CN113062401A

CN113062401A - Intelligent secondary water supply equipment based on Internet of things

Info

Publication number: CN113062401A
Application number: CN202110346806.6A
Authority: CN
Inventors: 廖寒
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-04-26
Filing date: 2021-04-26
Publication date: 2021-07-02

Abstract

The invention provides intelligent secondary water supply equipment based on the Internet of things, which comprises a reservoir, a filter box, a pressurizing box and a networking box, wherein a hydraulic cylinder bottom plate is fixed on the right part of the outer upper surface of the filter box, a hydraulic cylinder is fixed on the top surface of the hydraulic cylinder bottom plate, a hydraulic rod is arranged at the top power output end of the hydraulic cylinder, the top end of the hydraulic rod is connected with the right end of an action oblique arm through a first spherical hinge, a long support rod is fixed in the middle of the outer upper surface of the filter box, a lantern ring is arranged at the top end of the long support rod, the inner periphery of the lantern ring is in contact with the outer periphery of the right part of the action oblique arm, the left end of the action oblique arm is connected with the top end of an action longitudinal arm through a second spherical hinge, the bottom end of the action longitudinal arm extends into a water. The technical scheme disclosed by the invention effectively solves the technical problems that the prior art does not have flexible water taking capability and can not realize intelligent water flow pressurization, real-time flow measurement and the like, and is beneficial to popularization and application.

Description

Intelligent secondary water supply equipment based on Internet of things

Technical Field

The invention relates to the technical field of water supply equipment, in particular to intelligent secondary water supply equipment based on the Internet of things.

Background

The secondary water supply equipment is a form that a unit or an individual stores and pressurizes urban public water supply or self-built facility water supply, and supplies water to users or self-use through a pipeline. The secondary water supply is mainly established for compensating the pressure shortage of the municipal water supply pipeline and ensuring the water consumption of dwellings and livelihoods in high-rise people. Whether the secondary water supply facility is built, designed and constructed according to the regulations directly relates to the quality of the secondary water supply, water pressure and water supply safety, is closely related to the normal and stable life of people, and compared with the raw water supply, the quality of the secondary water supply is more easily polluted.

The intelligent secondary water supply equipment based on the Internet of things brings various conveniences to production and life of people, and plays an important role in modern production and life. However, the existing intelligent secondary water supply equipment based on the internet of things does not always have the technical problems of flexible water taking capacity, incapability of realizing intelligent water flow pressurization, real-time flow measurement and the like, so in view of the above, research and improvement are carried out on the structure and the defects in the prior art, and a novel intelligent secondary water supply equipment based on the internet of things is provided, can effectively solve the problems, and is beneficial to popularization and application of the device in the future.

Disclosure of Invention

The invention aims to provide intelligent secondary water supply equipment based on the Internet of things, and the intelligent secondary water supply equipment is used for solving the technical problems that the intelligent water taking capability is unavailable, the intelligent water flow pressurization cannot be realized, the real-time flow measurement cannot be realized and the like in the prior art.

In order to achieve the purpose, the invention provides intelligent secondary water supply equipment based on the Internet of things, which comprises a reservoir, a filter box, a pressurizing box and a networking box, wherein a hydraulic cylinder bottom plate is fixed at the right part of the outer upper surface of the filter box, a hydraulic cylinder is fixed on the top surface of the hydraulic cylinder bottom plate, a hydraulic rod is arranged at the power output end of the top of the hydraulic cylinder, the top end of the hydraulic rod is connected with the right end of an action oblique arm through a first spherical hinge, a long supporting rod is fixed at the middle part of the outer upper surface of the filter box, a lantern ring is arranged at the top end of the long supporting rod, the inner circumference of the lantern ring is in contact with the outer circumference of the right part of the action oblique arm, the left end of the action oblique arm is connected with the top end of a longitudinal action arm through a second spherical hinge, the bottom end of the longitudinal action arm extends into the water taking barrel, and a limit is fixed at the left part of the outer, and a limiting ring is fixed at the left end of the limiting cross arm and is positioned right above the water taking barrel.

The upper and lower side surfaces of the water taking barrel are respectively provided with a water inlet and a vent hole, the inside of the water taking barrel is provided with a movable plug body, the top surface of the movable plug body is fixedly connected with the bottom end of the action longitudinal arm, the left part and the right part of the bottom surface of the movable plug body are respectively provided with a first linear spring and a second linear spring, the top of the right side surface of the water taking barrel is communicated with the left end of the first lateral pipe, the right end of the first lateral pipe is communicated with the top end of the elastic water band, the bottom end of the elastic water band is communicated with the left end of the second side pipe, the right end of the second side pipe extends into the filter box, the right end of the second side position pipe is in contact communication with the left side face of the filter, the right side face of the filter is in contact communication with the left side face of the first flow guide pipe, and the right end of the first flow guide pipe extends into the pressurizing box.

The upper portion of the inside left surface of pressure-increasing box be fixed with electronic jar bottom plate, the right flank of electronic jar bottom plate be fixed with electronic jar, the right side power take off end of electronic jar be provided with the action bars, the right-hand member of action bars be fixed with trapezoidal piece, trapezoidal piece under the inclined plane contact with the top of passive displacement pole, the bottom of passive displacement pole and the top fixed connection of third linear spring, the bottom of third linear spring and the top fixed connection of spoiler, the bottom of spoiler stretch into the inside of ordinary pressure room, the left surface of ordinary pressure room and the right-hand member intercommunication of first honeycomb duct.

The inside of the pressurizing box is provided with a synthesis chamber, the upper part and the lower part of the left side surface of the synthesis chamber are respectively communicated with the right ends of the first injection pipe and the second injection pipe, the left end of the first injection pipe is communicated with the right side surface of the pressure cylinder in a contact way, a pressure sheet is arranged in the pressure cylinder, the left side surface of the pressure sheet is fixedly connected with the right end of the side position pushing column, the left end of the side position pushing column is fixedly connected with the right side surface of the trapezoidal block, the left end of the second injection pipe is communicated with the right side surface of the constant pressure chamber, the right part of the upper side surface of the constant pressure chamber is communicated with the bottom end of the conveying pipe, the top end of the conveying pipe is communicated with the bottom surface of the pressure cylinder, the right side surface of the synthesis chamber is communicated with the left end of the second flow guide pipe, the right end of the second guide pipe is communicated with the top end of the third guide pipe, and the bottom end of the third guide pipe extends into the networking box.

The inside of pressure-increasing box be provided with the sense controller, the outside left surface of sense controller and the middle part fixed connection of the right flank of conveyer pipe, the inside of sense controller be provided with follow-up resistance, the top surface of follow-up resistance and the left end fixed connection of pressure sensing post lower surface, the right-hand member of pressure sensing post stretch into the inside of synthetic room, the left end of pressure sensing post be provided with fourth linear spring, the lower surface of follow-up resistance and the top contact of pointer piece, the left surface of follow-up resistance and the right inclined plane of pointer piece between establish ties through the wire have fixed resistance, first power, first switch, fixed resistance pass through wire and electronic jar controller parallel connection.

The inside of networking case be provided with the initiative roller gear, the front surface of initiative roller gear fixed with the second bevel gear, the right part of second bevel gear and the rear portion contact meshing of first bevel gear, the right flank of first bevel gear and the left end fixed connection of follow-up pivot, the right-hand member of follow-up pivot stretch into the inside of third honeycomb duct, the right-hand member of follow-up pivot be fixed with the follow-up impeller, the left part of initiative roller gear and the right part contact meshing of driven ring gear, the inside of driven ring gear be provided with the ring channel, the inside of ring channel arrange first permanent magnet, second permanent magnet, third permanent magnet, fourth permanent magnet clockwise.

The inner part of the networking box is provided with a fixed disc, the outer periphery of the fixed disc is in contact with the inner periphery of a driven gear ring, the driven gear ring can rotate around the fixed disc, the inner part of the fixed disc is provided with a first inclined conductor and a second inclined conductor, the left ends of the first inclined conductor and the second inclined conductor are connected in series through a lead with a first diode and a second diode, the right ends of the first inclined conductor and the second inclined conductor are connected in series through a lead with a third diode and a fourth diode, the top ends of the first diode and the fourth diode are anodes, the bottom ends of the second diode and the third diode are anodes, the bottom ends of the first diode and the third diode are respectively electrically connected with the left side surface of a signal amplifier through leads, and the right side surface of the signal amplifier is electrically connected with the left side surface of an industrial personal computer through a lead, the lower side surface of the industrial personal computer is electrically connected with the upper side surface of the network memory through a signal band.

The hydraulic cylinder, the electric cylinder, the follow-up impeller, the signal amplifier, the industrial personal computer and the like are all assembled by the existing equipment, and therefore specific models and specifications are not described repeatedly.

The invention has the beneficial effects that:

1. the intelligent secondary water supply equipment based on the Internet of things has the advantages that all components are reliably connected, detection and maintenance are very convenient, the implementation cost is low, hydraulic cylinders, electric cylinders, follow-up impellers, signal amplifiers, industrial personal computers and the like related in the equipment are all assembled in the existing equipment, and the popularization and application of the intelligent secondary water supply equipment based on the Internet of things in the technical field of future water supply equipment are facilitated;

2. the intelligent secondary water supply equipment based on the Internet of things innovatively realizes the flexible water taking function and has the water flow filtering function so as to ensure the sanitation and purity of water flow, and particularly, a hydraulic cylinder bottom plate is fixed at the right part of the outer upper surface of a filter box, a hydraulic cylinder is fixed on the top surface of the hydraulic cylinder bottom plate, a hydraulic rod is arranged at the top power output end of the hydraulic cylinder, the top end of the hydraulic rod is connected with the right end of an action oblique arm through a first spherical hinge, a support long rod is fixed at the middle part of the outer upper surface of the filter box, a lantern ring is arranged at the top end of the support long rod, the inner circumference of the lantern ring is in contact with the outer circumference of the right part of the action oblique arm, the left end of the action oblique arm is connected with the top end of an action longitudinal arm through a second spherical hinge, the bottom end of the action longitudinal arm extends into a water taking barrel, and, the left end of the limiting cross arm is fixed with a limiting ring, the limiting ring is positioned right above the water taking barrel, the upper side surface and the lower side surface of the water taking barrel are respectively provided with a water inlet and a vent, the inside of the water taking barrel is provided with a movable plug body, the top surface of the movable plug body is fixedly connected with the bottom end of the action longitudinal arm, the left part and the right part of the bottom surface of the movable plug body are respectively provided with a first linear spring and a second linear spring, the top of the right side surface of the water taking barrel is communicated with the left end of a first side position pipe, the right end of the first side position pipe is communicated with the top end of an elastic water hose, the bottom end of the elastic water hose is communicated with the left end of a second side position pipe, the right end of the second side position pipe extends into the filter box, the right end of the second side position pipe is communicated with the left side surface of the filter in a contact manner, the right side surface of the filter is communicated, the hydraulic rod extends upwards, the action oblique arm is pushed to rotate anticlockwise, the action longitudinal arm drives the water taking barrel to move downwards into the reservoir, water flows into the water taking barrel through the water inlet, the hydraulic rod retracts downwards, the action oblique arm is pushed to rotate clockwise, the action longitudinal arm drives the water taking barrel to move upwards, when the top end of the water taking barrel is in contact with the bottom surface of the limiting ring, the water taking barrel does not move upwards any more, the action longitudinal arm pulls the movable plug body to move upwards by overcoming the spring force, the movable plug body extrudes the water flow in the water taking barrel, the water flow is discharged into the filter box through the first side position pipe, the elastic water belt and the second side position pipe, and the filter filters the water flow;

3. the intelligent secondary water supply equipment based on the Internet of things is innovatively provided with a pressurizing box to achieve an intelligent self-adaptive pressurizing effect on water flow, and the pressure of the water flow is guaranteed to be stable through the input of mechanical energy The right end of the second injection pipe is communicated, the left end of the first injection pipe is communicated with the right side surface of the pressure cylinder in a contact manner, a pressure sheet is arranged inside the pressure cylinder, the left side surface of the pressure sheet is fixedly connected with the right end of the side push column, the left end of the side push column is fixedly connected with the right side surface of the trapezoidal block, the left end of the second injection pipe is communicated with the right side surface of the constant pressure chamber, the right part of the upper side surface of the constant pressure chamber is communicated with the bottom end of the conveying pipe, the top end of the conveying pipe is communicated with the bottom surface of the pressure cylinder, the right side surface of the synthesis chamber is communicated with the left end of the second flow guide pipe, the right end of the second flow guide pipe is communicated with the top end of the third flow guide pipe, the bottom end of the third flow guide pipe extends into the networking box, a sensing controller is arranged inside the pressurization box, the outer left side surface of the sensing controller is fixedly connected with the middle part of the right side surface of the, the right end of the pressure sensing column extends into the synthesis chamber, the left end of the pressure sensing column is provided with a fourth linear spring, the lower surface of the follow-up resistor is contacted with the top end of the pointer sheet, a fixed resistor, a first power supply and a first switch are connected in series between the left side surface of the follow-up resistor and the right inclined surface of the pointer sheet through a lead, the fixed resistor is connected with the electric cylinder controller in parallel through the lead, further, the water flows into the normal pressure chamber through a first guide pipe, part of the water flows into the synthesis chamber through a second injection pipe, part of the water flows into the pressure cylinder through a conveying pipe, the power of the electric cylinder is transmitted to the trapezoidal block through the action rod, on one hand, the side pushing column pushes the pressure sheet rightwards to pressurize the water flow in the pressure cylinder to push the first injection pipe and the synthesis chamber, on the other hand, the driven displacement rod pushes the third linear spring and the spoiler downwards to realize the interruption of the water, in addition, when the pressure of water flow in the synthesis chamber is lower, the larger the displacement of the pressure sensing column pushed by the spring force of the fourth linear spring to the right is, the smaller the resistance value of the follow-up resistor connected into a circuit is, the larger the voltage at two ends of the fixed resistor and the electric cylinder controller is, the larger the power output intensity of the electric cylinder is, and the stronger the pressurizing effect on the water flow is;

4. the intelligent secondary water supply equipment based on the Internet of things can realize a water flow real-time measurement function based on a networking box, flow signals of water flow are expressed in an electric energy mode, and real-time measurement is convenient A fourth permanent magnet, a fixed disc is arranged in the networking box, the outer periphery of the fixed disc is contacted with the inner periphery of a driven gear ring, the driven gear ring can rotate around the fixed disc, a first inclined conductor and a second inclined conductor are arranged in the fixed disc, a first diode and a second diode are connected in series between the left ends of the first inclined conductor and the second inclined conductor through leads, a third diode and a fourth diode are connected in series between the right ends of the first inclined conductor and the second inclined conductor through leads, the top ends of the first diode and the fourth diode are anodes, the bottom ends of the second diode and the third diode are anodes, the bottom ends of the first diode and the third diode are respectively electrically connected with the left side surface of the signal amplifier through leads, the right side surface of the signal amplifier is electrically connected with the left side surface of the industrial personal computer through leads, the lower side surface of the industrial computer is electrically connected with the upper side surface of the network memory through a signal band, and then, water flow flows through the third flow guide pipe and drives the follow-up impeller to rotate, power is transmitted to the second bevel gear through the follow-up rotating shaft and the first bevel gear, the driving cylindrical gear drives the driven gear ring to rotate around the fixed disc, magnetic induction lines of the first permanent magnet, the second permanent magnet, the third permanent magnet and the fourth permanent magnet continuously cut the first inclined conductor and the second inclined conductor, generated induced current is transmitted to the industrial personal computer after being amplified by the signal amplifier, the industrial personal computer calculates the water flow according to the linear relation that the induced current is larger when the water flow is larger, and sends signals to the network memory through the signal band, so that the real-time measurement of the water flow is realized.

In addition to the objects, features and advantages described above, other objects, features and advantages of the present invention are also provided. The present invention will be described in further detail below.

Drawings

FIG. 1 is a schematic diagram of an axial side projection structure of the overall structure of the device of the present invention.

Fig. 2 is a front view of the overall structure of the device of the present invention.

Fig. 3 is a rear view of the overall structure of the device of the present invention.

Fig. 4 is a left side view of the overall structure of the device of the present invention.

Fig. 5 is a right-view structural diagram of the overall structure of the device of the present invention.

Fig. 6 is a schematic view of the internal structure of the water intake cylinder according to the present invention.

Fig. 7 is a schematic view of the internal structure of the filter box according to the present invention.

Fig. 8 is a schematic view of the internal structure of the pressurizing tank according to the present invention.

Fig. 9 is a schematic view of an internal structure of the sensor according to the present invention.

Fig. 10 is a schematic view of the internal structure of the networked box of the present invention.

Fig. 11 is a schematic view of the internal structure of the driven ring gear according to the present invention.

Fig. 12 is a schematic view of the internal structure of the fixed disk according to the present invention.

1. A water storage tank, 2, a filter tank, 3, a pressure increasing tank, 4, a networking tank, 5, a hydraulic cylinder bottom plate, 6, a hydraulic cylinder, 7, a hydraulic rod, 8, a first spherical hinge, 9, an action inclined arm, 10, a long support rod, 11, a lantern ring, 12, a second spherical hinge, 13, an action longitudinal arm, 14, a water taking barrel, 15, a limiting cross arm, 16, a limiting ring, 17, a first lateral pipe, 18, an elastic water belt, 19, a second lateral pipe, 20, a water inlet, 21, a vent, 22, a first linear spring, 23, a second linear spring, 24, a movable plug body, 25, a filter, 26, a first guide pipe, 27, an electric cylinder bottom plate, 28, an electric cylinder, 29, an action rod, 30, a ladder-shaped block, 31, a lateral pushing column, 32, a pressure sheet, 33, a pressure cylinder, 34, a first injection pipe, 35, a synthesis chamber, 36, a normal pressure chamber, 37, a flow blocking plate, 38 and a third linear spring, 39. passive displacement rod, 40, delivery pipe, 41, second injection pipe, 42, second guide pipe, 43, third guide pipe, 44, sensing controller, 45, pressure sensing column, 46, fourth linear spring, 47, follow-up resistor, 48, pointer sheet, 49, fixed resistor, 50, first power supply, 51, first switch, 52, lead wire, 53, electric cylinder controller, 54, follow-up impeller, 55, follow-up rotating shaft, 56, first bevel gear, 57, second bevel gear, 58, driving cylindrical gear, 59, driven ring gear, 60, fixed disk, 61, ring groove, 62, first permanent magnet, 63, second permanent magnet, 64, third permanent magnet, 65, fourth permanent magnet, 66, first oblique conductor, 67, second oblique conductor, 68, first diode, 69, second diode, 70, third diode, 71, fourth diode, 72, signal amplifier, 73, 72, Industrial personal computer, 74, signal band, 75, network memory.

Detailed Description

The invention is described in detail below with reference to the attached drawing figures:

referring to fig. 1 to 12, the intelligent secondary water supply equipment based on the internet of things provided by the invention comprises a water storage tank 1, a filter tank 2, a pressure increasing tank 3 and a networking tank 4, wherein a hydraulic cylinder bottom plate 5 is fixed at the right part of the outer upper surface of the filter tank 2, a hydraulic cylinder 6 is fixed at the top surface of the hydraulic cylinder bottom plate 5, a hydraulic rod 7 is arranged at the power output end of the top of the hydraulic cylinder 6, the top end of the hydraulic rod 7 is connected with the right end of an action oblique arm 9 through a first spherical hinge 8, a long support rod 10 is fixed at the middle part of the outer upper surface of the filter tank 2, a lantern ring 11 is arranged at the top end of the long support rod 10, the inner circumference of the lantern ring 11 is in contact with the outer circumference of the right part of the action oblique arm 9, the left end of the action oblique arm 9 is connected with the top end of an action longitudinal arm 13 through a second spherical hinge 12, and the bottom end of the action longitudinal arm 13, a limiting cross arm 15 is fixed on the left part of the outer upper surface of the filter box 2, a limiting ring 16 is fixed on the left end of the limiting cross arm 15, and the limiting ring 16 is positioned right above the water taking barrel 14.

Furthermore, the upper and lower sides of the water intake cylinder 14 are respectively provided with a water inlet 20 and a vent 21, the interior of the water intake cylinder 14 is provided with a movable plug 24, the top surface of the movable plug 24 is fixedly connected with the bottom end of the actuating longitudinal arm 13, the left and right parts of the bottom surface of the movable plug 24 are respectively provided with a first linear spring 22 and a second linear spring 23, the top of the right side surface of the water intake cylinder 14 is communicated with the left end of the first lateral pipe 17, the right end of the first lateral pipe 17 is communicated with the top end of the elastic water hose 18, the bottom end of the elastic water hose 18 is communicated with the left end of the second lateral pipe 19, the right end of the second lateral pipe 19 extends into the interior of the filter box 2, the right end of the second lateral pipe 19 is communicated with the left side surface of the filter 25 in a contacting manner, the right side surface of the filter 25 is communicated with the left side surface of the first guide pipe 26 in a contacting manner, the right end of the first flow guide pipe 26 extends into the pressurizing box 3. Furthermore, the device of the invention can realize flexible water taking function, has filtering function, ensures the purity of water flow, the hydraulic cylinder 6 works, the hydraulic rod 7 extends upwards to push the action oblique arm 9 to rotate anticlockwise, the action longitudinal arm 13 drives the water taking barrel 14 to move downwards to the interior of the reservoir 1, the water flow flows into the water taking barrel 14 through the water inlet 20, the hydraulic rod 7 retracts downwards, the action inclined arm 9 is pushed to rotate clockwise, the action longitudinal arm 13 drives the water taking barrel 14 to move upwards, when the top end of the water taking cylinder 14 is contacted with the bottom surface of the limiting ring 16, the water taking cylinder 14 does not move upwards any more, the action longitudinal arm 13 pulls the movable plug body 24 to move upwards against the spring force, the movable plug body 24 extrudes water flow in the water taking cylinder 14, the water is discharged into the filter box 2 through the first side pipe 17, the elastic water band 18 and the second side pipe 19, and the filter 25 filters the water flow.

Referring to fig. 1 to 12, further, an electric cylinder bottom plate 27 is fixed to an upper portion of a left side surface of the inside of the pressure increasing box 3, an electric cylinder 28 is fixed to a right side surface of the electric cylinder bottom plate 27, an actuating rod 29 is disposed at a right power output end of the electric cylinder 28, a trapezoidal block 30 is fixed to a right end of the actuating rod 29, a lower inclined surface of the trapezoidal block 30 contacts with a top end of a passive displacement rod 39, a bottom end of the passive displacement rod 39 is fixedly connected to a top end of a third linear spring 38, a bottom end of the third linear spring 38 is fixedly connected to a top end of a flow blocking plate 37, a bottom end of the flow blocking plate 37 extends into a normal pressure chamber 36, and a left side surface of the normal pressure chamber 36 is communicated with a right end of a first flow guide pipe 26.

Furthermore, a synthesis chamber 35 is arranged in the pressurizing tank 3, the upper and lower parts of the left side surface of the synthesis chamber 35 are respectively communicated with the right ends of a first injection pipe 34 and a second injection pipe 41, the left end of the first injection pipe 34 is in contact communication with the right side surface of a pressure cylinder 33, a pressure sheet 32 is arranged in the pressure cylinder 33, the left side surface of the pressure sheet 32 is fixedly connected with the right end of a side pushing column 31, the left end of the side pushing column 31 is fixedly connected with the right side surface of a trapezoidal block 30, the left end of the second injection pipe 41 is communicated with the right side surface of a normal pressure chamber 36, the right part of the upper side surface of the normal pressure chamber 36 is communicated with the bottom end of a delivery pipe 40, the top end of the delivery pipe 40 is communicated with the bottom surface of the pressure cylinder 33, the right side surface of the synthesis chamber 35 is communicated with the left end of a second delivery pipe 42, and the right end of the second delivery pipe 42 is communicated with the top end of a third delivery pipe 43, the bottom end of the third guide pipe 43 extends into the networking box 4.

Furthermore, a sensing controller 44 is arranged inside the pressure increasing box 3, the left outer side surface of the sensing controller 44 is fixedly connected with the middle part of the right side surface of the conveying pipe 40, a follow-up resistor 47 is arranged inside the sensing controller 44, the top surface of the follow-up resistor 47 is fixedly connected with the left end of the lower surface of the pressure sensing column 45, the right end of the pressure sensing column 45 extends into the synthesis chamber 35, the left end of the pressure sensing column 45 is provided with a fourth linear spring 46, the lower surface of the follow-up resistor 47 is contacted with the top end of the pointer sheet 48, a fixed resistor 49, a first power supply 50 and a first switch 51 are connected in series between the left side surface of the follow-up resistor 47 and the right inclined surface of the pointer sheet 48 through a wire 52, and the fixed resistor 49 is connected in parallel with an electric cylinder controller 53 through a wire 52. Furthermore, the inventive device can realize intelligent pressurization effect on water flow, ensure stable water flow pressure through input of mechanical energy, the water flow flows into the normal pressure chamber 36 through the first guide pipe 26, a part of the water flow flows into the synthesis chamber 35 through the second injection pipe 41, a part of the water flow flows into the pressure cylinder 33 through the delivery pipe 40, the power of the electric cylinder 28 is transmitted to the trapezoidal block 30 through the action rod 29, on one hand, the side pushing column 31 pushes the pressure sheet 32 to the right to pressurize and push the water flow in the pressure cylinder 33 into the first injection pipe 34 and the synthesis chamber 35, on the other hand, the passive displacement rod 39 pushes the third linear spring 3 and the baffle plate 37 downwards to realize cutoff of the water flow in the normal pressure chamber 36 to avoid backflow of the high pressure water flow, and on the lower water flow pressure in the synthesis chamber 35, the spring force of the fourth linear spring 46 pushes the pressure column 45 to displace to the right more, the smaller the resistance value of the follow-up resistor 47 connected into the circuit is, the larger the voltage at the two ends of the fixed resistor 49 and the electric cylinder controller 53 is, the larger the power output intensity of the electric cylinder 28 is, and the stronger the pressurizing effect on the water flow is.

Referring to fig. 1 to 12, further, a driving cylindrical gear 58 is disposed inside the networking box 4, a second bevel gear 57 is fixed to a front surface of the driving cylindrical gear 58, a right portion of the second bevel gear 57 is in contact engagement with a rear portion of the first bevel gear 56, a right side surface of the first bevel gear 56 is fixedly connected to a left end of the follower rotating shaft 55, a right end of the follower rotating shaft 55 extends into the third flow guide pipe 43, a follower impeller 54 is fixed to a right end of the follower rotating shaft 55, a left portion of the driving cylindrical gear 58 is in contact engagement with a right portion of the follower ring gear 59, an annular groove 61 is disposed inside the follower ring gear 59, and a first permanent magnet 62, a second permanent magnet 63, a third permanent magnet 64 and a fourth permanent magnet 65 are disposed clockwise inside the annular groove 61.

Furthermore, a fixed disk 60 is arranged inside the networking box 4, the outer periphery of the fixed disk 60 is in contact with the inner periphery of the driven ring gear 59, the driven ring gear 59 can rotate around the fixed disk 60, a first inclined conductor 66 and a second inclined conductor 67 are arranged inside the fixed disk 60, a first diode 68 and a second diode 69 are connected in series between the left ends of the first inclined conductor 66 and the second inclined conductor 67 through a lead 52, a third diode 70 and a fourth diode 71 are connected in series between the right ends of the first inclined conductor 66 and the second inclined conductor 67 through a lead 52, the top ends of the first diode 68 and the fourth diode 71 are positive electrodes, the bottom ends of the second diode 69 and the third diode 70 are positive electrodes, the bottom ends of the first diode 68 and the third diode 70 are respectively electrically connected with the left side surface of the signal amplifier 72 through the lead 52, the right side of the signal amplifier 72 is electrically connected with the left side of the industrial personal computer 73 through a wire 52, and the lower side of the industrial personal computer 73 is electrically connected with the upper side of the network memory 75 through a signal belt 74. Furthermore, the device can realize the function of real-time measurement of water flow based on the internet of things, the flow signal of the water flow is expressed in the form of electric energy, the real-time measurement is convenient, the water flow flows through the third guide pipe 43 and drives the follower impeller 54 to rotate, the power is transmitted to the second bevel gear 57 through the follower rotating shaft 55 and the first bevel gear 56, the driving cylindrical gear 58 drives the driven gear ring 59 to rotate around the fixed disk 60, the magnetic induction lines of the first permanent magnet 62, the second permanent magnet 63, the third permanent magnet 64 and the fourth permanent magnet 65 continuously cut the first inclined conductor 66 and the second inclined conductor 67, the generated induced current is transmitted to the industrial personal computer 73 after the amplification effect of the signal amplifier 72, the industrial personal computer 73 calculates the water flow according to the linear relation that the induced current is larger when the water flow is larger, and transmits the signal to the network memory 75 through the signal belt 74, and further realize the real-time measurement of the water flow.

The hydraulic cylinder 6, the electric cylinder 28, the follow-up impeller 54, the signal amplifier 72, the industrial personal computer 73 and the like are all assembled by existing equipment, and therefore specific models and specifications are not described in detail.

The working principle of the invention is as follows:

the invention provides an intelligent secondary water supply device based on the Internet of things, which comprises a reservoir 1, a filter box 2, a pressure increasing box 3 and a networking box 4, wherein a hydraulic cylinder bottom plate 5 is fixed at the right part of the outer upper surface of the filter box 2, a hydraulic cylinder 6 is fixed at the top surface of the hydraulic cylinder bottom plate 5, a hydraulic rod 7 is arranged at the power output end of the top part of the hydraulic cylinder 6, the top end of the hydraulic rod 7 is connected with the right end of an action inclined arm 9 through a first spherical hinge 8, a long supporting rod 10 is fixed at the middle part of the outer upper surface of the filter box 2, a lantern ring 11 is arranged at the top end of the long supporting rod 10, the inner periphery of the lantern ring 11 is in contact with the outer periphery of the right part of the action inclined arm 9, the left end of the action inclined arm 9 is connected with the top end of an action longitudinal arm 13 through a second spherical hinge 12, and the bottom end of the action longitudinal arm 13 extends, a limiting cross arm 15 is fixed on the left part of the upper surface of the outside of the filter box 2, a limiting ring 16 is fixed on the left end of the limiting cross arm 15, the limiting ring 16 is positioned right above the water taking barrel 14, the upper side surface and the lower side surface of the water taking barrel 14 are respectively provided with a water inlet 20 and a vent 21, a movable plug body 24 is arranged inside the water taking barrel 14, the top surface of the movable plug body 24 is fixedly connected with the bottom end of the action vertical arm 13, the left part and the right part of the bottom surface of the movable plug body 24 are respectively provided with a first linear spring 22 and a second linear spring 23, the top part of the right side surface of the water taking barrel 14 is communicated with the left end of a first side pipe 17, the right end of the first side pipe 17 is communicated with the top end of an elastic water hose 18, the bottom end of the elastic water hose 18 is communicated with the left end of a second side pipe 19, and the right end of the second side pipe 19 extends into the filter box 2, the right end of the second side position pipe 19 is in contact communication with the left side surface of the filter 25, the right side surface of the filter 25 is in contact communication with the left side surface of the first guide pipe 26, further, the device can achieve a flexible water taking function and has a filtering function, the purity of water flow is guaranteed, the hydraulic cylinder 6 works, the hydraulic rod 7 extends upwards to push the action inclined arm 9 to rotate anticlockwise, the action longitudinal arm 13 drives the water taking cylinder 14 to move downwards into the reservoir 1, the water flow flows into the water taking cylinder 14 through the water inlet 20, the hydraulic rod 7 retracts downwards to push the action inclined arm 9 to rotate clockwise, the action longitudinal arm 13 drives the water taking cylinder 14 to move upwards, when the top end of the water taking cylinder 14 is in contact with the bottom surface of the limiting ring 16, the water taking cylinder 14 does not move upwards any more, the action longitudinal arm 13 pulls the movable plug body 24 to overcome the spring force to move upwards, and the movable plug body 24 extrudes the water flow in the water taking, the water is discharged into the filter box 2 through the first side pipe 17, the elastic water band 18 and the second side pipe 19, and the filter 25 filters the water flow.

An electric cylinder bottom plate 27 is fixed on the upper portion of the left side surface of the inside of the pressurizing box 3, an electric cylinder 28 is fixed on the right side surface of the electric cylinder bottom plate 27, an actuating rod 29 is arranged at the right power output end of the electric cylinder 28, a trapezoidal block 30 is fixed on the right end of the actuating rod 29, the lower inclined surface of the trapezoidal block 30 is in contact with the top end of a passive displacement rod 39, the bottom end of the passive displacement rod 39 is fixedly connected with the top end of a third linear spring 38, the bottom end of the third linear spring 38 is fixedly connected with the top end of a baffle plate 37, the bottom end of the baffle plate 37 extends into the inside of a normal pressure chamber 36, the left side surface of the normal pressure chamber 36 is communicated with the right end of a first flow guide pipe 26, a synthesis chamber 35 is arranged inside the pressurizing box 3, the upper portion and the lower portion of the left side surface of the synthesis chamber 35 are respectively communicated with the right ends of a first injection pipe 34 and a second injection pipe, the left end of the first injection pipe 34 is in contact communication with the right side surface of the pressure cylinder 33, the pressure sheet 32 is arranged inside the pressure cylinder 33, the left side surface of the pressure sheet 32 is fixedly connected with the right end of the side push column 31, the left end of the side push column 31 is fixedly connected with the right side surface of the trapezoidal block 30, the left end of the second injection pipe 41 is communicated with the right side surface of the normal pressure chamber 36, the right part of the upper side surface of the normal pressure chamber 36 is communicated with the bottom end of the delivery pipe 40, the top end of the delivery pipe 40 is communicated with the bottom surface of the pressure cylinder 33, the right side surface of the synthesis chamber 35 is communicated with the left end of the second delivery pipe 42, the right end of the second delivery pipe 42 is communicated with the top end of the third delivery pipe 43, the bottom end of the third delivery pipe 43 is extended into the networking box 4, the sensing controller 44 is arranged inside the pressurization box 3, the outer left side surface of the sensing controller 44 is fixedly connected with the middle part of the right side surface of the delivery pipe 40, the inside of the said sense controller 44 has a following resistance 47, the top of the said following resistance 47 is fixedly connected with the left end of the lower surface of the pressure sensing column 45, the right end of the said pressure sensing column 45 extends into the inside of the synthesizing chamber 35, the left end of the said pressure sensing column 45 has a fourth linear spring 46, the lower surface of the said following resistance 47 contacts with the top of the pointer 48, a fixed resistance 49, a first power supply 50, a first switch 51 are connected in series between the left side of the said following resistance 47 and the right inclined plane of the pointer 48 through a wire 52, furthermore, the said invented device can realize the intelligent supercharging function to the water flow, the water flow pressure is stable through the input of the mechanical energy, the water flow flows into the normal pressure chamber 36 through the first draft tube 26, a part of the water flow flows into the synthesizing chamber 35 through the second injection tube 41, a part of the water flow flows into the pressure cylinder 33 through the delivery tube 40, the power of the electric cylinder 28 is transmitted to the trapezoidal block 30 through the actuating rod 29, on one hand, the side pushing rod 31 pushes the pressure plate 32 to the right to pressurize and push the water flow in the pressure cylinder 33 into the first injection pipe 34 and the synthesis chamber 35, on the other hand, the passive displacement rod 39 pushes the third linear spring 3 and the spoiler 37 downwards to cut off the water flow in the convection constant pressure chamber 36 to avoid the backflow of the high pressure water flow, and in addition, when the water flow pressure in the synthesis chamber 35 is lower, the larger the spring force of the fourth linear spring 46 pushes the rightward displacement of the pressure rod 45, the smaller the resistance value of the follow-up resistor 47 connected into the circuit is, the larger the voltage at the two ends of the fixed resistor 49 and the electric cylinder controller 53 is, the larger the power output intensity of the electric cylinder 28 is, and the stronger the pressurizing effect on the water flow is.

A driving cylindrical gear 58 is arranged inside the networking box 4, a second bevel gear 57 is fixed on the front surface of the driving cylindrical gear 58, the right part of the second bevel gear 57 is in contact and meshing with the rear part of the first bevel gear 56, the right side surface of the first bevel gear 56 is fixedly connected with the left part of the follow-up rotating shaft 55, the right end of the follow-up rotating shaft 55 extends into the third guide pipe 43, a follow-up impeller 54 is fixed on the right end of the follow-up rotating shaft 55, the left part of the driving cylindrical gear 58 is in contact and meshing with the right part of the driven gear ring 59, an annular groove 61 is arranged inside the driven gear ring 59, a first permanent magnet 62, a second permanent magnet 63, a third permanent magnet 64 and a fourth permanent magnet 65 are clockwise arranged inside the annular groove 61, a fixed disk 60 is arranged inside the networking box 4, the outer periphery of the fixed disk 60 is in contact with the inner periphery of the driven gear ring 59, the driven gear ring 59 can rotate around the fixed disk 60, a first inclined conductor 66 and a second inclined conductor 67 are arranged inside the fixed disk 60, a first diode 68 and a second diode 69 are connected in series between the left ends of the first inclined conductor 66 and the second inclined conductor 67 through a lead 52, a third diode 70 and a fourth diode 71 are connected in series between the right ends of the first inclined conductor 66 and the second inclined conductor 67 through a lead 52, the top ends of the first diode 68 and the fourth diode 71 are anodes, the bottom ends of the second diode 69 and the third diode 70 are anodes, the bottom ends of the first diode 68 and the third diode 70 are respectively electrically connected with the left side surface of the signal amplifier 72 through leads 52, the right side surface of the signal amplifier 72 is electrically connected with the left side surface of the industrial personal computer 73 through a lead 52, furthermore, the device can realize the function of real-time measurement of water flow based on the internet of things, the flow signal of the water flow is expressed in the form of electric energy, the real-time measurement is convenient, the water flow flows through the third guide pipe 43 and drives the follower impeller 54 to rotate, the power is transmitted to the second bevel gear 57 through the follower rotating shaft 55 and the first bevel gear 56, the driving cylindrical gear 58 drives the driven gear ring 59 to rotate around the fixed disk 60, the magnetic induction lines of the first permanent magnet 62, the second permanent magnet 63, the third permanent magnet 64 and the fourth permanent magnet 65 continuously cut the first inclined conductor 66 and the second inclined conductor 67, the generated induced current is transmitted to the industrial personal computer 73 after the amplification effect of the signal amplifier 72, the industrial personal computer 73 calculates the water flow according to the linear relation that the induced current is larger when the water flow is larger, and transmits the signal to the network memory 75 through the signal belt 74, and further realize the real-time measurement of the water flow.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The utility model provides an intelligence secondary water supply equipment based on thing networking, its characterized in that, including cistern (1), rose box (2), pressure boost case (3), networking case (4), the right part of the outside upper surface of rose box (2) be fixed with pneumatic cylinder bottom plate (5), the top surface of pneumatic cylinder bottom plate (5) be fixed with pneumatic cylinder (6), the top power take off end of pneumatic cylinder (6) be provided with hydraulic stem (7), the top of hydraulic stem (7) pass through first ball pivot (8) and be connected with the right-hand member of action communications jib (9), the middle part of the outside upper surface of rose box (2) be fixed with support long-pole (10), the top of support long-pole (10) be provided with lantern ring (11), the interior week of lantern ring (11) and the right part periphery contact of action communications jib (9), the left end of action communications jib (9) pass through second ball pivot (12) and be connected with the top of vertical movement jib (13), the bottom end of the action longitudinal arm (13) extends into the water taking barrel (14), a limiting cross arm (15) is fixed to the left part of the outer upper surface of the filter box (2), a limiting ring (16) is fixed to the left end of the limiting cross arm (15), and the limiting ring (16) is located right above the water taking barrel (14).

2. The intelligent secondary water supply equipment based on the Internet of things according to claim 1, wherein: the water intake device is characterized in that the upper side surface and the lower side surface of the water intake barrel (14) are respectively provided with a water inlet (20) and a vent (21), a movable plug body (24) is arranged in the water intake barrel (14), the top surface of the movable plug body (24) is fixedly connected with the bottom end of the action longitudinal arm (13), the left part and the right part of the bottom surface of the movable plug body (24) are respectively provided with a first linear spring (22) and a second linear spring (23), the top of the right side surface of the water intake barrel (14) is communicated with the left end of a first lateral pipe (17), the right end of the first lateral pipe (17) is communicated with the top end of an elastic water hose (18), the bottom end of the elastic water hose (18) is communicated with the left end of a second lateral pipe (19), the right end of the second lateral pipe (19) extends into the filter box (2), and the right end of the second lateral pipe (19) is communicated with the left side surface of a filter (25) in a contacting manner, the right side surface of the filter (25) is in contact communication with the left side surface of the first guide pipe (26), and the right end of the first guide pipe (26) extends into the pressurizing box (3).

3. The intelligent secondary water supply equipment based on the Internet of things according to claim 1, wherein: the upper portion of the left side face of the inside of the pressure increasing box (3) is fixed with an electric cylinder bottom plate (27), the right side face of the electric cylinder bottom plate (27) is fixed with an electric cylinder (28), the right power output end of the electric cylinder (28) is provided with an actuating rod (29), the right end of the actuating rod (29) is fixed with a trapezoidal block (30), the lower inclined face of the trapezoidal block (30) is in contact with the top end of a driven displacement rod (39), the bottom end of the driven displacement rod (39) is fixedly connected with the top end of a third linear spring (38), the bottom end of the third linear spring (38) is fixedly connected with the top end of a flow blocking plate (37), the bottom end of the flow blocking plate (37) extends into a normal pressure chamber (36), and the left side face of the normal pressure chamber (36) is communicated with the right end of a first flow guide pipe (26).

4. The intelligent secondary water supply equipment based on the Internet of things according to claim 1, wherein: a synthesis chamber (35) is arranged in the pressurizing box (3), the upper part and the lower part of the left side surface of the synthesis chamber (35) are respectively communicated with the right ends of the first injection pipe (34) and the second injection pipe (41), the left end of the first injection pipe (34) is in contact communication with the right side surface of the pressure cylinder (33), a pressure sheet (32) is arranged in the pressure cylinder (33), the left side surface of the pressure sheet (32) is fixedly connected with the right end of the side pushing column (31), the left end of the side pushing column (31) is fixedly connected with the right side surface of the trapezoidal block (30), the left end of the second injection pipe (41) is communicated with the right side surface of the normal pressure chamber (36), the right part of the upper side surface of the normal pressure chamber (36) is communicated with the bottom end of the conveying pipe (40), and the top end of the conveying pipe (40) is communicated with the bottom surface of the pressure cylinder (33), the right side surface of the synthesis chamber (35) is communicated with the left end of the second guide pipe (42), the right end of the second guide pipe (42) is communicated with the top end of the third guide pipe (43), and the bottom end of the third guide pipe (43) extends into the inside of the header (4).

5. The intelligent secondary water supply equipment based on the Internet of things according to claim 1, wherein: a sensing controller (44) is arranged in the pressurizing box (3), the left side surface of the outer part of the sensing controller (44) is fixedly connected with the middle part of the right side surface of the conveying pipe (40), a follow-up resistor (47) is arranged in the sensing controller (44), the top surface of the follow-up resistor (47) is fixedly connected with the left end of the lower surface of the pressure sensing column (45), the right end of the pressure sensing column (45) extends into the synthesis chamber (35), the left end of the pressure sensing column (45) is provided with a fourth linear spring (46), the lower surface of the follow-up resistor (47) is contacted with the top end of the pointer sheet (48), a fixed resistor (49), a first power supply (50) and a first switch (51) are connected in series between the left side surface of the follow-up resistor (47) and the right inclined surface of the pointer sheet (48) through a lead (52), the fixed resistor (49) is connected with the electric cylinder controller (53) in parallel through a lead (52).

6. The intelligent secondary water supply equipment based on the Internet of things according to claim 1, wherein: a driving cylindrical gear (58) is arranged inside the networking box (4), a second bevel gear (57) is fixed on the front surface of the driving cylindrical gear (58), the right part of the second bevel gear (57) is in contact engagement with the rear part of the first bevel gear (56), the right side surface of the first bevel gear (56) is fixedly connected with the left end of the follow-up rotating shaft (55), the right end of the follow-up rotating shaft (55) extends into the third flow guide pipe (43), a follow-up impeller (54) is fixed on the right end of the follow-up rotating shaft (55), the left part of the driving cylindrical gear (58) is in contact engagement with the right part of the driven gear ring (59), an annular groove (61) is arranged inside the driven gear ring (59), and a first permanent magnet (62), a second permanent magnet (63) and a second permanent magnet (63) are clockwise arranged inside the annular groove (61), A third permanent magnet (64) and a fourth permanent magnet (65).

7. The intelligent secondary water supply equipment based on the Internet of things according to claim 1, wherein: the inside of antithetical couplet net case (4) be provided with fixed disc (60), the periphery of fixed disc (60) and the interior peripheral contact of driven ring gear (59), driven ring gear (59) can encircle fixed disc (60) and rotate, the inside of fixed disc (60) be provided with first oblique conductor (66), second oblique conductor (67), the left end of first oblique conductor (66), second oblique conductor (67) between establish ties through wire (52) have first diode (68), second diode (69), the right-hand member of first oblique conductor (66), second oblique conductor (67) between establish ties through wire (52) have third diode (70), fourth diode (71), the top of first diode (68), fourth diode (71) be the positive pole, second diode (69), The bottom of third diode (70) is the positive pole, the bottom of bottom, the bottom of third diode (70) of first diode (68) pass through wire (52) and signal amplifier (72) left side electric connection respectively, signal amplifier (72) the right flank pass through wire (52) and industrial computer (73) left side electric connection, industrial computer (73) the downside pass through signal band (74) and network memory (75) the side electric connection that goes up.