Disclosure of Invention
The invention provides a voltage-stabilizing intelligent secondary water supply device which can effectively solve the problems that an air bag in a voltage-stabilizing tank is generally made of rubber, the air bag is inevitably subjected to air leakage in the using process, the air bag needs to be periodically overhauled and inflated, and the aging rate of the air bag is accelerated due to the fact that the air bag is soaked in liquid for a long time, so that the air bag is easy to burst after being used for a long time, and the using safety of the secondary water supply device is further reduced.
In order to achieve the purpose, the invention provides the following technical scheme: a pressure-stabilizing intelligent secondary water supply device comprises an installation bottom plate, wherein one end of the top of the installation bottom plate is fixedly connected with a water storage tank, one corner of the top of one side of the water storage tank is provided with a water inlet pipe, one corner of the bottom of the other side of the water storage tank is provided with a water outlet pipe, the tail end of the water outlet pipe is connected with a filter tank, one side of the filter tank is connected with a connecting water tank through a pipeline, the bottom of one side of the connecting water tank is connected with a connecting transverse pipe through a pipeline, one side of the connecting transverse pipe is uniformly and fixedly connected with a main water pump through a pipeline, one end part of one side of the connecting transverse pipe is connected with an auxiliary water pump through a pipeline, one sides of the main water pump and the auxiliary water pump are connected with a connecting bent pipe through pipelines, the top of the connecting bent pipe is connected with a drainage transverse pipe, and one end of the bottom of the drainage transverse pipe is fixedly connected with a liquid guide thin pipe;
the magnetic drive long-life pressure stabilizing mechanism is connected at the position, corresponding to the other end of the top of the mounting bottom plate, of the tail end of the liquid guide thin tube, and the water pressure in the water delivery pipeline is dynamically adjusted through the cooperation of magnetic force and gravity, so that the stability of the pressure in the water delivery pipeline is kept;
the magnetic drive long-life pressure stabilizing mechanism comprises a pressure stabilizing tank main body, a sealing upper cover, an installation round cover, a guide vertical shaft, a limiting porous plate, a sliding inner ring, a sliding near shaft ring, a sliding middle ring, a sliding far shaft ring, a sliding outer ring, a downward pressing magnetic ring, a sealing hollow ring, a limiting cover ring, a step frame, a limiting magnetic ring, a pressure regulating pipe, a limiting hoop ring, a regulating rod, a limiting circular plate, a buffer spring and a sealing circular plate;
the end of the liquid guide thin tube is connected with a pressure stabilizing tank main body at the position corresponding to the other end of the top of the mounting bottom plate, the edge part of the top end of the pressure stabilizing tank main body is connected with a sealing upper cover through a bolt, the middle part of the top end of the sealing upper cover is fixedly connected with a mounting round cover through a bolt, the bottom end of the mounting round cover is fixedly connected with a guide vertical shaft at the position corresponding to the middle part of the inner side of the pressure stabilizing tank main body, and the middle part of the bottom end of the guide vertical shaft is provided with a limiting porous plate through a bolt;
the outer side of the guide vertical shaft is movably connected with a sliding inner ring corresponding to the top of the limiting porous plate, the outer side of the sliding inner ring is movably connected with a sliding near shaft ring, the outer side of the sliding near shaft ring is movably connected with a sliding middle ring, the outer side of the sliding middle ring is movably connected with a sliding far shaft ring, the outer side of the sliding far shaft ring is movably connected with a sliding outer ring, and the inner sides of the top ends of the sliding inner ring, the sliding near shaft ring, the sliding middle ring, the sliding far shaft ring and the sliding outer ring are all embedded with a pressing magnetic ring;
a sealing hollow ring is embedded in the top end part of the sliding outer ring, a limiting cover ring is clamped at the position, corresponding to the top of the sealing hollow ring, of the top end part of the sliding outer ring, a stepped frame is fixedly connected at the position, corresponding to the top of the inner side of the pressure stabilizing tank main body, of the bottom of the inner side of the sealing upper cover, and a limiting magnetic ring is fixedly connected at the position, corresponding to the top of the downward pressing magnetic ring, of the bottom of each step of the stepped frame;
the sealed top cap top circumferencial direction evenly welds has the pressure regulating pipe, the spacing hoop of pressure regulating pipe inboard bottom fixedly connected with, there is the regulation pole at pressure regulating pipe top middle part through threaded connection, it rotates to correspond pressure regulating pipe inboard top position department and is connected with spacing plectane to adjust the pole bottom, the inboard position department fixedly connected with buffer spring of pressure regulating pipe is corresponded to spacing plectane bottom, the buffer spring bottom corresponds the sealed plectane of fixedly connected with of pressure regulating pipe inboard bottom position department.
Compared with the prior art, the invention has the beneficial effects that:
1. the magnetic drive long-life pressure stabilizing mechanism is arranged, an air bag in the traditional pressure stabilizing tank is replaced by a mechanical structure consisting of metal through the matching of all components in the magnetic drive long-life pressure stabilizing mechanism, the aging efficiency of the components in the pressure stabilizing tank is effectively reduced through the excellent performance of the metal, so that the service life of the pressure stabilizing tank is prolonged, meanwhile, the energy storage mode of the traditional pressure stabilizing tank through compressed air is changed, the repulsion force between magnets and the gravitational potential energy of the components are used as main energy storage means, the problem of energy storage capacity reduction of the pressure stabilizing tank due to air leakage of the air bag is effectively avoided, the pressure stabilizing tank is ensured to maintain excellent performance in the long-term use process, and the maintenance frequency of the pressure stabilizing tank is reduced;
simultaneously through the design of the inside unique structure of this mechanism, make the inside energy storage process of surge tank accomplish jointly by gas compression, gravitational potential energy and magnetic force, and the form diverse of the main energy storage effect of different stage performance, the main gravitational potential energy through the subassembly of surge tank energy storage initial stage goes on, make the response of surge tank energy storage more sensitive, it is more convenient that the energy storage process goes on simultaneously also, the later stage mainly goes on through the repulsion between gas compression and magnet in the surge tank energy storage, in order to ensure that the inside pressure that can produce of surge tank, and then the effectual performance that improves the surge tank, simultaneously through many times and multiple mode come to carry out the steady voltage jointly and handle, the effectual stability in use who ensures the surge tank also.
2. The shock absorption support auxiliary mechanism is arranged, deformation displacement of the connecting bent pipe is converted into operation of an extrusion circular plate through matching between internal components of the shock absorption support auxiliary mechanism, liquid in the support circular pipe is extruded into the hollow rubber block, and auxiliary support is provided for the support rubber block through deformation of the hollow rubber block, so that deformation of the support rubber block is effectively reduced, the connecting bent pipe is effectively prevented from being bent in the using process of equipment, the phenomenon of pipeline breakage caused by bending of the connecting bent pipe of the equipment is effectively avoided, and the stability after pipeline installation is improved;
through the damping rubber sleeve and the isolation rubber sleeve, double-layer vibration isolation is provided for connecting the rotating rod and supporting the cross rod, so that the vibration of the connecting bent pipe is effectively prevented from being transmitted to the driving vertical shaft, and the stability of the connecting bent pipe after installation is effectively improved.
3. The water collection and evaporation mechanism is arranged, water dripping in the operation process of the secondary water supply equipment is actively collected by matching all components in the water collection and evaporation mechanism and the active water collection devices are arranged around the secondary water supply equipment, so that the water dripping from the secondary water supply equipment is controlled in the peripheral range of the secondary water supply equipment, the phenomenon that the ground at other positions of a water pump room is wet is effectively avoided, the phenomenon that the ground slips due to wet and slippery when a maintainer overhauls the equipment is effectively prevented, and the overhauling convenience of the secondary water supply equipment is effectively improved;
simultaneously through the use of collecting sponge, infusion sponge and diffusion cotton pipe, make this mechanism when only collecting a small amount of water, also can carry out quick transportation and diffusion to water to the efficiency of moisture content transportation and diffusion has been improved, and filter the water of just going into collection limit pipe through collecting the sponge, effectually avoided the solid impurity of aquatic to enter into water catch bowl and drain side intraduct, make the subsequent clearance process of this mechanism more convenient.
In conclusion, the magnetic drive long-life pressure stabilizing mechanism, the damping support auxiliary mechanism and the moisture collection evaporation mechanism optimize the pressure stabilizing process, the pipeline installation use process and the maintenance process of the secondary water supply equipment, effectively improve the stability in the pressure stabilizing process, prevent the pressure stabilizing tank from being damaged in the use process, improve the installation process and the service life of the pipeline and prevent the pipe explosion phenomenon caused by the inclination of the pipeline;
meanwhile, the ground environment of the water pump room is improved, the phenomenon that the maintainers slip in the overhauling process is effectively prevented, the probability that the bacteria are proliferated due to the fact that the ground of the water pump room is wet is also avoided, and the overall safety of the secondary water supply equipment is effectively improved.
Detailed Description
The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.
Example (b): as shown in fig. 1-11, the invention provides a technical scheme, a voltage-stabilizing intelligent secondary water supply device, which comprises an installation bottom plate 1, wherein one end of the top of the installation bottom plate 1 is fixedly connected with a water storage tank 2, one corner of the top of one side of the water storage tank 2 is provided with a water inlet pipe 3, one corner of the bottom of the other side of the water storage tank 2 is provided with a water outlet pipe 4, the tail end of the water outlet pipe 4 is connected with a filter tank 5, one side of the filter tank 5 is connected with a connection water tank 6 through a pipeline, the bottom of one side of the connection water tank 6 is connected with a connection horizontal pipe 7 through a pipeline, one side of the connection horizontal pipe 7 is uniformly and fixedly connected with a main water pump 8 through a pipeline, one end of one side of the connection horizontal pipe 7 is connected with an auxiliary water pump 9 through a pipeline, one sides of the main water pump 8 and the auxiliary water pump 9 are connected with a connection bent pipe 10 through pipelines, the top of the connection bent pipe 10 is connected with a drainage horizontal pipe 11, and one end of the bottom of the drainage pipe 11 is fixedly connected with a liquid guide tubule 12;
the magnetic drive long-life pressure stabilizing mechanism 13 is connected to the position, corresponding to the other end of the top of the mounting base plate 1, of the tail end of the liquid guide thin tube 12, and the water pressure in the water delivery pipeline is dynamically adjusted through the cooperation of magnetic force and gravity, so that the stability of the pressure in the water delivery pipeline is kept;
the magnetic drive long-life pressure stabilizing mechanism 13 comprises a pressure stabilizing tank main body 1301, a sealing upper cover 1302, an installation round cover 1303, a guide vertical shaft 1304, a limiting porous plate 1305, a sliding inner ring 1306, a sliding near shaft ring 1307, a sliding middle ring 1308, a sliding far shaft ring 1309, a sliding outer ring 1310, a pressing magnetic ring 1311, a sealing hollow ring 1312, a limiting cover ring 1313, a ladder frame 1314, a limiting magnetic ring 1315, a pressure regulating pipe 1316, a limiting hoop ring 1317, a regulating rod 1318, a limiting circular plate 1319, a buffer spring 1320 and a sealing circular plate 1321;
the tail end of the liquid guide thin tube 12 is connected with a pressure stabilizing tank main body 1301 corresponding to the other end of the top of the installation base plate 1, the edge of the top end of the pressure stabilizing tank main body 1301 is connected with a sealing upper cover 1302 through a bolt, the middle position of the top end of the sealing upper cover 1302 is fixedly connected with an installation round cover 1303 through a bolt, the bottom end of the installation round cover 1303 is fixedly connected with a guide vertical shaft 1304 corresponding to the middle position of the inner side of the pressure stabilizing tank main body 1301, and the middle part of the bottom end of the guide vertical shaft 1304 is provided with a limiting porous plate 1305 through a bolt;
a sliding inner ring 1306 is movably connected to the outer side of the guide vertical shaft 1304 corresponding to the top of the limiting porous plate 1305, a sliding proximal ring 1307 is movably connected to the outer side of the sliding inner ring 1306, a sliding middle ring 1308 is movably connected to the outer side of the sliding middle ring 1308, a sliding distal ring 1309 is movably connected to the outer side of the sliding distal ring 1309, a sliding outer ring 1310 is movably connected to the outer side of the sliding distal ring 1309, the sliding inner ring 1306, the sliding proximal ring 1307, the sliding middle ring 1308, the sliding distal ring 1309 and the sliding outer ring 1310 are movably connected with each other through the matching between the snap ring and the slide groove, the sliding inner ring 1306, the sliding proximal ring 1307, the sliding middle ring 1308, the sliding distal ring 1309 and the sliding outer ring are tightly attached to each other, and the inner side of the sliding inner ring 1306 and the inner wall of the guide vertical shaft 1304 are tightly attached to each other, the outer side of the sliding outer ring 1310 is tightly attached to the inner wall of the pressure stabilizing tank body 1301, so that the lower pressure magnetic ring 1311, the sliding inner ring 1306, the sliding near shaft ring 1307, the sliding middle ring 1308, the sliding far shaft ring 1309 and the sliding outer ring 1310 are guaranteed to have higher connection fitting degree in the actual working process, and further, no gap is generated in the actual pressure stabilizing process to cause unstable pressure in the pressure stabilizing process;
a sealing hollow ring 1312 is embedded in the edge part of the top end of the sliding outer ring 1310, a limit cover ring 1313 is clamped at the position, corresponding to the top of the sealing hollow ring 1312, of the edge part of the top end of the sliding outer ring 1310, a step frame 1314 is fixedly connected at the position, corresponding to the top of the inner side of the pressure stabilizing tank body 1301, of the bottom of each step of the step frame 1314, a limit magnetic ring 1315 is fixedly connected at the position, corresponding to the top of the lower pressure magnetic ring 1311, of the bottom of each step of the step frame 1314, the positions between the lower pressure magnetic ring 1311 and the limit magnetic ring 1315 correspond to each other, the magnetic poles of opposite surfaces between the limit magnetic ring 1315 and the lower pressure magnetic ring 1311 are opposite, and the height difference between the bottom surfaces of the limit magnetic rings 1315 is the same as the limit height difference between the top surfaces of the lower pressure magnetic rings 1311;
the top end of the upper sealing cover 1302 is uniformly welded with a pressure regulating pipe 1316 in the circumferential direction, the bottom of the inner side of the pressure regulating pipe 1316 is fixedly connected with a limiting hoop 1317, the middle of the top end of the pressure regulating pipe 1316 is connected with a regulating rod 1318 through threads, the bottom of the regulating rod 1318 is rotatably connected with a limiting circular plate 1319 corresponding to the top of the inner side of the pressure regulating pipe 1316, the bottom of the limiting circular plate 1319 is fixedly connected with a buffer spring 1320 corresponding to the inner side of the pressure regulating pipe 1316, the bottom of the buffer spring 1320 is fixedly connected with a sealing circular plate 1321 corresponding to the bottom of the inner side of the pressure regulating pipe 1316, the outer sides of the limiting circular plate 1319 and the sealing circular plate 1321 are tightly attached to the inner wall of the pressure regulating pipe 1316, the bottom of the sealing circular plate 1321 is flush with the top of the limiting hoop 1317, through the matching among all components inside the magnetic drive long-life pressure stabilizing mechanism 13, the air bag inside the traditional pressure stabilizing tank is replaced by a mechanical structure consisting of metal, and the excellent performance of the metal, the aging efficiency of the internal components of the pressure stabilizing tank is effectively reduced, so that the service life of the pressure stabilizing tank is prolonged, meanwhile, the energy storage mode of the traditional pressure stabilizing tank through compressed air is changed, the repulsion force between the magnets and the gravitational potential energy of the components are used as main energy storage means, the problem that the energy storage capacity of the pressure stabilizing tank is reduced due to air leakage of the air bag is effectively solved, the pressure stabilizing tank is ensured to keep excellent performance in the long-term use process, and the maintenance frequency of the pressure stabilizing tank is reduced;
meanwhile, through the design of a unique structure in the mechanism, the energy storage process in the surge tank is jointly completed by gas compression, gravitational potential energy and magnetic force, the forms of the main energy storage effects are exerted in different stages are different, the initial energy storage stage of the surge tank is mainly carried out through the gravitational potential energy of the assembly, the energy storage reaction of the surge tank is more sensitive, and meanwhile, the energy storage process is more convenient and faster;
the middle part of the outer side of the connecting bent pipe 10 is provided with a damping and supporting auxiliary mechanism 14 which is used for damping and supporting the connecting bent pipe 10 and all components thereon, and meanwhile, the normal toppling of the connecting bent pipe 10 is strengthened through the space exchange of fluid, so that the service life of rubber for supporting is prolonged, and the phenomenon of pipe burst in the use process of equipment is prevented;
the shock-absorbing supporting auxiliary mechanism 14 comprises a supporting circular ring 1401, an upper cushion ring 1402, a lower connecting snap ring 1403, a rubber sleeve 1404, a supporting vertical rod 1405, a connecting circular plate 1406, a supporting circular pipe 1407, an installation circular plate 1408, a supporting rubber block 1409, a hollow rubber block 1410, a connecting short pipe 1411, a connecting thin pipe 1412, a liquid storage bag 1413, an extrusion circular plate 1414, a driving vertical shaft 1415, a connecting rotary rod 1416, an isolating rubber sleeve 1417, a supporting cross rod 1418, a shock-absorbing rubber sleeve 1419 and a cross supporting rod 1420;
a supporting ring 1401 is fixedly connected to the middle of the outer side of the connecting bent pipe 10, an upper backing ring 1402 is fixedly connected to the position, corresponding to the bottom of the supporting ring 1401, of the outer side of the connecting bent pipe 10, a lower connecting snap ring 1403 is arranged at the bottom of the upper backing ring 1402, and a rubber sleeve 1404 is bonded between the upper backing ring 1402 and the lower connecting snap ring 1403;
the edge of the lower connecting clamping ring 1403 is fixedly connected with a supporting vertical rod 1405 through a nut, the bottom of the supporting vertical rod 1405 is fixedly connected with a connecting circular plate 1406, the middle of the bottom end of the connecting circular plate 1406 is fixedly connected with a supporting circular tube 1407, and the bottom end of the supporting circular tube 1407 is fixedly connected with an installation circular plate 1408;
the inner side of the rubber sleeve 1404 is uniformly provided with supporting rubber blocks 1409 along the circumferential direction, the position of the inner side of the rubber sleeve 1404, which corresponds to one side of the supporting rubber blocks 1409, is uniformly provided with hollow rubber blocks 1410 along the circumferential direction, a connecting short pipe 1411 is connected between two adjacent hollow rubber blocks 1410, one side of each hollow rubber block 1410 is fixedly connected with a connecting thin pipe 1412, and the position of the tail end of each connecting thin pipe 1412, which corresponds to the top of the inner side of the supporting circular pipe 1407, is fixedly connected with a liquid storage bag 1413;
an extrusion circular plate 1414 is movably connected to the inner side of the supporting circular tube 1407 corresponding to the bottom of the reservoir 1413, a driving vertical shaft 1415 is fixedly connected to the middle position of the top end of the extrusion circular plate 1414, a connecting rotating rod 1416 is movably connected to the top end of the driving vertical shaft 1415 through a rotating shaft, an isolation rubber sleeve 1417 is embedded and installed at the tail end of the connecting rotating rod 1416, a supporting cross rod 1418 is embedded and installed inside the isolation rubber sleeve 1417, a damping rubber sleeve 1419 is sleeved outside the supporting cross rod 1418, a cross supporting rod 1420 is rotatably connected to the middle of the bottom end of the connecting rotating rod 1416 through a rotating shaft, the bottom end of the cross supporting rod 1420 is fixedly connected with the bottom surface of the connecting circular plate 1406, a cavity inside the hollow rubber block 1410 is communicated through a connecting short pipe 1411, the connecting short pipe 1411 penetrates through the middle of the supporting rubber block 1409, the bottom of the extrusion circular plate 1414 is tightly attached with the top of the mounting circular plate 1408, and the components inside the damping supporting auxiliary mechanism 14 are matched, the deformation displacement of the connecting bent pipe 10 is converted into the operation of an extrusion circular plate 1414, so that liquid in the supporting circular pipe 1407 is extruded into the hollow rubber block 1410, and the supporting rubber block 1409 is provided with auxiliary support through the deformation of the hollow rubber block 1410, so that the deformation of the supporting rubber block 1409 is effectively reduced, the bending of the connecting bent pipe 10 in the use process of equipment is effectively prevented, the phenomenon of pipeline breakage of the equipment caused by the bending of the connecting bent pipe 10 is effectively avoided, and the stability of the equipment after pipeline installation is improved;
the shock-absorbing rubber sleeve 1419 and the isolation rubber sleeve 1417 provide double-layer vibration isolation for the connecting rotating rod 1416 and the supporting cross rod 1418, so that the vibration of the connecting bent pipe 10 is effectively prevented from being transmitted to the driving vertical shaft 1415, and the stability of the connecting bent pipe 10 after installation is further effectively improved;
the bottom of the mounting bottom plate 1 is provided with a moisture collecting and evaporating mechanism 15 which is used for collecting moisture dropped around the equipment and transporting the collected moisture, so that the volatilization of the moisture is enhanced, the moisture on the ground in the water pump room is quickly volatilized into the air, and the water is quickly discharged out of the water pump room through an exhaust system;
the moisture collection and evaporation mechanism 15 comprises a collection side pipe 1501, a protective porous plate 1502, a collection sponge 1503, a water collection groove 1504, a liquid guide square pipe 1505, a rising vertical pipe 1506, a liquid guide clip 1507, a fixed hoop 1508, an infusion sponge 1509, a diffusion cotton pipe 1510, a liquid discharge elbow 1511 and a liquid discharge pump 1512;
a collecting side pipe 1501 is fixedly connected to the edge of the mounting base plate 1, a protective perforated plate 1502 is embedded into the top end of the inside of the collecting side pipe 1501, collecting sponge 1503 are filled in the collecting side pipe 1501, a water collecting tank 1504 is arranged in the middle of the bottom end of the mounting base plate 1, and the water collecting tank 1504 is communicated with the collecting side pipe 1501 through a liquid guide square pipe 1505;
the middle part of the top end of the water collecting groove 1504 is fixedly connected with an ascending vertical pipe 1506, the circumferential direction of the inner side edge part of the ascending vertical pipe 1506 is uniformly and fixedly connected with a liquid guiding clip 1507, the outer side of the liquid guiding clip 1507 corresponds to the water collecting groove 1504, the position of the inner side middle part is fixedly connected with a fixed hoop 1508, the inner side middle part of the ascending vertical pipe 1506 is embedded and installed with an infusion sponge 1509, the inner part of the ascending vertical pipe 1506 corresponding to the position of the edge part of the liquid guiding clip 1507 is sleeved with a diffusion cotton pipe 1510, one side of the water collecting groove 1504 is fixedly connected with a liquid drainage elbow 1511, one end of the liquid drainage elbow 1511 is fixedly connected with a liquid drainage pump 1512, the input end of the liquid drainage pump 1512 is electrically connected with the output end of an external power supply, the liquid guiding clip 1507 consists of two metal sheets, the distance between the metal sheets is gradually reduced along the direction far away from the central axis of the ascending vertical pipe 1506, the middle part of the inner side of the infusion sponge 1509 is additionally provided with vertically and uniformly distributed thin channels 1505, the liquid guiding pipe is filled with a water absorbing sponge, through the matching among all components in the moisture collecting and evaporating mechanism 15 and the arrangement of the active moisture collecting devices around the secondary water supply equipment, the water dripped in the operation process of the secondary water supply equipment is actively collected, so that the water dripped by the secondary water supply equipment is controlled in the peripheral range of the secondary water supply equipment, the phenomenon that the ground at other positions of a water pump room is wet is effectively avoided, the phenomenon that the ground slips due to the wet and slippery of the ground is effectively prevented when a maintainer overhauls the equipment, the probability that the ground of the water pump room is wet and bacteria are proliferated is also avoided, and the overhauling convenience of the secondary water supply equipment is effectively improved;
simultaneously through the use of collecting sponge 1503, infusion sponge 1509 and diffusion cotton tube 1510, make this mechanism when only collecting a small amount of water, also can carry out quick transportation and diffusion to water to the efficiency of moisture content transportation and diffusion has been improved, and filter the water of just getting into collection limit pipe 1501 through collecting sponge 1503, inside the effectual solid impurity who has avoided the aquatic entered into water catch bowl 1504 and drain side pipe 1505, make the subsequent clearance process of this mechanism more convenient.
The working principle and the using process of the invention are as follows: in the practical application process, in the operation process of secondary water supply equipment, firstly, water is guided into the water storage tank 2 through the water inlet pipe 3 for storage, then the water in the water storage tank 2 is guided into the filter tank 5 through the water outlet pipe 4, the water enters the connecting water tank 6 after being filtered by the filter tank 5, the water in the connecting water tank 6 is respectively conveyed to the water inlet ends of the main water pump 8 and the auxiliary water pump 9 through the connecting transverse pipe 7, the water is guided into the connecting bent pipe 10 through the main water pump 8 and the auxiliary water pump 9, and finally the water is input into a water supply system of a building through the drainage transverse pipe 11;
when the traditional surge tank is used, the air bag inside the surge tank is generally made of rubber, the air bag is inevitably subjected to air leakage in the using process, the air bag needs to be overhauled and inflated regularly, and meanwhile, the aging rate of the air bag is accelerated due to the fact that the air bag is soaked in liquid for a long time, so that the air bag is easy to burst after being used for a long time, the use safety of secondary water supply equipment is further reduced, in the process of the secondary water supply equipment, the drainage transverse pipe 11 is communicated with the inner cavity of the surge tank main body 1301 through the liquid guide tubule 12, so that water inside the drainage transverse pipe 11 enters the secondary water supply equipment from the bottom of the surge tank main body 1301, and under the action of gravity, the initial states of the sliding inner ring 1306, the sliding near-axis ring 1307, the sliding middle ring 1308, the sliding far-axis ring 1309 and the sliding outer ring 1310 are all positioned at the top of the limiting porous plate 1305, and water in a water supply system enters the surge tank main body 1301, the pressure at the bottom of the surge tank body 1301 begins to increase continuously, the sliding outer ring 1310 at the edge of the surge tank body 1301 cannot keep in place only under the action of gravity, the pressure gradually rises under the action of water pressure, in the process that the sliding outer ring 1310 rises, the distance between the lower pressure magnetic ring 1311 at the top of the sliding outer ring 1310 and the corresponding limit magnetic ring 1315 is gradually reduced, so that the downward repulsive force borne by the sliding outer ring 1310 is gradually increased, along with the continuous rising of the sliding outer ring 1310, the sliding far shaft ring 1309, the sliding middle ring 1308, the sliding near shaft ring 1307 and the sliding inner ring 1306 are driven to rise sequentially by the sliding outer ring 1310, and along with the mutual approaching between the lower pressure magnetic ring 1311 and the limit magnetic ring 1308 5, the pressure of the sliding inner ring 1306, the sliding near shaft ring 1307, the sliding middle ring, the sliding far shaft ring 1309 and the sliding outer ring 1310 to the lower layer of the surge tank body 1301 is continuously increased, when the pressure in the bottom chamber of the surge tank body 1301 is the same as the pressure in the water supply pipeline, the sliding inner ring 1306, the sliding near shaft ring 1307, the sliding middle ring 1308, the sliding far shaft ring 1309 and the sliding outer ring 1310 stop rising, and after the pressure in the water supply system changes, the lifting of the sliding inner ring 1306, the sliding near shaft ring 1307, the sliding middle ring 1308, the sliding far shaft ring 1309 and the sliding outer ring 1310 is adjusted;
in the ascending process of the sliding inner ring 1306, the sliding near-axis ring 1307, the sliding middle ring 1308, the sliding far-axis ring 1309 and the sliding outer ring 1310, the air pressure in the chamber on the upper layer of the pressure stabilizing tank main body 1301 is continuously increased, so that a downward pressure is generated on the sliding inner ring 1306, the sliding near-axis ring 1307, the sliding middle ring 1308, the sliding far-axis ring 1309 and the sliding outer ring 1310 synchronously, the limit height of the limit circular plate 1319 can be adjusted by rotating the adjusting rod 1318, the limit movement position of the sealing circular plate 1321 is limited, the adjustment of the limit pressure inside the pressure stabilizing tank main body 1301 is realized, and the upper layer of the pressure stabilizing tank main body 1301 can have enough pressure;
in the use process of the secondary water supply equipment, because the connecting bent pipe 10 is installed in a cantilever type, the connecting bent pipe 10 still needs to be supported in an auxiliary mode after being installed, meanwhile, in order to avoid the influence of vibration generated in the running process of a pipeline on the connecting bent pipe 10, the connecting part of the pipeline and a supporting frame needs to be isolated through a rubber pad, the rubber deforms after being pressed for a long time, so that the connecting bent pipe 10 inclines, and when the inclination angle of the connecting bent pipe 10 is too large, the connecting bent pipe 10 is separated from the connecting part of other pipelines, so that the phenomenon of pipeline cracking occurs;
after the installation of the equipment is completed, a supporting force point is provided on the outer side of the connecting bent pipe 10 through the supporting circular ring 1401, the rubber sleeve 1404 and the supporting rubber block 1409 are installed at the bottom of the supporting circular ring 1401 through the mutual matching between the upper backing ring 1402 and the lower connecting snap ring 1403, the supporting support is provided for the bottom of the lower connecting snap ring 1403 through the supporting vertical rod 1405, the connecting circular plate 1406, the supporting circular pipe 1407 and the installing circular plate 1408, and in the operation process of the equipment, the shock absorption effect is provided for the connecting bent pipe 10 through the mutual matching between the upper backing ring 1402, the lower connecting snap ring 1403 and the supporting rubber block 1409;
when the deformed connecting elbow 10 begins to tilt after the long-term use of the device and the supporting rubber piece 1409 appears, when the connecting elbow 10 is inclined, the supporting cross bar 1418 is driven to swing along the top end of the cross supporting bar 1420, so that one end of the connecting rotating bar 1416 is tilted upwards, in the process of tilting up the supporting cross bar 1418, the driving vertical shaft 1415 is driven to move up, and further the extrusion circular plate 1414 is driven to slide upwards along the inner wall of the supporting circular tube 1407, in the process of moving the pressing circular plate 1414 upward, the liquid in the reservoir 1413 is pushed into the connecting tubule 1412, and the liquid enters the hollow rubber block 1410 through the connecting tubule 1412, so that the volume of the hollow rubber block 1410 expands, further, the deformation of the supporting rubber block 1409 is counteracted through the expansion of the supporting rubber block 1409, and the upper backing ring 1402 is continuously supported, so that the phenomenon that the connecting bent pipe 10 deviates due to the descending of the end part is effectively prevented;
in the use process of the secondary water supply equipment, partial water drops fall on the ground, the water is gathered in the water pump room to cause the phenomenon of wet and slippery on the ground in the water pump room, thereby forming a potential safety hazard in the water pump room and increasing the working difficulty of maintainers, after the water drops to the top of the installation bottom plate 1, the water naturally flows to the edge of the installation bottom plate 1, the water dropped from the edge of the installation bottom plate 1 is collected through the collection side pipe 1501, after the water passes through the top of the protection porous plate 1502 to enter the inner cavity of the collection side pipe 1501, the water is quickly absorbed and diffused through the collection sponge 1503, along with the continuous increase of the collected water, the water is guided into the water collection tank 1504 through the liquid guide square pipe 1505, the water at the bottom of the water collection tank is upwards moved through the liquid guide clamping piece 1507 by utilizing the capillary principle, and the auxiliary matching of the liquid conveying sponge 1509 and the diffusion cotton pipe 1510, make moisture in rising standpipe 1506 inside the quick diffusion that realizes on the cubical space, and then make the inside water of collecting channel 1504 inside evaporate to the air in water pump room fast, and make this partial steam can discharge outdoor under water pump room breather's effect fast, thereby guaranteed the inside drying in water pump room, when the inside moisture of collecting channel 1504 can't discharge fast through the mode of evaporation, can discharge the sewage pipe in with the inside moisture of collecting channel 1504 fast through flowing back return bend 1511 and flowing back pump 1512.
And through the GPS system among the water supply equipment, data transmission such as water pressure, electric current, voltage and frequency reaches the server in with the transmission data, and the server is with data transmission cell-phone end or computer end, forms intelligent secondary water supply equipment, gives the high-rise stable water pressure of people of living in, gives the water supply service personnel of a ray of line and provides stable data, has improved everybody's life and safety greatly, is fit for everybody better using widely.
Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. 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.