second sleeve and the first sleeve, fastening bolts are fixedly arranged on the outer surfaces of the second sleeve and the first sleeve, the upper end of the water lifting pipe is fixedly connected with a water outlet pipe, a sealing clamping shell is fixedly arranged above the water outlet pipe, and a rotating top plate is movably arranged on the upper portion of the sealing clamping shell;

the utility model discloses a sealing card shell, including sealed card shell, rotatory roof, connecting rod, fastening cap, rotatory roof, one side movable mounting that the lower part outer surface of connecting rod is fixed to have connect first fluted disc, the upper portion movable mounting that the surface of connecting rod is close to rotatory roof has the fastening cap, one side movable mounting that the upper portion of rotatory roof is close to the fastening cap has rotatory pole setting, one side movable mounting that the inside of sealed card shell is close to first fluted disc has the second fluted disc, through second dwang activity butt joint between second fluted disc and the sealed card shell, the lower part fixed mounting that the surface of second dwang is close to sealed card shell has the closure plate.

The utility model discloses a clamping device for water outlet pipe, including the outlet pipe, the upper portion surface of outlet pipe is close to one side fixed mounting of rotatory roof and is had the manometer, and through tube head through connection between outlet pipe and the manometer, the draw-in groove has all been seted up with the inboard of butt joint buckle to the arc latch, the surface of arc latch is the arc structure, and fixed the sealing washer that has cup jointed between first chuck and the second chuck, and the one end inboard of fastening bolt is equipped with the cross draw-in groove.

The utility model discloses a cylinder is taken over, including cylinder, fixed flange, waterproof sleeve pipe, drive motor, drive rod, connecting pipe.

The utility model discloses a waterproof cable, including the lifting pipe, the front end surface fixed mounting of lifting pipe has the protection tube, it is fixed through two sets of fixed ply-yarn drill butt joints between lifting pipe and the protection tube, and two sets of waterproof cable have been cup jointed to the inside of protection tube, and the one end surface fixed mounting of waterproof cable has the outage box, and the waterproof cable is fixed through outage box and connecting wire butt joint, and the lower extreme surface fixed mounting of connecting wire has the steady voltage plug.

The inner surface of the interior of the voltage stabilizing plug is provided with a waterproof pad, a fixed wire ring is fixedly mounted on the inner surface of the interior of the voltage stabilizing plug close to the lower portion of the waterproof pad, a copper wire coil is fixedly wound on the outer surface of the fixed wire ring, two groups of plug support legs are fixedly mounted on the inner side of one end of the voltage stabilizing plug, and the transmission gear and the turbine are fixedly connected in a butt joint mode through a first rotating rod.

The surface of first fluted disc and second fluted disc all is equipped with a plurality of groups tooth's socket, and the cross section diameter of first fluted disc is less than the cross section diameter of second fluted disc, and the side surface of rotatory pole setting is the arc structure.

The rotary upright rod is movably connected with the rotary top plate through a connecting rod, the fastening cap is fixedly connected with the connecting rod in a butt joint mode through threads, and the cross section structure of the fastening cap is of an isosceles trapezoid structure.

The integral structure of the cylinder connecting pipe, the cylinder base and the water lifting pipe is a cylinder double-layer structure, and a plurality of groups of fixing lugs are fixedly arranged on the outer surface of the butt joint retaining ring.

The cross section structures of the first chuck and the second chuck are both annular structures, the number of the first chuck and the number of the second chuck are two, and the bottom of the cylinder base is movably provided with a buffer column.

The utility model provides an intelligent deep-well pump with automatic power-off protection mechanism, this intelligent deep-well pump's concrete operation steps that use are:

fixing a first chuck and a second chuck at two ends of a cylinder connecting pipe by using a first sleeve and a second sleeve of the first chuck and the second chuck, and simultaneously matching another group of the first chuck and the second chuck on a cylinder base and a water lifting pipe to enable arc-shaped clamping teeth and butt-joint buckles to be meshed in a rotating mode;

inserting the plug support legs of the voltage stabilizing plug into a power supply, driving a transmission gear to rotate after a transmission motor is electrified, driving a turbine to rotate by using a transmission gear, pumping water into a water raising pipe through a water inlet groove, and discharging the water into a water outlet pipe;

and step three, driving the rotating top plate to drive the connecting rod by rotating the rotating vertical rod on the rotating top plate, so that the first fluted disc at the bottom of the connecting rod rotates, and driving the second fluted disc through the first fluted disc to drive the shutoff plate to rotate through the second rotating rod, so that the water outlet pipe is opened.

The invention has the beneficial effects that:

1. by arranging the first chuck and the second chuck, when a user needs to install and fix the intelligent deep well pump, the user can use two groups of the first chuck and the second chuck to sleeve one group of the first chuck and the second chuck at two ends of the cylinder connecting pipe through the first sleeve and the second sleeve on the first chuck and the second chuck, and simultaneously match the cylinder base and the water lifting pipe, the other group of the first chuck and the second chuck are respectively sleeved at one ends of the cylinder base and the water lifting pipe, the user places the cylinder connecting pipe between the cylinder base and the water lifting pipe, and the arc-shaped clamping teeth on the first chuck and the butt-joint buckle on the second chuck are occluded and fixed by rotating the cylinder connecting pipe, so that the cylinder base and the water lifting pipe are respectively fixed at two ends of the connecting pipe, and the intelligent deep well pump has a three-section type combined fixing structure, when the user need maintain the operation to the pump body, take over through the antiport cylinder for the arc latch breaks away from the butt joint buckle, makes first chuck and second chuck separately, thereby takes out the cylinder takeover, and convenient to use person maintains the operation to the pump body in the cylinder takeover, makes the installation maintenance operation of this intelligent deep-well pump more convenient, the person's of facilitating the use operation.

2. By arranging the first fluted disc and the second fluted disc, when a user needs to carry out water volume control operation on the intelligent deep well pump, the user can drive the rotating top plate to drive the connecting rod to rotate by rotating the rotating upright rod on the rotating top plate, and drive the first fluted disc by the connecting rod to drive the second fluted disc by the first fluted disc, because the diameter of the first fluted disc is smaller than that of the second fluted disc, the rotating operation of the first fluted disc is more labor-saving, the rotating angle of the intercepting plate can be controlled by driving the second rotating rod to control the rotating angle of the intercepting plate by the rotation of the second fluted disc, when water is discharged from the water outlet pipe, the speed of the water can be controlled by the intercepting plate after rotating, and the water is subjected to on-off control operation, and the adjustment operation of the intelligent deep well pump is more labor-saving by the arrangement of the first fluted disc and the second fluted disc, so that the intelligent, the control operation is more labor-saving.

3. Through setting up the fastening cap, when the user adjusts the angle of use of closure plate through rotating rotatory pole setting, the user can be through rotating the fastening cap, make fastening cap downstream, utilize the fastening cap to make rotatory roof downstream, hug closely rotatory roof on sealed card shell, the rotation angle of rotatory roof is locked, avoid it to touch the rotation phenomenon by mistake after adjusting, increase its security, through setting up waterproof sleeve and protection tube, cup joint waterproof sleeve at drive machine's surface, utilize butt joint buckle ring to fix waterproof sleeve, can effectively increase drive machine's waterproof nature, avoid it to appear the short circuit phenomenon at the underwater operation in-process, the protection tube can play the effect of protection to waterproof cable simultaneously, prolong its life.

4. Through the setting of copper wire coil and outage box, twine the surface at the stationary wire ring with the copper wire coil, utilize the stationary wire ring to fix the copper wire coil in voltage stabilizing plug, when the plug stabilizer blade inserts the power, the power passes through the copper wire coil and carries to the connecting wire, the copper wire coil plays steady voltage's effect in power transportation process, the outage box of cooperation simultaneously, can be under the too big or dead circumstances of transmission motor card of voltage, the auto-power-off, play the guard action to it, thereby make this intelligent deep-well pump have auto-power-off protection mechanism.

Drawings

The invention will be further described with reference to the accompanying drawings.

Fig. 1 is a schematic diagram of the overall structure of an intelligent deep well pump with an automatic power-off protection mechanism according to the present invention.

Fig. 2 is an exploded view of an intelligent deep well pump cylinder connection with an automatic power-off protection mechanism according to the present invention.

Fig. 3 is a partial structure diagram of an intelligent deep well pump cylinder connection pipe with an automatic power-off protection mechanism according to the present invention.

Fig. 4 is an internal structure diagram of the intelligent type deep well pump voltage-stabilizing plug with the automatic power-off protection mechanism.

Fig. 5 is an integral structural part of a first chuck and a second chuck of the intelligent deep-well pump with an automatic power-off protection mechanism.

Fig. 6 is an internal structure diagram of the intelligent deep well pump seal cartridge with an automatic power-off protection mechanism of the present invention.

In the figure: 1. a first chuck; 2. a column base; 3. a water inlet groove; 4. a column body connecting pipe; 5. a second chuck; 6. a water raising pipe; 7. a water outlet pipe; 8. rotating the top plate; 9. sealing the clamping shell; 10. a pressure gauge; 11. a waterproof cable; 12. a power-off box; 13. a connecting wire; 14. a voltage stabilizing plug; 15. protecting the tube; 16. fixing the wire clamp; 17. butting the chucks; 18. a transmission gear; 19. a drive motor; 20. a fixed flange; 21. a waterproof casing; 22. butting snap rings; 23. a turbine; 24. a first rotating lever; 25. fixing a wire loop; 26. a copper wire loop; 27. a waterproof pad; 28. a plug leg; 29. a first sleeve; 30. arc-shaped latch; 31. a second sleeve; 32. an arc-shaped notch; 33. butting buckles; 34. fastening bolts; 35. a second rotating lever; 36. a shutoff plate; 37. a first fluted disc; 38. a connecting rod; 39. rotating the vertical rod; 40. a fastening cap; 41. a second toothed disc.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to 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 embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without any inventive step, are within the scope of the present invention.

As shown in fig. 1-6, an intelligent deep well pump with an automatic power-off protection mechanism comprises a cylinder connecting pipe 4, a cylinder base 2, a water lifting pipe 6, a first chuck 1 and a second chuck 5, wherein the water lifting pipe 6 is fixedly installed on the outer surface of the upper end of the cylinder connecting pipe 4, the cylinder base 2 is fixedly installed on the outer surface of the lower end of the cylinder connecting pipe 4, the cylinder base 2 and the water lifting pipe 6 are fixedly butted and fixed through the first chuck 1 and the second chuck 5, the second chuck 5 is installed at the bottom of the first chuck 1, a first sleeve 29 is fixedly installed on the outer surface of the lower end of the first chuck 1, four groups of arc-shaped clamping teeth 30 are fixedly installed on the outer surface of the upper end of the first chuck 1, and a second sleeve 31 is fixedly installed on the outer;

four groups of butt-joint buckles 33 are fixedly installed on the inner side of the bottom of the second chuck 5, the first chuck 1 and the second chuck 5 are meshed and fixed through arc-shaped clamping teeth 30 and the butt-joint buckles 33, arc-shaped notches 32 are respectively formed in the inner sides of one ends of the second sleeve 31 and the first sleeve 29, fastening bolts 34 are respectively fixedly installed on the outer surfaces of the second sleeve 31 and the first sleeve 29, a water outlet pipe 7 is fixedly sleeved at the upper end of the water lifting pipe 6, a sealing clamping shell 9 is fixedly installed above the water outlet pipe 7, the sealing clamping shell 9 plays a role in sealing and protecting the second toothed disc 41 and the first toothed disc 37, the second toothed disc 41 and the first toothed disc 37 are prevented from being rusted, a rotating top plate 8 is movably installed on the upper portion of the sealing clamping shell 9, and the sealing clamping shell 9 is movably butted with the rotating top plate 8;

fixed cover of the lower part surface of connecting rod 38 has been connected with first fluted disc 37, the upper portion movable mounting that the surface of connecting rod 38 is close to rotatory roof 8 has fastening cap 40, the one side movable mounting that the upper portion of rotatory roof 8 is close to fastening cap 40 has rotatory pole setting 39, the inside one side movable mounting that is close to first fluted disc 37 of sealed calorie of shell 9 has second fluted disc 41, utilize setting up of first fluted disc 37 can make the rotation of rotatory roof 8 more laborsaving, through second dwang 35 activity butt joint between second fluted disc 41 and the sealed calorie of shell 9, the lower part fixed mounting that the surface of second dwang 35 is close to sealed calorie of shell 9 has intercepting board 36.

One side fixed mounting that the upper portion surface of outlet pipe 7 is close to rotatory roof 8 has manometer 10, and through tube head through connection between outlet pipe 7 and the manometer 10, the draw-in groove has all been seted up with the inboard of butt joint buckle 33 to arc latch 30, the surface of arc latch 30 is the arc structure, the sealing washer has been cup jointed to fixed between first chuck 1 and the second chuck 5, the gas tightness when the sealing washer can increase first chuck 1 and second chuck 5 and close, avoid it to appear leaking the phenomenon, the one end inboard of fastening bolt 34 is equipped with the cross draw-in groove.

The inner side of the bottom of the cylinder connecting pipe 4 is provided with a plurality of groups of water inlet grooves 3 in a penetrating mode, the outer surface of one end of the cylinder connecting pipe 4 is fixedly provided with a fixing flange 20, the lower portion, close to the fixing flange 20, of the outer surface of the cylinder connecting pipe 4 is fixedly provided with a butt joint chuck 17, the inner surface of the cylinder connecting pipe 4 is fixedly sleeved with a waterproof sleeve 21 in a sleeved mode, the waterproof sleeve 21 plays a waterproof protection role in a transmission motor 19 in the cylinder connecting pipe 4, the service life of the cylinder connecting pipe is prolonged, one end of the waterproof sleeve 21 is fixedly sleeved with a butt joint buckle ring 22, the cylinder connecting pipe 4 is fixedly butted with the transmission motor 19 through the waterproof sleeve 21, one end of the transmission motor 19 is movably provided with two groups of transmission gears 18, the transmission motor 19 is fixedly.

The front end surface fixed mounting of water raising pipe 6 has protection tube 15, it is fixed to dock through two sets of fixed ply-yarn drill 16 between water raising pipe 6 and the protection tube 15, two sets of waterproof cable 11 have been cup jointed to the inside of protection tube 15, and the one end surface fixed mounting of waterproof cable 11 has outage box 12, waterproof cable 11 is fixed with connecting wire 13 butt joint through outage box 12, the lower extreme surface fixed mounting of connecting wire 13 has voltage stabilizing plug 14.

The inside internal surface of steady voltage plug 14 is equipped with waterproof pad 27, waterproof pad 27 can increase the waterproof nature of steady voltage plug 14, avoids steady voltage plug 14 to appear the phenomenon of intaking, and the inside internal surface of steady voltage plug 14 is close to the lower part fixed mounting of waterproof pad 27 and has fixed wire loop 25, the fixed surface of fixed wire loop 25 is fixed to be twined there is copper silk thread circle 26, the inboard fixed mounting of one end of steady voltage plug 14 has two sets of plug stabilizer blades 28, dock fixedly through first pivot pole 24 between drive gear 18 and the turbine 23.

The outer surface of first fluted disc 37 and second fluted disc 41 all is equipped with a plurality of groups tooth's socket, and the cross section diameter of first fluted disc 37 is less than the cross section diameter of second fluted disc 41, and the side surface of rotatory pole setting 39 is arc structure, and arc structure makes holding of rotatory pole setting 39 more firm, increases its stability.

The rotating vertical rod 39 is movably connected with the rotating top plate 8 through a connecting rod, the fastening cap 40 is fixedly connected with the connecting rod 38 through threads in a butt joint mode, the cross section structure of the fastening cap 40 is an isosceles trapezoid structure, and the fastening cap 40 plays a role in locking the rotating top plate 8 and avoids the phenomenon of mistaken contact.

The integral structure of the cylinder connecting pipe 4, the cylinder base 2 and the water lifting pipe 6 is a cylinder double-layer structure, a plurality of groups of fixed hangers are fixedly arranged on the outer surface of the butt joint retaining ring 22, and the double-layer structure can increase the safety of the cylinder connecting pipe 4, the cylinder base 2 and the water lifting pipe 6.

The cross section structures of the first chuck 1 and the second chuck 5 are both annular structures, the number of the first chuck 1 and the number of the second chuck 5 are both two, and the bottom of the cylinder base 2 is movably provided with a buffer column.

The utility model provides an intelligent deep-well pump with automatic power-off protection mechanism, this intelligent deep-well pump's concrete operation steps that use are:

firstly, fixing a first chuck 1 and a second chuck 5 at two ends of a cylinder connecting pipe 4 by using a first sleeve 29 and a second sleeve 31 of the first chuck 1 and the second chuck 5, and simultaneously matching the other group of the first chuck 1 and the second chuck 5 on a cylinder base 2 and a water lifting pipe 6 to ensure that an arc-shaped latch 30 is occluded with an abutting buckle 33 in a rotating mode;

step two, inserting the plug support legs 28 of the voltage-stabilizing plug 14 into a power supply, enabling the transmission motor 19 to drive the transmission gear 18 to rotate after being electrified, driving the turbine 23 to rotate by using the transmission gear 18, pumping the water body into the water raising pipe 6 through the water inlet groove 3, and discharging the water body into the water outlet pipe 7;

and step three, the rotating upright rod 39 on the rotating top plate 8 is rotated to drive the rotating top plate 8 to drive the connecting rod 38, so that the first fluted disc 37 at the bottom of the connecting rod 38 rotates, the first fluted disc 37 drives the second fluted disc 41, the second fluted disc 41 drives the cut-off plate 36 to rotate through the second rotating rod 35, and the water outlet pipe 7 is opened.

The invention aims to provide an intelligent deep well pump with an automatic power-off protection mechanism, wherein a first chuck 1 and a second chuck 5 are arranged, when a user needs to install and fix the intelligent deep well pump, the user can use two groups of first chucks 1 and second chucks 5 to sleeve one group of first chucks 1 and second chucks 5 at two ends of a cylinder connecting pipe 4 through a first sleeve 29 and a second sleeve 31 on the first chucks 1 and the second chucks 5, and simultaneously match a cylinder base 2 and a water lifting pipe 6, the other group of first chucks 1 and second chucks 5 are respectively sleeved at one ends of the cylinder base 2 and the water lifting pipe 6, the user places the cylinder 4 between the cylinder base 2 and the water lifting pipe 6, and the arc-shaped clamping teeth 30 on the first chuck 1 are meshed and fixed with a butt joint buckle 33 on the second chuck 5 by rotating the cylinder connecting pipe 4, the cylinder base 2 and the water pumping pipe 6 are respectively fixed at two ends of the cylinder connecting pipe 4, so that the intelligent deep well pump has a three-section type combined fixed structure, when a user needs to perform maintenance operation on a pump body, the cylinder connecting pipe 4 is reversely rotated to separate the arc-shaped latch 30 from the butt-joint buckle 33, the first chuck 1 is separated from the second chuck 5, so that the cylinder connecting pipe 4 is taken out, the user can conveniently perform maintenance operation on the pump body in the cylinder connecting pipe 4, the installation and maintenance operation of the intelligent deep well pump are more convenient, the user can conveniently operate, by arranging the first fluted disc 37 and the second fluted disc 41, when the user needs to perform water quantity control operation on the intelligent deep well pump, the user can drive the rotating top plate 8 to drive the connecting rod 38 to rotate by rotating the rotating upright rod 39 on the rotating top plate 8, the first fluted disc 37 is driven by the connecting rod 38, so that the first fluted disc 37 drives the second fluted disc 41, the diameter of the first fluted disc 37 is smaller than that of the second fluted disc 41, so that the rotating operation of the first fluted disc 37 is more labor-saving, the second rotating rod 35 can be driven by the rotation of the second fluted disc 41 to control the rotating angle of the cut-off plate 36, when water is discharged from the water outlet pipe 7, the cut-off plate 36 after rotating can be used for controlling the water outlet speed and carrying out on-off control operation on the water outlet speed, the adjustment operation is more labor-saving through the arrangement of the first fluted disc 37 and the second fluted disc 41, so that the intelligent deep well pump has an auxiliary control structure, the control operation is more labor-saving, the fastening cap 40 is arranged through color, when a user adjusts the use angle of the cut-off plate 36 through rotating the rotating vertical rod 39, the user can fasten, the fastening cap 40 is moved downwards, the rotating top plate 8 is moved downwards by the fastening cap 40, the rotating top plate 8 is tightly attached to the sealing clamping shell 9, the rotating angle of the rotating top plate 8 is locked, the phenomenon of mistakenly touching and rotating after adjustment is avoided, the safety of the rotating top plate is improved, the waterproof sleeve 21 is sleeved on the outer surface of the transmission motor 19 by arranging the waterproof sleeve 21 and the protection pipe 15, the waterproof sleeve 21 is fixed by the butt-joint buckle 22, the waterproofness of the transmission motor 19 can be effectively improved, the short circuit phenomenon in the underwater operation process is avoided, meanwhile, the protection pipe 15 can play a role of protecting the waterproof cable 11, the service life of the waterproof cable is prolonged, through the arrangement of the copper wire coil 26 and the power-off box 12, the model of the power-off box 12 is DZ20LE-160T3N300, the copper wire coil 26 is wound on the surface of the fixing wire ring 25, utilize stationary wire ring 25 to fix copper wire coil 26 in steady voltage plug 14, when plug stabilizer blade 28 inserts the power, the power passes through copper wire coil 26 and carries to connecting wire 13, copper wire coil 26 plays steady voltage's effect in power transmission process, cooperates outage box 12 simultaneously, can be under the too big or the dead circumstances of transmission motor 19 card of voltage, the auto-power-off plays the guard action to it to make this intelligent deep-well pump have auto-power-off protection mechanism.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not exhaustive of all the details of the embodiments. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims (1)

1. An intelligent deep well pump with an automatic power-off protection mechanism is characterized by comprising a cylinder connecting pipe (4), a cylinder base (2), a water lifting pipe (6), a first chuck (1) and a second chuck (5), the water raising pipe (6) is fixedly arranged on the outer surface of the upper end of the column connecting pipe (4), the column body base (2) is fixedly arranged on the outer surface of the lower end of the column body connecting pipe (4), the cylinder connecting pipe (4), the cylinder base (2) and the water lifting pipe (6) are fixed in a butt joint way through a first chuck (1) and a second chuck (5), the second chuck (5) is arranged at the bottom of the first chuck (1), a first sleeve (29) is fixedly arranged on the outer surface of the lower end of the first chuck (1), four groups of arc-shaped clamping teeth (30) are fixedly arranged on the outer surface of the upper end of the first chuck (1), a second sleeve (31) is fixedly arranged on the outer surface of the upper end of the second chuck (5);

the inner side of the bottom of the second chuck (5) is fixedly provided with four groups of butt joint buckles (33), the first chuck (1) and the second chuck (5) are fixedly meshed with the butt joint buckles (33) through arc-shaped clamping teeth (30), the inner sides of one ends of the second sleeve (31) and the first sleeve (29) are respectively provided with an arc-shaped notch (32), the outer surfaces of the second sleeve (31) and the first sleeve (29) are respectively and fixedly provided with a fastening bolt (34), the upper end of the water lifting pipe (6) is fixedly sleeved with a water outlet pipe (7), a sealing clamping shell (9) is fixedly arranged above the water outlet pipe (7), the upper part of the sealing clamping shell (9) is movably provided with a rotating top plate (8), and the sealing clamping shell (9) is movably butted with the rotating top plate (8) through a connecting rod (38);

a first fluted disc (37) is fixedly sleeved on the outer surface of the lower part of the connecting rod (38), a fastening cap (40) is movably mounted on the outer surface of the connecting rod (38) close to the upper part of the rotating top plate (8), a rotating upright rod (39) is movably mounted on one side of the upper part of the rotating top plate (8) close to the fastening cap (40), a second fluted disc (41) is movably mounted on one side of the inside of the sealing clamping shell (9) close to the first fluted disc (37), the second fluted disc (41) is movably butted with the sealing clamping shell (9) through a second rotating rod (35), and an intercepting plate (36) is fixedly mounted on the outer surface of the second rotating rod (35) close to the lower part of the sealing clamping shell (9);

a pressure gauge (10) is fixedly installed on one side, close to the rotating top plate (8), of the outer surface of the upper portion of the water outlet pipe (7), the water outlet pipe (7) is communicated with the pressure gauge (10) through a pipe head, clamping grooves are formed in the inner sides of the arc-shaped clamping teeth (30) and the butt joint buckle (33), the outer surface of the arc-shaped clamping teeth (30) is of an arc-shaped structure, a sealing ring is fixedly sleeved between the first chuck (1) and the second chuck (5), and a cross-shaped clamping groove is formed in the inner side of one end of the fastening bolt (34);

the water inlet device is characterized in that a plurality of groups of water inlet grooves (3) are formed in the inner side of the bottom of the cylinder connecting pipe (4) in a penetrating mode, a fixing flange (20) is fixedly installed on the outer surface of one end of the cylinder connecting pipe (4), a butt joint clamping head (17) is fixedly installed on the lower portion, close to the fixing flange (20), of the outer surface of the cylinder connecting pipe (4), a waterproof sleeve (21) is fixedly sleeved on the inner surface of the cylinder connecting pipe (4), a butt joint buckling ring (22) is fixedly sleeved on one end of the waterproof sleeve (21), the cylinder connecting pipe (4) is fixedly butted with a transmission motor (19) through the waterproof sleeve (21), two groups of transmission gears (18) are movably installed at one end of the transmission motor (19), the transmission motor (19) is fixedly butted with a turbine (23) through the transmission gears;

the outer surface of the front end of the water lifting pipe (6) is fixedly provided with a protection pipe (15), the water lifting pipe (6) and the protection pipe (15) are fixedly butted and fixed through two groups of fixing line clamps (16), two groups of waterproof cables (11) are sleeved inside the protection pipe (15), an outage box (12) is fixedly arranged on the outer surface of one end of each waterproof cable (11), the waterproof cables (11) are fixedly butted and fixed with a connecting wire (13) through the outage boxes (12), and the outer surface of the lower end of the connecting wire (13) is fixedly provided with a voltage stabilizing plug (14);

the inner surface of the pressure stabilizing plug (14) is provided with a waterproof pad (27), the inner surface of the pressure stabilizing plug (14) is fixedly provided with a fixed wire ring (25) close to the lower part of the waterproof pad (27), the outer surface of the fixed wire ring (25) is fixedly wound with a copper wire coil (26), the inner side of one end of the pressure stabilizing plug (14) is fixedly provided with two groups of plug support legs (28), and the transmission gear (18) and the turbine (23) are fixedly butted and connected through a first rotating rod (24);

the outer surfaces of the first fluted disc (37) and the second fluted disc (41) are respectively provided with a plurality of groups of tooth grooves, the diameter of the cross section of the first fluted disc (37) is smaller than that of the cross section of the second fluted disc (41), and the outer surfaces of the side edges of the rotating vertical rods (39) are of arc-shaped structures;

the rotating upright rod (39) is movably connected with the rotating top plate (8) through a connecting rod, the fastening cap (40) is fixedly connected with the connecting rod (38) in a butt joint mode through threads, and the cross section of the fastening cap (40) is of an isosceles trapezoid structure;

the integral structure of the cylinder connecting pipe (4), the cylinder base (2) and the water raising pipe (6) is a cylinder double-layer structure, and a plurality of groups of fixing lugs are fixedly arranged on the outer surface of the butt joint retaining ring (22);

the cross section structures of the first chuck (1) and the second chuck (5) are both annular structures, the number of the first chuck (1) and the number of the second chuck (5) are two, and the bottom of the column body base (2) is movably provided with a buffer column;

the intelligent deep well pump comprises the following specific using and operating steps:

firstly, fixing a first chuck (1) and a second chuck (5) at two ends of a cylinder connecting pipe (4) by using a first sleeve (29) and a second sleeve (31) of the first chuck (1) and the second chuck (5), simultaneously matching another group of the first chuck (1) and the second chuck (5) on a cylinder base (2) and a water raising pipe (6), and meshing an arc-shaped clamping tooth (30) and a butt joint buckle (33) in a rotating mode;

step two, inserting a plug support leg (28) of the voltage stabilizing plug (14) into a power supply, enabling a transmission motor (19) to be electrified and then driving a transmission gear (18) to rotate, utilizing the transmission gear (18) to drive a turbine (23) to rotate, sucking a water body into a water raising pipe (6) through a water inlet groove (3), and discharging the water body into a water outlet pipe (7);

thirdly, the rotating upright rod (39) on the rotating top plate (8) is rotated to drive the rotating top plate (8) to drive the connecting rod (38), so that the first fluted disc (37) at the bottom of the connecting rod (38) rotates, the second fluted disc (41) is driven by the first fluted disc (37), the second fluted disc (41) drives the intercepting plate (36) to rotate through the second rotating rod (35), and the water outlet pipe (7) is opened;

by arranging the first chuck and the second chuck, when a user needs to carry out installation and fixing operation on the intelligent deep well pump, the user can use two groups of the first chuck and the second chuck to sleeve one group of the first chuck and the second chuck at two ends of the cylinder connecting pipe through the first sleeve and the second sleeve on the first chuck and the second chuck, and simultaneously match the cylinder base and the water lifting pipe, the other group of the first chuck and the second chuck are respectively sleeved at one ends of the cylinder base and the water lifting pipe, the user places the cylinder connecting pipe between the cylinder base and the water lifting pipe, and the arc-shaped clamping teeth on the first chuck and the butt-joint buckle on the second chuck are meshed and fixed by rotating the cylinder connecting pipe, so that the cylinder base and the water lifting pipe are respectively fixed at two ends of the cylinder connecting pipe, thereby the intelligent deep well pump has a three-section combined fixing structure, when the user needs to carry out maintenance operation on the pump body, through the connection pipe of the reverse rotation cylinder, the arc-shaped clamping teeth are separated from the butt joint buckle, the first chuck and the second chuck are separated, the connection pipe of the cylinder is taken out, a user of convenience carries out maintenance operation on the pump body in the connection pipe of the cylinder, and the intelligent deep well pump is convenient to install, maintain and operate and convenient to operate for the user.

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