CN111749305A

CN111749305A - Secondary water supply equipment

Info

Publication number: CN111749305A
Application number: CN202010650718.0A
Authority: CN
Inventors: 贺俊威
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-07-08
Filing date: 2020-07-08
Publication date: 2020-10-09

Abstract

The invention provides secondary water supply equipment which comprises a water storage tank, a filter tank and a pressure tank, wherein a first transverse through pipe is arranged on the left side surface of the water storage tank, a water inlet pipe is arranged at the top of the first transverse through pipe, the right side surface of the water storage tank is communicated with the left side surface of the filter tank through a second transverse through pipe, a crushing chamber is arranged at the bottom of the filter tank, a power box is arranged at the bottom of the crushing chamber, the right side surface of the filter tank is communicated with the left side surface of the pressure tank through a third transverse through pipe, a fourth transverse through pipe is arranged on the right side surface of the pressure tank, a water outlet pipe is arranged at the bottom of the fourth transverse through pipe, a pressure conveying tank is arranged below the pressure tank, and a first electric cylinder bottom plate and a second electric cylinder bottom plate are respectively arranged on the left side. The technical scheme disclosed by the invention effectively solves the technical problems that the prior art does not have the capabilities of automatically controlling the water storage capacity, filtering and crushing impurities, grading and pressurizing and the like, and is beneficial to popularization and application.

Description

Secondary water supply equipment

Technical Field

The invention relates to the technical field of water supply, in particular to secondary water supply equipment.

Background

The secondary water supply of 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 or not is directly related to the quality of secondary water supply, water pressure and water supply safety, and is closely related to the normal and stable life of people. Compared with the water supply of raw water, the water quality of secondary water supply is more easily polluted.

The invention of the secondary water supply equipment brings various conveniences to production and life of people, and in modern production and life, people can not leave the secondary water supply equipment, and the secondary water supply equipment plays an indispensable role. However, the existing secondary water supply equipment does not always have the technical problems of automatic water storage amount control, impurity filtering and crushing, grading pressurization capacity and the like, so in view of the above, research and improvement are carried out on the existing structure and defects, and a novel secondary water supply equipment is provided, so that the problems can be effectively solved, and popularization and application are facilitated.

Disclosure of Invention

The invention aims to provide secondary water supply equipment to solve the technical problems that the prior art does not have the capabilities of automatically controlling water storage capacity, filtering and crushing impurities, grading pressurization and the like.

In order to achieve the purpose, the invention provides secondary water supply equipment which comprises a water storage tank, a filter tank and a pressurizing tank, wherein a first transverse through pipe is arranged on the left side surface of the water storage tank, a water inlet pipe is arranged at the top of the first transverse through pipe, the right side surface of the water storage tank is communicated with the left side surface of the filter tank through a second transverse through pipe, a crushing chamber is arranged at the bottom of the filter tank, a power tank is arranged at the bottom of the crushing chamber, the right side surface of the filter tank is communicated with the left side surface of the pressurizing tank through a third transverse through pipe, a fourth transverse through pipe is arranged on the right side surface of the pressurizing tank, a water outlet pipe is arranged at the bottom of the fourth transverse through pipe, a pressure delivery tank is arranged below the pressurizing tank, a first electric cylinder bottom plate and a second electric cylinder bottom plate are respectively arranged on the left side wall and the right side wall inside the water storage tank, and a first electric cylinder bottom plate and a second electric cylinder bottom plate are, The bottom of the electric cylinder bottom plate of second is provided with first electric cylinder, the electric cylinder of second respectively, the power take off end of first electric cylinder, the electric cylinder of second be provided with first action pole, second action pole respectively, the lower extreme of first action pole, second action pole have first shielding plate, second shielding plate through welded fastening respectively, the left surface and the mouth contact of coming stream of first shielding plate, the right flank of second shielding plate with the mouth contact of effluenting, the bottom of first shielding plate, second shielding plate be connected with first spring beam, second spring beam respectively, first spring beam, second spring beam set up respectively at the top of first spring cartridge, second spring cartridge. Further, the inside of water storage box be provided with the buoyancy piece, the top of buoyancy piece be provided with the buoyancy post, the top of buoyancy post stretch into in the induction box and with the left side fixed connection of the bottom surface of induction plate, the right side of top, the bottom surface of induction plate be provided with compression spring, compression spring down respectively, the top of last compression spring and first piezo-resistor's bottom fixed connection, first piezo-resistor's top be provided with first elastic column, lower compression spring's bottom and second piezo-resistor's top fixed connection, second piezo-resistor's bottom be provided with second elastic column, first piezo-resistor pass through wire and first electronic jar controller parallel connection, second piezo-resistor pass through wire and second electronic jar controller parallel connection, first piezo-resistor, The second piezoresistor is connected in series with the fixed resistor, the first power supply and the switch through a lead.

The left side surface and the right side surface of the filter box are respectively provided with an inlet and an outlet, the right side of the inlet is provided with a one-way valve, a left inclined column and a right inclined column are arranged inside the filter box, the right side of the right inclined column is provided with a filter plate, a crushing cutter is arranged inside the crushing chamber, the bottom of the crushing cutter is fixedly connected with the top of the rotating shaft, and the bottom of the rotating shaft is fixedly connected with the top of the high-speed pinion through welding. Furthermore, a third electric cylinder bottom plate is fixed on the right side wall of the interior of the power box through a first series of bolt groups, the left side surface of the third electric cylinder bottom plate is provided with a third electric cylinder which is electrically connected with a third electric cylinder controller through a lead, the power output end of the third electric cylinder is provided with a third action rod, the left end of the third action rod is fixed with a connecting block, the left end of the connecting block is fixedly connected with the right end of the long rack, the rear side surface of the long rack is meshed with the lower end of the front side surface of the low-speed big gear, the upper end of the right side surface of the low-speed gearwheel is meshed with the left side surface of the high-speed pinion, the upper side of the left end of the long rack is contacted with the lower side surface of the upper limiting strip, the lower side of the left end of the long rack is in contact with the upper side face of the lower limiting strip, and the left side face of the long rack is provided with a return spring.

The left side wall of the inner part of the pressure transmission box is fixedly provided with a fourth electric cylinder bottom plate through a second series of bolt groups, the right side face of the fourth electric cylinder bottom plate is provided with a fourth electric cylinder, the power output end of the fourth electric cylinder is provided with a fourth action rod, the right end of the fourth action rod is connected with the left end of a lower inclined arm through a connecting rotating shaft, the right end of the lower inclined arm is connected with a lower fixed half shaft, the lower fixed half shaft is arranged on the left side face of a sliding block, the right side face of the sliding block is in contact fit with a guide rail, the left side face of the sliding block is provided with an upper fixed half shaft, the upper fixed half shaft is connected with the right end of the upper inclined arm, the left end of the upper inclined arm is fixedly connected with the connecting half shaft, the connecting half shaft is arranged on the right side face of a middle block, the left side face of the middle block is fixedly provided with an inclined pressing block, and the left of the inclined pressing block is sequentially provided with a fifth, The top of the fifth compression leg, the top of the fourth compression leg, the top of the third compression leg, the top of the second compression leg and the top of the first compression leg extend into the pressurizing box. Further, the left and right side of pressure tank be provided with left opening, right opening respectively, the inside of pressure tank be provided with pressure sensor, siren, pressure sensor and siren pass through contact tube electric connection, the inside of pressure tank be provided with fixation nut, fixation nut and the middle part screw-thread fit of rectangular bolt, the left end of rectangular bolt be fixed with the carousel.

The filter plate, the long rack, the return spring, the alarm 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 components of the secondary water supply equipment are reliably connected, the detection and maintenance are very convenient, the realization cost is low, and the filter plate, the long rack, the return spring, the alarm and the like which are involved in the equipment are all assembled by the existing equipment, so that the popularization and the application of the secondary water supply equipment in the technical field of future water supply are facilitated;

2. the water storage amount of the secondary water supply equipment is innovatively and automatically adjusted and controlled, and the problem that the water storage amount of the water supply equipment is unstable due to lack of a water storage amount control means in the prior art is solved The top of the second spring cylinder is provided with a buoyancy column, the top of the buoyancy column extends into the induction box and is fixedly connected with the left side of the bottom surface of the induction plate, the top of the induction plate and the right side of the bottom surface are respectively provided with an upper compression spring and a lower compression spring, the top of the upper compression spring is fixedly connected with the bottom of the first piezoresistor, the bottom of the lower compression spring is fixedly connected with the top of the second piezoresistor, the first piezoresistor is connected with the first electric cylinder controller in parallel through a lead, the second piezoresistor is connected with the second electric cylinder controller in parallel through a lead, after the internal water storage amount of the water storage box is excessive and the water surface contacts the block, the water surface generates upward buoyancy action on the buoyancy block, the buoyancy block transmits the buoyancy to the induction plate through the buoyancy column, the higher the internal water level of the water storage box is, the larger the buoyancy sensed by the induction plate is, and the larger displacement is generated upwards, the larger the pressure of the first piezoresistor is, the smaller the pressure of the second piezoresistor is, the larger the resistance of the first piezoresistor is, the smaller the resistance of the second piezoresistor is, the larger the voltage distributed by the first electric cylinder controller is, and the smaller the voltage distributed by the second electric cylinder controller is, so that the first electric cylinder controller controls the first electric cylinder to work to push the first shielding plate to downwards generate larger displacement, the opening area formed by the left side surface of the first shielding plate and the inflow port is reduced, the inflow flow is reduced, the second electric cylinder controller controls the second electric cylinder to work to push the second shielding plate to downwards generate smaller displacement, the opening area formed by the right side surface of the second shielding plate and the outflow port is increased, the outflow flow is increased, and the intelligent regulation and control of the water storage capacity in the water storage tank are realized;

3. the secondary water supply equipment provided by the invention innovatively realizes filtration and crushing treatment of impurities in water flow, avoids the occurrence of accidents of blocking equipment due to excessive deposition of impurities, and particularly, the left side surface and the right side surface of the filter box are respectively provided with an inlet and an outlet, the right side of the inlet is provided with a one-way valve, the inside of the filter box is provided with a left inclined column and a right inclined column, the right side of the right inclined column is provided with a filter plate, the inside of a crushing chamber is provided with a crushing cutter, the bottom of the crushing cutter is fixedly connected with the top of a rotating shaft, the bottom of the rotating shaft is fixedly connected with the top of a high-speed pinion through welding, the right side wall inside the power box is fixedly provided with a third electric cylinder bottom plate through a first series of bolt groups, the left side surface of the third electric cylinder bottom plate is provided with a third electric cylinder, and the third electric cylinder is electrically connected with, the power output end of the third electric cylinder is provided with a third action rod, the left end of the third action rod is fixedly provided with a connecting block, the left end of the connecting block is fixedly connected with the right end of a long rack, the rear side surface of the long rack is meshed with the lower end of the front side surface of a low-speed big gear, the upper end of the right side surface of the low-speed big gear is meshed with the left side surface of a high-speed pinion, the upper side of the left end of the long rack is contacted with the lower side surface of an upper limiting strip, the lower side of the left end of the long rack is contacted with the upper side surface of a lower limiting strip, the left side surface of the long rack is provided with a return spring, when water flows into the filter box through an introducing port, impurities in the water flow are blocked by a filter plate and then deposited, the impurities slide into the crushing chamber through the upper inclined surfaces of a left inclined column and a right inclined column, the third electric cylinder controller controls the third electric cylinder to, the low-speed large gear further drives the high-speed pinion to rotate, and the high-speed pinion transmits power to the crushing cutter through the rotating shaft so as to crush the precipitated impurities in the crushing chamber;

4. the secondary water supply equipment can realize the function of stepped pressurization on water flow, and is favorable for ensuring the water supply capacity of the equipment, particularly, a fourth electric cylinder bottom plate is fixed on the inner left side wall of the pressure conveying box through a second series of bolt groups, a fourth electric cylinder is arranged on the right side surface of the fourth electric cylinder bottom plate, a fourth action rod is arranged at the power output end of the fourth electric cylinder, the right end of the fourth action rod is connected with the left end of a lower inclined arm through a connecting rotating shaft, the right end of the lower inclined arm is connected with a lower fixed half shaft, the lower fixed half shaft is arranged on the left side surface of a sliding block, the right side surface of the sliding block is in contact fit with a guide rail, an upper fixed half shaft is arranged on the left side surface of the sliding block, the upper fixed half shaft is connected with the right end of an upper inclined arm, the left end of the upper inclined arm is fixedly connected with a connecting half shaft, the connecting half shaft is arranged on the right, a fifth compression leg, a fourth compression leg, a third compression leg, a second compression leg, a first compression leg, a fifth compression leg, a fourth compression leg, a third compression leg, a second compression leg, a top of the first compression leg extends into the pressurizing box, a hydraulic pressure sensor and an alarm are arranged in the pressurizing box, the hydraulic pressure sensor and the alarm are electrically connected through a conductive pipe, a fixing nut is arranged in the pressurizing box and is in threaded fit with the middle of a strip bolt, a rotary disc is fixed at the left end of the strip bolt, a fourth action rod is controlled to move rightwards when a fourth electric cylinder works, power is transmitted to a lower inclined arm through a connecting rotating shaft and pushes a sliding block to move upwards along a guide rail, the sliding block pushes a middle block and an inclined block to move leftwards through the upper inclined arm, and the first compression leg, the second compression leg, the third compression leg, the fourth compression leg, the second compression, Fifth compression leg upward movement, and then to the rivers pressurization of pressurized box inside, the user can be through the position about rotatory carousel with the rectangular bolt of adjustment, and then the number of the compression leg that can impress pressurized box inside is changed to realize the regulation of pressurization size and step pressure function promptly, in addition, after water pressure sensor sensed pressurized box inside water pressure too high, send signal to the siren through the current-conducting tube, the siren sends out the police dispatch newspaper in order to remind the user.

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 left side view of the overall structure of the device of the present invention.

Fig. 4 is a right-view structural diagram of the overall structure of the device of the present invention.

Fig. 5 is a schematic view of the internal structure of a cistern according to the present invention.

Fig. 6 is a schematic view of the internal structure of the induction box 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 power box according to the present invention.

Fig. 9 is a schematic view of the internal structure of the pressurized tank according to the present invention.

Fig. 10 is a schematic view of the internal structure of the pressure transmission box according to the present invention.

1. A water storage tank, 2, a filter tank, 3, a pressurizing tank, 4, a power box, 5, a pressure conveying tank, 6, a water inlet pipe, 7, a first transverse pipe, 8, a second transverse pipe, 9, a third transverse pipe, 10, a fourth transverse pipe, 11, a water outlet pipe, 12, a crushing chamber, 13, a first electric cylinder bottom plate, 14, a second electric cylinder bottom plate, 15, a first electric cylinder, 16, a second electric cylinder, 17, a first action rod, 18, a second action rod, 19, a first baffle plate, 20, a second baffle plate, 21, an inflow port, 22, an outflow port, 23, a first spring rod, 24, a second spring rod, 25, a first spring cylinder, 26, a second spring cylinder, 27, a buoyancy block, 28, a buoyancy column, 29, an induction tank, 30, an induction plate, 31, an upper compression spring, 32, a lower compression spring, 33, a first piezoresistor, 34, a second piezoresistor, 35, a first spring column, 36. a second elastic cylinder 37, a lead wire 38, a first electric cylinder controller 39, a second electric cylinder controller 40, a fixed resistor 41, a first power supply 42, a switch 43, a check valve 44, an introduction port 45, a discharge port 46, a left inclined cylinder 47, a right inclined cylinder 48, a filter plate 49, a crushing cutter 50, a rotation shaft 51, a first series of bolt groups 52, a third electric cylinder bottom plate 53, a third electric cylinder 54, a third electric cylinder controller 55, a third actuating rod 56, a connecting block 57, a high-speed pinion 58, a long rack bar 59, a low-speed large gear 60, an upper limit bar 61, a lower limit bar 62, a return spring 63, a hydraulic pressure sensor 64, a conductive pipe 65, an alarm 66, a left through port 67, a right through port 68, a fixing nut 69, a long bolt 70, a rotary table 71, a fifth pressure cylinder, 72. a fourth compression leg 73, a third compression leg 74, a second compression leg 75, a first compression leg 76, a second series bolt group 77, a fourth electric cylinder bottom plate 78, a fourth electric cylinder 79, a fourth action lever 80, a connecting rotating shaft 81, a lower oblique arm 82, a lower fixed half shaft 83, an upper fixed half shaft 84, a sliding block 85, a guide rail 86, an upper oblique arm 87, a connecting half shaft 88, a middle block 89 and an oblique pressing block.

Detailed Description

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

referring to fig. 1 to 10, the secondary water supply equipment provided by the invention comprises a water storage tank 1, a filter tank 2 and a pressure tank 3, wherein a first transverse pipe 7 is arranged on the left side surface of the water storage tank 1, a water inlet pipe 6 is arranged at the top of the first transverse pipe 7, the right side surface of the water storage tank 1 is communicated with the left side surface of the filter tank 2 through a second transverse pipe 8, a crushing chamber 12 is arranged at the bottom of the filter tank 2, a power tank 4 is arranged at the bottom of the crushing chamber 12, the right side surface of the filter tank 2 is communicated with the left side surface of the pressure tank 3 through a third transverse pipe 9, a fourth transverse pipe 10 is arranged on the right side surface of the pressure tank 3, a water outlet pipe 11 is arranged at the bottom of the fourth transverse pipe 10, a pressure tank 5 is arranged below the pressure tank 3, and a first electric cylinder bottom plate 13, a second electric cylinder bottom plate and a second electric cylinder bottom plate are respectively arranged on the left side wall and, The electric cylinder type air conditioner comprises a second electric cylinder bottom plate 14, wherein a first electric cylinder 15 and a second electric cylinder 16 are respectively arranged at the bottoms of the first electric cylinder bottom plate 13 and the second electric cylinder bottom plate 14, a first action rod 17 and a second action rod 18 are respectively arranged at the power output ends of the first electric cylinder 15 and the second electric cylinder 16, the lower ends of the first action rod 17 and the second action rod 18 are respectively fixedly provided with a first shielding plate 19 and a second shielding plate 20 through welding, the left side surface of the first shielding plate 19 is contacted with an inflow opening 21, the right side surface of the second shielding plate 20 is contacted with an outflow opening 22, the bottoms of the first shielding plate 19 and the second shielding plate 20 are respectively connected with a first spring rod 23 and a second spring rod 24, and the first spring rod 23 and the second spring rod 24 are respectively arranged at the tops of a first spring cylinder 25 and a second spring cylinder 26.

Further, a buoyancy block 27 is arranged inside the water storage tank 1, a buoyancy column 28 is arranged at the top of the buoyancy block 27, the top of the buoyancy column 28 extends into the induction tank 29 and is fixedly connected with the left side of the bottom surface of the induction plate 30, an upper compression spring 31 and a lower compression spring 32 are respectively arranged on the right sides of the top surface and the bottom surface of the induction plate 30, the top of the upper compression spring 31 is fixedly connected with the bottom of the first piezoresistor 33, a first elastic column 35 is arranged at the top of the first piezoresistor 33, the bottom of the lower compression spring 32 is fixedly connected with the top of the second piezoresistor 34, a second elastic column 36 is arranged at the bottom of the second piezoresistor 34, the first piezoresistor 33 is connected with a first electric cylinder controller 38 in parallel through a lead 37, the second piezoresistor 34 is connected with a second electric cylinder controller 39 in parallel through a lead 37, the first voltage dependent resistor 33 and the second voltage dependent resistor 34 are connected in series with the fixed resistor 40, the first power source 41 and the switch 42 through the conducting wire 37. Furthermore, after the internal water storage amount of the water storage tank 1 is sufficient and the water surface contacts the buoyancy block 27, the water surface generates an upward buoyancy effect on the buoyancy block 27, the buoyancy block 27 transmits buoyancy to the sensing plate 30 through the buoyancy column 28, the higher the water level is, the more buoyancy is sensed by the sensing plate 30 and the larger displacement is generated upwards, the larger the pressure of the first piezoresistor 33 is, the smaller the pressure of the second piezoresistor 34 is, the larger the resistance of the first piezoresistor 33 is, the smaller the resistance of the second piezoresistor 34 is, the larger the voltage distributed by the first electric cylinder controller 38 is, the smaller the voltage distributed by the second electric cylinder controller 39 is, the first electric cylinder controller 38 controls the first electric cylinder 15 to work to push the first shielding plate 19 to generate a larger displacement downwards, the opening area formed by the left side surface of the first shielding plate 19 and the inflow port 21 is reduced, the inflow flow rate is reduced, the second electric cylinder controller 39 controls the second electric cylinder 16 to work to push the second shielding plate 20 to generate a smaller displacement downwards, and then the opening area that the right flank of second shielding plate 20 and outflowing port 22 formed increases, increases the outflow, and then realizes the intelligent regulation control to the inside water storage capacity of water storage box 1.

Referring to fig. 1 to 10, an inlet 44 and an outlet 45 are respectively disposed on left and right side surfaces of the filter box 2, a check valve 43 is disposed on a right side of the inlet 44, a left inclined column 46 and a right inclined column 47 are disposed inside the filter box 2, a filter plate 48 is disposed on a right side of the right inclined column 47, a crushing cutter 49 is disposed inside the crushing chamber 12, a bottom of the crushing cutter 49 is fixedly connected to a top of a rotating shaft 50, and a bottom of the rotating shaft 50 is fixedly connected to a top of a high-speed pinion 57 by welding.

Further, a third electric cylinder bottom plate 52 is fixed on the right side wall of the interior of the power box 4 through a first series of bolt sets 51, a third electric cylinder 53 is arranged on the left side surface of the third electric cylinder bottom plate 52, the third electric cylinder 53 is electrically connected with a third electric cylinder controller 54 through a lead 37, a third action rod 55 is arranged at the power output end of the third electric cylinder 53, a connecting block 56 is fixed at the left end of the third action rod 55, the left end of the connecting block 56 is fixedly connected with the right end of a long rack 58, the rear side surface of the long rack 58 is meshed with the lower end of the front side surface of a low-speed large gear 59, the upper end of the right side surface of the low-speed large gear 59 is meshed with the left side surface of a high-speed pinion 57, the upper side of the left end of the long rack 58 is contacted with the lower side surface of an upper limit bar 60, the lower side of the left end of the long rack 58 is contacted with the upper side surface of a lower limit bar 61, the left side surface of the long rack 58 is provided with a return spring 62. Furthermore, when water flows into the filter box 2 through the inlet 44, impurities in the water flow are blocked by the filter plate 48 and then precipitate, and slide into the crushing chamber 12 through the upper inclined surfaces of the left inclined column 46 and the right inclined column 47, the third electric cylinder controller 54 controls the third electric cylinder 53 to operate, power is transmitted to the long rack 58 through the connecting block 56, the long rack 58 performs left-right displacement motion and drives the low-speed large gear 59 to rotate, the low-speed large gear 59 further drives the high-speed pinion 57 to rotate, and the high-speed pinion 57 transmits power to the crushing cutter 49 through the rotating shaft 50, so that crushing treatment on the impurities precipitated in the crushing chamber 12 is realized.

Further, a fourth electric cylinder bottom plate 77 is fixed on the inner left side wall of the pressure transmission box 5 through a second series of bolt sets 76, a fourth electric cylinder 78 is arranged on the right side surface of the fourth electric cylinder bottom plate 77, a fourth action rod 79 is arranged at the power output end of the fourth electric cylinder 78, the right end of the fourth action rod 79 is connected with the left end of a lower inclined arm 81 through a connecting rotating shaft 80, the right end of the lower inclined arm 81 is connected with a lower fixed half shaft 82, the lower fixed half shaft 82 is arranged on the left side surface of a sliding block 84, the right side surface of the sliding block 84 is in contact fit with a guide rail 85, an upper fixed half shaft 83 is arranged on the left side surface of the sliding block 84, the upper fixed half shaft 83 is connected with the right end of an upper inclined arm 86, the left end of the upper inclined arm 86 is fixedly connected with a connecting half shaft 87, the connecting half shaft 87 is arranged on the right side surface of a middle block 88, an inclined pressing block 89 is fixed on the left side surface of the middle block 88, a fifth pressing column 71, a fourth pressing column 72, a third pressing column 73, a second pressing column 74 and a first pressing column 75 are sequentially arranged on the left side of the inclined pressing block 89 from left to right, and the tops of the fifth pressing column 71, the fourth pressing column 72, the third pressing column 73, the second pressing column 74 and the first pressing column 75 extend into the pressurizing box 3.

Referring to fig. 1 to 10, further, a left through hole 66 and a right through hole 67 are respectively formed on the left side surface and the right side surface of the pressure tank 3, a water pressure sensor 63 and an alarm 65 are arranged inside the pressure tank 3, the water pressure sensor 63 and the alarm 65 are electrically connected through a conductive pipe 64, a fixing nut 68 is arranged inside the pressure tank 3, the fixing nut 68 is in threaded fit with the middle of a strip bolt 69, and a rotary disc 70 is fixed to the left end of the strip bolt 69. Further, the fourth electric cylinder 78 is operated, the fourth actuating rod 79 moves to the right, the power is transmitted to the lower inclined arm 81 through the connecting rotating shaft 80 and pushes the slide block 84 to move upward along the guide rail 85, the slide block 84 pushes the intermediate block 88 and the inclined block 89 to move leftward through the upper inclined arm 86, the left inclined surface of the inclined block 89 sequentially presses the first pressure column 75, the second pressure column 74, the third pressure column 73, the fourth pressure column 72 and the fifth pressure column 71 to move upward, thereby pressurizing the water flow in the pressurizing tank 3, the user can adjust the left and right positions of the long bolts 69 by rotating the rotary plate 70, further, the number of press-fitting pins which can be press-fitted into the interior of the pressure tank 3 is changed to adjust the magnitude of the pressure, and further, when the water pressure sensor 63 senses that the water pressure inside the pressurizing tank 3 is too high, a signal is sent to the alarm 65 through the conductive pipe 64, and the alarm 65 gives an alarm to remind a user.

The filter plate 48, the long rack 58, the return spring 62, the alarm 65 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 secondary water supply equipment which comprises a water storage tank 1, a filter tank 2 and a pressure tank 3, wherein a first transverse through pipe 7 is arranged on the left side surface of the water storage tank 1, a water inlet pipe 6 is arranged at the top of the first transverse through pipe 7, the right side surface of the water storage tank 1 is communicated with the left side surface of the filter tank 2 through a second transverse through pipe 8, a crushing chamber 12 is arranged at the bottom of the filter tank 2, a power tank 4 is arranged at the bottom of the crushing chamber 12, the right side surface of the filter tank 2 is communicated with the left side surface of the pressure tank 3 through a third transverse through pipe 9, a fourth transverse through pipe 10 is arranged on the right side surface of the pressure tank 3, a water outlet pipe 11 is arranged at the bottom of the fourth transverse through pipe 10, a pressure tank 5 is arranged below the pressure tank 3, and a first electric cylinder bottom plate 13, a first electric cylinder bottom plate, a second electric cylinder bottom plate and a second electric cylinder bottom, The electric cylinder type air conditioner comprises a second electric cylinder bottom plate 14, wherein a first electric cylinder 15 and a second electric cylinder 16 are respectively arranged at the bottoms of the first electric cylinder bottom plate 13 and the second electric cylinder bottom plate 14, a first action rod 17 and a second action rod 18 are respectively arranged at the power output ends of the first electric cylinder 15 and the second electric cylinder 16, the lower ends of the first action rod 17 and the second action rod 18 are respectively fixedly provided with a first shielding plate 19 and a second shielding plate 20 through welding, the left side surface of the first shielding plate 19 is contacted with an inflow opening 21, the right side surface of the second shielding plate 20 is contacted with an outflow opening 22, the bottoms of the first shielding plate 19 and the second shielding plate 20 are respectively connected with a first spring rod 23 and a second spring rod 24, and the first spring rod 23 and the second spring rod 24 are respectively arranged at the tops of a first spring cylinder 25 and a second spring cylinder 26. The inside of the water storage tank 1 is provided with a buoyancy block 27, the top of the buoyancy block 27 is provided with a buoyancy column 28, the top of the buoyancy column 28 extends into the induction tank 29 and is fixedly connected with the left side of the bottom surface of the induction plate 30, after the water storage capacity in the water storage tank 1 is enough and the water surface contacts the buoyancy block 27, the water surface generates an upward buoyancy effect on the buoyancy block 27, the buoyancy block 27 transmits the buoyancy to the induction plate 30 through the buoyancy column 28, the higher the water level is, the more the buoyancy is sensed by the induction plate 30 and the larger upward displacement is generated, further the larger the pressure of the first piezoresistor 33 is, the smaller the pressure of the second piezoresistor 34 is, the larger the resistance of the first piezoresistor 33 is, the smaller the resistance of the second piezoresistor 34 is, further the larger the voltage distributed by the first electric cylinder controller 38 is, the smaller the voltage distributed by the second electric cylinder controller 39 is, further the first electric cylinder controller 38 controls the first electric cylinder 15 to work to push the first shielding plate 19 to generate a larger displacement downward, and then the opening area that the left surface of first shielding plate 19 and inflow mouth 21 formed reduces, reduces the inflow flow, and electronic jar controller 39 of second controls electronic jar 16 work and promotes the downward production less displacement of second shielding plate 20, and then the opening area increase that the right surface of second shielding plate 20 and outflow mouth 22 formed increases, increases the outflow flow, and then realizes the intelligent regulation control to the inside water storage capacity of water storage box 1.

The left side and the right side of the filter box 2 are respectively provided with an inlet 44 and an outlet 45, the right side of the inlet 44 is provided with a one-way valve 43, the inside of the filter box 2 is provided with a left inclined column 46 and a right inclined column 47, the right side of the right inclined column 47 is provided with a filter plate 48, the inside of the crushing chamber 12 is provided with a crushing cutter 49, the bottom of the crushing cutter 49 is fixedly connected with the top of a rotating shaft 50, and the bottom of the rotating shaft 50 is fixedly connected with the top of a high-speed pinion 57 through welding. Further, a third electric cylinder bottom plate 52 is fixed on the right side wall of the interior of the power box 4 through a first series of bolt sets 51, a third electric cylinder 53 is arranged on the left side surface of the third electric cylinder bottom plate 52, the third electric cylinder 53 is electrically connected with a third electric cylinder controller 54 through a lead 37, a third action rod 55 is arranged at the power output end of the third electric cylinder 53, a connecting block 56 is fixed at the left end of the third action rod 55, the left end of the connecting block 56 is fixedly connected with the right end of a long rack 58, when water flows into the interior of the filter box 2 through the introducing port 44, impurities in the water flow are blocked by the filter plate 48 and precipitate, and slide into the interior of the crushing chamber 12 through the upper inclined surfaces of the left inclined column 46 and the right inclined column 47, the third electric cylinder controller 54 controls the third electric cylinder 53 to work, power is transmitted to the long rack 58 through the connecting block 56, the long rack 58 moves left and right and drives the low-speed gearwheel 59 to rotate, the low-speed gearwheel 59 further drives the high-speed pinion 57 to rotate, and the high-speed pinion 57 transmits power to the crushing cutter 49 through the rotating shaft 50 so as to crush the impurities precipitated in the crushing chamber 12.

A fourth electric cylinder bottom plate 77 is fixed on the left side wall of the interior of the pressure transmission box 5 through a second series of bolt groups 76, a fourth electric cylinder 78 is arranged on the right side surface of the fourth electric cylinder bottom plate 77, a fourth action rod 79 is arranged at the power output end of the fourth electric cylinder 78, the right end of the fourth action rod 79 is connected with the left end of a lower inclined arm 81 through a connecting rotating shaft 80, the right end of the lower inclined arm 81 is connected with a lower fixed half shaft 82, the lower fixed half shaft 82 is arranged on the left side surface of a sliding block 84, the right side surface of the sliding block 84 is in contact fit with a guide rail 85, an upper fixed half shaft 83 is arranged on the left side surface of the sliding block 84, the upper fixed half shaft 83 is connected with the right end of an upper inclined arm 86, the left end of the upper inclined arm 86 is fixedly connected with a connecting half shaft 87, the connecting half shaft 87 is arranged on the right side surface of a middle block 88, an inclined block 89 is fixed on the left side surface of the middle block 88, the fourth electric cylinder 78 works, the fourth actuating rod 79 moves rightwards, power is transmitted to the lower inclined arm 81 through the connecting rotating shaft 80 and pushes the sliding block 84 to move upwards along the guide rail 85, the sliding block 84 pushes the middle block 88 and the inclined block 89 to move leftwards through the upper inclined arm 86, the left inclined surface of the inclined block 89 sequentially presses the first pressure column 75, the second pressure column 74, the third pressure column 73, the fourth pressure column 72 and the fifth pressure column 71 to move upwards, so as to pressurize water flow in the pressurizing box 3, a user can adjust the left and right positions of the strip bolt 69 by rotating the rotary disc 70, further change the number of the pressure columns which can be pressed into the pressurizing box 3, so as to realize the adjustment of the pressurizing size, in addition, when the water pressure sensor 63 senses that the water pressure in the pressurizing box 3 is overhigh, a signal is sent to the alarm 65 through the electric conduction pipe 64, the alarm 65 issues an alarm to alert the user.

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. A secondary water supply device is characterized by comprising a water storage tank (1), a filter tank (2) and a pressurizing tank (3), wherein a first transverse pipe (7) is arranged on the left side surface of the water storage tank (1), a water inlet pipe (6) is arranged at the top of the first transverse pipe (7), the right side surface of the water storage tank (1) is communicated with the left side surface of the filter tank (2) through a second transverse pipe (8), a crushing chamber (12) is arranged at the bottom of the filter tank (2), a power box (4) is arranged at the bottom of the crushing chamber (12), the right side surface of the filter tank (2) is communicated with the left side surface of the pressurizing tank (3) through a third transverse pipe (9), a fourth transverse pipe (10) is arranged on the right side surface of the pressurizing tank (3), a water outlet pipe (11) is arranged at the bottom of the fourth transverse pipe (10), a pressure transmission box (5) is arranged below the pressure box (3), a first electric cylinder bottom plate (13) and a second electric cylinder bottom plate (14) are respectively arranged on the left side wall and the right side wall inside the water storage box (1), a first electric cylinder (15) and a second electric cylinder (16) are respectively arranged at the bottoms of the first electric cylinder bottom plate (13) and the second electric cylinder bottom plate (14), a first action rod (17) and a second action rod (18) are respectively arranged at the power output ends of the first electric cylinder (15) and the second electric cylinder (16), a first shielding plate (19) and a second shielding plate (20) are respectively fixed at the lower ends of the first action rod (17) and the second action rod (18) through welding, the left side surface of the first shielding plate (19) is contacted with a flow inlet (21), and the right side surface of the second shielding plate (20) is contacted with a flow outlet (22), the bottom of the first shielding plate (19) and the bottom of the second shielding plate (20) are respectively connected with a first spring rod (23) and a second spring rod (24), and the first spring rod (23) and the second spring rod (24) are respectively arranged at the tops of the first spring cylinder (25) and the second spring cylinder (26).

2. The secondary water supply apparatus as claimed in claim 1, wherein: the water storage tank (1) is internally provided with a buoyancy block (27), the top of the buoyancy block (27) is provided with a buoyancy column (28), the top of the buoyancy column (28) extends into the induction tank (29) and is fixedly connected with the left side of the bottom surface of the induction plate (30), the right sides of the top and the bottom surface of the induction plate (30) are respectively provided with an upper compression spring (31) and a lower compression spring (32), the top of the upper compression spring (31) is fixedly connected with the bottom of the first piezoresistor (33), the top of the first piezoresistor (33) is provided with a first elastic column (35), the bottom of the lower compression spring (32) is fixedly connected with the top of the second piezoresistor (34), the bottom of the second piezoresistor (34) is provided with a second elastic column (36), and the first piezoresistor (33) is connected with a first electric cylinder controller (38) in parallel through a lead (37), the second piezoresistor (34) is connected with the second electric cylinder controller (39) in parallel through a lead (37), and the first piezoresistor (33) and the second piezoresistor (34) are connected with the fixed resistor (40), the first power supply (41) and the switch (42) in series through the lead (37).

3. The secondary water supply apparatus as claimed in claim 1, wherein: the left side surface and the right side surface of the filter box (2) are respectively provided with an introducing port (44) and an outlet (45), the right side of the introducing port (44) is provided with a one-way valve (43), a left inclined column (46) and a right inclined column (47) are arranged inside the filter box (2), a filter plate (48) is arranged on the right side of the right inclined column (47), a crushing cutter (49) is arranged inside the crushing chamber (12), the bottom of the crushing cutter (49) is fixedly connected with the top of a rotating shaft (50), and the bottom of the rotating shaft (50) is fixedly connected with the top of a high-speed pinion (57) through welding.

4. The secondary water supply apparatus as claimed in claim 1, wherein: the power box is characterized in that a third electric cylinder bottom plate (52) is fixed on the right side wall of the interior of the power box (4) through a first series of bolt sets (51), a third electric cylinder (53) is arranged on the left side face of the third electric cylinder bottom plate (52), the third electric cylinder (53) is electrically connected with a third electric cylinder controller (54) through a lead (37), a third action rod (55) is arranged at the power output end of the third electric cylinder (53), a connecting block (56) is fixed at the left end of the third action rod (55), the left end of the connecting block (56) is fixedly connected with the right end of a long rack (58), the rear side face of the long rack (58) is meshed with the lower end of the front side face of a low-speed large gear (59), the upper end of the right side face of the low-speed large gear (59) is meshed with the left side face of a high-speed pinion (57), and the upper side face of the left end of the long rack (58) is contacted with the lower side face of an upper limiting strip (60), the lower side of the left end of the long rack (58) is in contact with the upper side face of the lower limiting strip (61), and the left side face of the long rack (58) is provided with a return spring (62).

5. The secondary water supply apparatus as claimed in claim 1, wherein: the left side wall of the interior of the pressure transmission box (5) is fixed with a fourth electric cylinder bottom plate (77) through a second series of bolt groups (76), the right side surface of the fourth electric cylinder bottom plate (77) is provided with a fourth electric cylinder (78), the power output end of the fourth electric cylinder (78) is provided with a fourth action rod (79), the right end of the fourth action rod (79) is connected with the left end of a lower inclined arm (81) through a connecting rotating shaft (80), the right end of the lower inclined arm (81) is connected with a lower fixed half shaft (82), the lower fixed half shaft (82) is arranged on the left side surface of a sliding block (84), the right side surface of the sliding block (84) is in contact fit with a guide rail (85), the left side surface of the sliding block (84) is provided with an upper fixed half shaft (83), and the upper fixed half shaft (83) is connected with the right end of an upper inclined arm (86), go up the left end of communications and be connected semi-axis (87) fixed connection of communications arm (86), connection semi-axis (87) set up the right flank at intermediate block (88), the left flank of intermediate block (88) be fixed with oblique briquetting (89), the left of oblique briquetting (89) from left to right fifth compression leg (71), fourth compression leg (72), third compression leg (73), second compression leg (74), first compression leg (75) have set gradually, the top of fifth compression leg (71), fourth compression leg (72), third compression leg (73), second compression leg (74), first compression leg (75) stretch into the inside of pressurization case (3).

6. The secondary water supply apparatus as claimed in claim 1, wherein: the left and right lateral surfaces of pressurization case (3) be provided with left opening (66), right opening (67) respectively, the inside of pressurization case (3) be provided with water pressure sensor (63), siren (65), water pressure sensor (63) and siren (65) pass through contact tube (64) electric connection, the inside of pressurization case (3) be provided with fixation nut (68), the middle part screw-thread fit of fixation nut (68) and rectangular bolt (69), the left end of rectangular bolt (69) be fixed with carousel (70).