CN114059624A - Tank-type water supply equipment with steady voltage regulation function - Google Patents

Tank-type water supply equipment with steady voltage regulation function Download PDF

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Publication number
CN114059624A
CN114059624A CN202111596676.8A CN202111596676A CN114059624A CN 114059624 A CN114059624 A CN 114059624A CN 202111596676 A CN202111596676 A CN 202111596676A CN 114059624 A CN114059624 A CN 114059624A
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China
Prior art keywords
tank
pipe
water
water supply
flow
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Granted
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CN202111596676.8A
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Chinese (zh)
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CN114059624B (en
Inventor
蒋星学
储志明
于学志
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Yimai Industrial Co ltd
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Yimai Industrial Co ltd
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Priority to CN202111596676.8A priority Critical patent/CN114059624B/en
Publication of CN114059624A publication Critical patent/CN114059624A/en
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    • EFIXED CONSTRUCTIONS
    • E03WATER SUPPLY; SEWERAGE
    • E03BINSTALLATIONS OR METHODS FOR OBTAINING, COLLECTING, OR DISTRIBUTING WATER
    • E03B11/00Arrangements or adaptations of tanks for water supply
    • E03B11/10Arrangements or adaptations of tanks for water supply for public or like main water supply
    • EFIXED CONSTRUCTIONS
    • E03WATER SUPPLY; SEWERAGE
    • E03BINSTALLATIONS OR METHODS FOR OBTAINING, COLLECTING, OR DISTRIBUTING WATER
    • E03B7/00Water main or service pipe systems
    • E03B7/07Arrangement of devices, e.g. filters, flow controls, measuring devices, siphons, valves, in the pipe systems
    • E03B7/074Arrangement of water treatment devices
    • EFIXED CONSTRUCTIONS
    • E03WATER SUPPLY; SEWERAGE
    • E03BINSTALLATIONS OR METHODS FOR OBTAINING, COLLECTING, OR DISTRIBUTING WATER
    • E03B7/00Water main or service pipe systems
    • E03B7/07Arrangement of devices, e.g. filters, flow controls, measuring devices, siphons, valves, in the pipe systems
    • E03B7/075Arrangement of devices for control of pressure or flow rate
    • EFIXED CONSTRUCTIONS
    • E03WATER SUPPLY; SEWERAGE
    • E03BINSTALLATIONS OR METHODS FOR OBTAINING, COLLECTING, OR DISTRIBUTING WATER
    • E03B7/00Water main or service pipe systems
    • E03B7/09Component parts or accessories
    • E03B7/10Devices preventing bursting of pipes by freezing
    • E03B7/12Devices preventing bursting of pipes by freezing by preventing freezing

Abstract

The invention discloses a tank type water supply equipment with a pressure stabilizing and storage adjusting function, which comprises a base, wherein a water delivery device and a current stabilizer are arranged above the base, the water delivery device comprises a water pump and a user water supply pipe, the current stabilizer comprises a current stabilizing tank, compared with the conventional water supply equipment, the tank type water supply equipment is additionally provided with a second velometer and a speed changing pipe, the turbulence degree of water flow can be judged through a movable plate arranged in the second velometer, the larger the opening degree of the movable plate is, the larger the inner diameter of the speed changing pipe is, the purpose of slowing down the water flow can be achieved through the method, the damage to a pump blade of the water pump can be prevented, if a disinfectant is added in the water supply equipment, the flow speed of the water flowing through the second velometer can be judged through the current change on a second coil, when the flow speed is too high, the inner diameter of the speed changing pipe can be increased through a first magnetic field generator and a first magnetic block, so that the speed of the water flow is slowed down, ensuring that the disinfectant is completely decomposed when the water flows into the user's home.

Description

Tank-type water supply equipment with steady voltage regulation function
Technical Field
The invention relates to the technical field of water supply, in particular to a tank type water supply device with a pressure stabilizing and storage regulating function.
Background
The water supply equipment is the water supply equipment who stops is opened in the automation of certain flow of output, lift in the unit interval, and tank type water supply equipment is water supply equipment's one kind, compares in cistern and water tower, and tank type water supply equipment investment in earlier stage is few, but the water pressure of make full use of municipal pipe network, equipment totally enclosed operation, sanitation simultaneously, consequently along with the development of era, more and more residential quarter and work unit use tank type water supply equipment to supply water.
The existing tank type water supply equipment is basically provided with a water pump to ensure that high-rise users can normally use water, but the tank type water supply equipment often encounters the phenomenon of scaling or blockage in the use process, when scaling and blockage drop off suddenly, if the suction force generated by the water pump is unchanged, the pump blade of the water pump can be subjected to a group of great water flow impact force, so that the pump blade of the water pump often suffers damage in the working process, in addition, in order to ensure the safety of drinking water, the existing tank type water supply equipment is provided with a disinfection device, wherein the most widely used disinfection method is to add disinfectant into the water supply device, under normal conditions, the disinfectant can be ensured to be completely decomposed when water enters the family of the users by adjusting the water absorption capacity of the water pump, but at night, the water consumption of the users is reduced, and the water pump is usually in a closed state for saving energy, the water in the water supply device is conveyed to a user family only by the pressure of the municipal pipe network, under the condition, the disinfectant can be completely decomposed when the water enters the user family, and finally, the tank-type water supply equipment is in the working process, because the air can be dissolved in the water, the air in the pressure stabilizing tank gradually becomes less along with the lapse of time, and the staff can supplement the air to the pressure stabilizing tank at intervals, so that the water supply equipment is troublesome, and dust in the external environment during the air supplement process easily enters the water supply equipment.
Disclosure of Invention
The invention aims to provide a tank type water supply device with a pressure stabilizing and storage regulating function, so as to solve the problems in the background technology.
In order to solve the technical problems, the invention provides the following technical scheme: a tank type water supply device with a pressure stabilizing and storage regulating function comprises a base, wherein a water delivery device and a flow stabilizing device are arranged above the base, the water delivery device comprises a water pump and a user water supply pipe, the flow stabilizing device comprises a flow stabilizing tank, a water inlet device is arranged above the flow stabilizing tank, the lower end of the flow stabilizing tank is connected with the water delivery device through a first connecting pipe and a speed changing pipe, a second speed measuring device is arranged at one end, close to the speed changing pipe, of the first connecting pipe, the second speed measuring device is made of an insulating material, a first arc-shaped block and a second arc-shaped block are arranged inside the speed changing pipe, the first arc-shaped block and the second arc-shaped block are connected through a hinge, the second arc-shaped block is connected with the speed changing pipe through a spring, a first magnetic field generator is arranged at one end, close to the first arc-shaped block, of the first magnetic field generator is arranged at one end, close to the speed changing pipe, of the first arc-shaped block, the first magnetic field generator is mutually attracted with the first magnetic block after being electrified, a movable plate, a first liquid storage tank, a second liquid storage tank and a third liquid storage tank are arranged at one end, close to the speed change pipe, in the second speedometer, insulating liquid is filled in the first liquid storage tank, the movable plate is connected with the first liquid storage tank through a piston rod, the first liquid storage tank is communicated with the second liquid storage tank, the second liquid storage tank is communicated with the third liquid storage tank, two groups of conducting blocks are arranged in the second liquid storage tank, one group of conducting blocks are connected with an external power supply, the other group of conducting blocks are connected with the first magnetic field generator, conducting liquid is filled between the two groups of conducting blocks, an extrusion block is arranged in the third liquid storage tank, and the extrusion block is connected with the third liquid storage tank through a spring.
The invention is characterized in that a variable speed pipe is arranged between a second velometer and a water pump, when water flows through the second velometer, a movable plate can change the opening degree according to the turbulent degree of the water flow, the water flow is more urgent, the opening degree of the movable plate is larger, and the movable plate is connected with a first liquid storage tank through a piston rod, so that insulating liquid in the first liquid storage tank can flow into a second liquid storage tank after the movable plate is opened, make two sets of conducting block distances in the second reservoir shorten, the electric current that first magnetic field generator received this moment can grow thereupon, because the magnetic field that first magnetic field generator produced can attract first magnetic path, consequently, can make first arc piece and second arc piece move to the direction of variable speed tube through first magnetic field generator and first magnetic path, through above-mentioned technical scheme, water supply equipment can change the diameter of pipeline at any time according to the torrent emergency degree of rivers, and then reach the purpose that slows down rivers, prevent that the pump leaf of water pump from receiving the damage.
Further, one end of the first connecting pipe, which is close to the steady flow tank, is provided with a first velometer, the inside of the first velometer is provided with a first permanent magnet, a first coil and a first fan blade, the first coil and the first fan blade are connected through a transmission rod, the first permanent magnet is arranged on the upper side and the lower side of the first coil, one end of the inside of the second velometer, which is far away from the speed changing pipe, is provided with a second permanent magnet, a second coil and a second fan blade, the second coil and the second fan blade are connected through a transmission rod, the second permanent magnet is arranged on the upper side and the lower side of the second coil, and the second coil is connected with a first magnetic field generator.
Through the technical scheme, when water flows through the first speed measuring device and the second speed measuring device, the first fan blade and the second fan blade can rotate, the first coil and the second coil can both perform cutting magnetic induction line motion to generate induced current, under normal conditions, when the water inflow of the water inlet device is unchanged, the current generated by the first coil and the second coil is a fixed value, but the inside of the water supply device can generate phenomena such as blockage after long-time work, the current generated by the first coil can judge whether the inside of the steady flow tank has problems, the current generated by the second coil can judge whether the inside of the connecting pipe has problems, the follow-up fixed-point maintenance of workers is facilitated, in addition, in order to ensure the safety of drinking water, some water supply equipment can add disinfectants capable of being automatically decomposed into the steady flow tank, but the decomposition of the disinfectants needs a certain time, under the condition that a user normally uses water, the water flow can be slowed down by adjusting the water absorption capacity of the water pump so as to ensure that the disinfectant in the water flow enters the user family to be completely decomposed, but at night, the water consumption of the user is reduced, the water pump is usually in a closed state, the water in the water supply device is conveyed to the family of the user only by the pressure of the municipal pipe network, in this case, it is not guaranteed that the water flow, upon entering the user's home, completely decomposes the disinfectant, the invention connects the second coil with the first magnetic field generator, the flow speed of water flowing through the second velometer can be judged through the current on the second coil, when the flow speed is too high, the disinfectant in the water flow is considered to have the risk of incomplete decomposition, the diameter of the pipeline can be increased through the first magnetic field generator and the first magnetic block, so that the speed of the water flow is slowed down to ensure that the disinfectant is completely decomposed when the water flow enters the user's home.
Further, water installations includes municipal delivery pipe and third velometer, the inside of third velometer is provided with third flabellum and baffle, be connected through the transfer line between third flabellum and the baffle, the baffle is provided with fixed box for insulating material and intermediate position department, the inside of fixed box is provided with condenser and commutator, all be provided with the conducting rod on condenser and the commutator and stretch out in the fixed box, the one end that the inside of baffle is close to the third velometer is provided with expansion plate and second magnetic field generator, second magnetic field generator is connected with condenser and commutator, the one end that the inside of baffle is close to fixed box is provided with the slider, the slider is electrically conductive material.
Through the technical scheme, when water in the municipal water supply pipe flows into the third velometer, huge impact force is generated on the third fan blade, so that the third fan blade rotates, the baffle also rotates because the third fan blade is connected with the baffle through the transmission rod, the slide block arranged in the baffle can be far away from the fixed box under the action of centrifugal force, the second magnetic field generator is directly connected with the accumulator, the expansion plate contracts into the baffle under the action of the second magnetic field generator, when the water in the municipal water supply pipe has a cutoff phenomenon, the rotating speed of the third fan blade and the baffle is reduced, the centrifugal force generated by the baffle is smaller than the tensile force of a spring between the slide block and the fixed box, the slide block can move towards the fixed box and is contacted with the conductive rod, the commutator is connected into a circuit of the second magnetic field generator and the accumulator, and the second magnetic field generator repels the expansion plate, the expansion plate stretches out from the baffle, and the third velometer can be closed in time through expansion plate and baffle, avoids water supply equipment continuous operation, leads to municipal administration delivery pipe inside negative pressure to appear and the phenomenon of breaking takes place.
Furthermore, a third permanent magnet and a third coil are arranged on two sides of the third velometer, the third fan blade and the third coil are connected through a transmission rod, and the third permanent magnet is arranged on the upper side and the lower side of the third coil.
Through the technical scheme, when water current flows through the third velometer so that the third fan blade rotates, the third coil can cut the magnetic induction line to move, and further induction current is generated, the water outlet condition of the municipal water supply pipe can be judged by detecting the induction current on the third coil, under the normal condition, when the induction current on the third coil is determined, the induction current on the first coil and the second coil is a fixed value, the induction current on the third coil is determined to be unchanged, and when the induction current on the first coil and the second coil is obviously changed, a problem that the steady flow tank and the connecting pipe have one place is represented, and therefore the follow-up fixed-point maintenance of workers is facilitated.
Further, the flow stabilizer further comprises a pressure stabilizing tank, an air supplementing device and a negative pressure eliminating tank, wherein the pressure stabilizing tank, the air supplementing device and the negative pressure eliminating tank are all arranged on the pressure stabilizing tank, the air supplementing device comprises an air inflation box, a connecting frame and an air inflation pipe, one end of the air inflation pipe is connected with the pressure stabilizing tank, the other end of the air inflation pipe is connected with the negative pressure eliminating tank, the air inflation box is arranged on the air inflation pipe, the connecting frame is arranged at one end, close to the pressure stabilizing tank, of the air inflation box, a floating rod is arranged inside the connecting frame, a floating ball is arranged at one end, far away from the air inflation box, of the floating rod and extends into the flow stabilizing tank, a rack is arranged at one end, close to the air inflation box, of the floating rod and extends into the air inflation box, a second piston plate and a rack are arranged inside the air inflation box, an air inlet valve is arranged on the second piston plate, a gear is arranged inside the rack, the rack and the rack frame are both connected with the gear in a meshed manner.
In the working process of the water supply device, a large amount of air is usually filled in the pressure stabilizing tank to prevent the negative pressure condition in the pressure stabilizing tank, but along with the working, the air in the pressure stabilizing tank can be dissolved in the water, so that the air in the pressure stabilizing tank gradually becomes less along with the time, and workers need to supplement air into the pressure stabilizing tank at intervals. The gas in the pressure stabilizing tank is ensured to be in a relatively stable state all the time, and the trouble that the staff need to supplement the gas into the pressure stabilizing tank at intervals is avoided.
Further, one side that the stationary flow jar is close to the surge tank is provided with energy storage equipment, energy storage equipment includes energy storage case and push pedal, be connected through screw rod and drive arrangement between push pedal and the energy storage case, the energy storage case is connected with the stationary flow jar through the pressure boost pipe, the inside top of surge tank is provided with the second and lets out the depressor, the inside that the depressor was let out to the second is provided with first piston board, first piston board is let out the depressor through spring beam and second and is connected, a set of through-hole has all been seted up at both ends about the second is let out the depressor, and wherein a set of through-hole height that is close to the energy storage case is less than a set of through-hole height of keeping away from the energy storage case, and a set of through-hole that is close to the energy storage case is connected with the energy storage case through the intake pipe.
The invention is provided with a second pressure relief device at the top end inside the pressure stabilizing tank, when the gas supplementing device supplements excessive gas into the pressure stabilizing tank, the gas in the pressure stabilizing tank can jack up the first piston plate, finally the gas in the pressure stabilizing tank can flow out from a group of through holes close to the energy storage tank, the gas can be conveyed into the energy storage tank through the gas inlet pipe, thereby not only avoiding the damage of the pressure stabilizing tank caused by excessive gas in the pressure stabilizing tank, but also achieving the purpose of energy storage, being convenient for subsequent utilization, in addition, the present water supply device is not provided with an emergency device, the maximum water delivery quantity per unit time of the water supply device is generally the water delivery quantity per unit time of the water pump plus the water delivery quantity per unit time of a municipal water supply pipe, when the water delivery quantity per unit time required by a certain period of time is larger than the maximum water delivery quantity per unit time of the water supply device, the water supply device needs to replace the water pump to ensure the needs of users, but the water pump is not only troublesome to be replaced, and this kind of situation happens rarely, for this kind of situation change water pump is economically unpractical, therefore the invention has an energy storage device on the stationary flow tank, when meet the above-mentioned situation, open the check valve on the pressure increasing pipe, and close the discharge valve, then open the drive unit, can make the push pedal move in the energy storage box through screw rod and drive unit, can deliver the gas stored in the energy storage box to the stationary flow tank through the push pedal, and then make the atmospheric pressure in the stationary flow tank increase, so that the rivers in the stationary flow tank can flow out from the stationary flow tank with the very big velocity of flow, when the maximum water delivery volume per unit time of water pump is invariable, can improve the maximum water delivery volume per unit time of the water supply installation through the above-mentioned technical scheme, in order to guarantee the needs of users, finally the apparatus is simple in structure, economy is suitable, do benefit to popularize.
Further, the negative pressure eliminating tank is connected with the flow stabilizing tank through a negative pressure inlet pipe, one end of the negative pressure inlet pipe is provided with a first pressure relief device, an arc plate is arranged inside the first pressure relief device, the arc plate is connected with the first pressure relief device through a spring rod, a separating pipe is arranged on one side, close to the first pressure relief device, of the negative pressure eliminating tank, one end of the separating pipe is connected with the first pressure relief device, and the other end of the separating pipe is connected with the negative pressure eliminating tank.
Through the technical scheme, after the water in the water supply equipment is reduced to a certain degree so that the air in the pressure stabilizing tank is not enough to stabilize the pressure, the air in the external environment can be sent into the flow stabilizing tank through the negative pressure eliminating tank to keep the pressure in the flow stabilizing tank consistent with the external pressure, after a period of time, if the water in the water supply equipment is increased, the air sent into the flow stabilizing tank can be discharged through the negative pressure eliminating tank, but the air at the moment can become damp due to the contact with the water in the flow stabilizing tank, if the external air is very cold, the discharged damp air can possibly cause the icing phenomenon of the negative pressure eliminating tank, further the exhaust efficiency of the negative pressure eliminating tank is influenced, so that the air pressure in the flow stabilizing tank is increased to cause the damage of the flow stabilizing tank, the invention is provided with the first pressure relief device at one end of the negative pressure inlet pipe, and when the air pressure in the flow stabilizing tank is increased to a certain degree, the arc-shaped plate can rotate, because the one end of separator tube is connected with first pressure release ware, and the other end of separator tube is connected with the negative pressure elimination jar, consequently the gas of stationary flow jar inside can flow through the separator tube, and then avoids the inside atmospheric pressure of stationary flow jar to increase, leads to spare part and casing in the stationary flow jar to take place to damage, and after the atmospheric pressure of stationary flow jar inside reduced to certain degree, can make the arc reset through the spring beam.
Furthermore, the inside of the negative pressure eliminating tank is provided with a filter sleeve, an air injection pipe, a vortex tube and a negative pressure eliminator, the filter sleeve is arranged on the outer side of the negative pressure eliminator, the air injection pipe is arranged above the filter sleeve, the vortex tube is arranged at one end, close to the separating tube, of the inside of the negative pressure eliminating tank, the cooling tube is arranged inside the separating tube, the air inlet end of the vortex tube is connected with the air outlet end of the separating tube, the air outlet cold end of the vortex tube is connected with the cooling tube, and the air outlet hot end of the vortex tube is connected with the air injection pipe.
Through the technical scheme, moist air can enter into the vortex tube when flowing into the negative pressure elimination jar through the separator tube, can divide into cold air and hot-air with moist air through the vortex tube, wherein the hot-air flows out through jet-propelled pipe, ice crystal on the filter sleeve can be cleared up to hot-air through jet-propelled pipe spun, dust impurity on the filter sleeve can also be blown away simultaneously, and the cold air can enter into the inside cooling tube of separator tube, can make the moisture condensation in the moist air of back become the water droplet through the cooling tube, prevent that moisture in the moist air from contacting with the filter sleeve through jet-propelled pipe, lead to the filter sleeve moist.
Compared with the prior art, the invention has the following beneficial effects: compared with the prior water supply equipment, the invention is additionally provided with the second velometer and the speed-changing pipe, the turbulence degree of water flow can be judged through the movable plate arranged in the second velometer, the larger the opening degree of the movable plate is, the larger the inner diameter of the speed-changing pipe is, the purpose of slowing down the water flow can be achieved through the method, and the pump blade of the water pump is prevented from being damaged, if the disinfectant is added in the water supply equipment, the second coil arranged in the second velometer is connected with the first magnetic field generator arranged in the speed-changing pipe, the flow speed of the water flowing through the second velometer can be judged through the current change on the second coil, when the flow speed is too high, the inner diameter of the speed-changing pipe can be increased through the first magnetic field generator and the first magnetic block, so that the speed of the water flow is slowed down, and the disinfectant can be completely decomposed when the water flows into a user family, in addition, the invention is provided with the air supplement device between the pressure stabilizing tank and the negative pressure eliminating tank, on one hand, the air supply device can convey the gas in the negative pressure eliminating tank into the pressure stabilizing tank to prevent the air in the pressure stabilizing tank from being dissolved in water too much, so that the air in the pressure stabilizing tank is unstable, and the trouble that workers need to supply air into the pressure stabilizing tank at intervals is avoided, on the other hand, the air supply device can achieve the purpose of energy storage, when the unit time water delivery quantity required by a user at a certain time is larger than the maximum unit time water delivery quantity of the water supply device, the air pressure in the pressure stabilizing tank can be increased through the energy storage device, the maximum unit time water delivery quantity of the water supply device is ensured to be increased under the condition of not replacing a water pump, so as to meet the requirements of the user, and finally, the invention is provided with the first pressure relief device and the separation pipe, so that the gas in the pressure eliminating tank can be prevented from being blocked to be discharged in time through the first pressure relief device and the separation pipe, the filter sleeve can prevent the filter sleeve from unsmooth exhaust due to icing through the gas jet pipe, the vortex tube and the separation tube.
Drawings
The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:
FIG. 1 is a schematic view of the overall structure of the present invention;
FIG. 2 is a schematic view of the structure of the connecting tube of the present invention;
FIG. 3 is a schematic view of the structure of part A of FIG. 2 according to the present invention;
FIG. 4 is a schematic illustration of the shift tube of the present invention in its normal configuration;
FIG. 5 is a schematic view of the transmission tube of the present invention with an increased inner diameter;
FIG. 6 is an internal view of a third velometer according to the present invention;
FIG. 7 is a schematic view of portion B of FIG. 6 in accordance with the present invention;
FIG. 8 is a schematic view of the municipal water supply of the invention with water cut-off;
FIG. 9 is a schematic cross-sectional view of the present invention;
FIG. 10 is a schematic view of the gas supply device of the present invention;
FIG. 11 is a schematic view of section C of FIG. 9 of the present invention;
fig. 12 is a schematic view of the invention at section D of fig. 9.
In the figure: 1-base, 2-water delivery device, 21-water pump, 22-user water supply pipe, 3-current stabilizer, 31-current stabilization tank, 311-connecting pipe, 3111-first velometer, 31111-first permanent magnet, 31112-first coil, 31113-first fan blade, 3112-second velometer, 31121-second permanent magnet, 31122-second coil, 31123-second fan blade, 31124-movable plate, 31125-first liquid storage tank, 31126-second liquid storage tank, 31127-conductive block, 31128-extrusion block, 31129-third liquid storage tank, 312-speed changing pipe, 3121-first magnetic field generator, 3122-first arc block, 3123-second arc block, 31221-first magnetic block, 313-negative pressure air inlet pipe, 3131-first pressure relief pipe, 31311-arc plate, 32-pressure stabilizing tank, 321-second pressure relief device, 3211-first piston plate, 33-air supplement device, 331-air supplement box, 3311-rack frame, 3312-second piston plate, 332-connecting frame, 3321-floating rod, 333-air supplement pipe, 34-negative pressure elimination tank, 341-filter sleeve, 342-air jet pipe, 343-vortex pipe, 344-separating pipe, 345-negative pressure eliminator, 4-energy storage device, 41-energy storage box, 42-push plate, 43-pressure boost pipe, 44-air inlet pipe, 5-water inlet device, 51-municipal water supply pipe, 52-third velometer, 521-third fan blade, 522-baffle plate, 5221-fixing box, 52211-accumulator, 52212-commutator, 5222-expansion plate, 5223-second magnetic field generator, 5224-slider, 5225-conducting bar, 523-third permanent magnet, 524-third coil.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
As shown in fig. 1-5, a tank type water supply equipment with pressure stabilizing and storage regulating functions comprises a base 1, a water delivery device 2 and a flow stabilizing device 3 are arranged above the base 1, the water delivery device 2 comprises a water pump 21 and a user water supply pipe 22, the flow stabilizing device 3 comprises a flow stabilizing tank 31, a water inlet device 5 is arranged above the flow stabilizing tank 31, the lower end of the flow stabilizing tank 31 is connected with the water delivery device 2 through a connecting pipe 311 and a speed changing pipe 312, a second speed measuring device 3112 is arranged at one end of the connecting pipe 311 close to the speed changing pipe 312, the second speed measuring device 3112 is made of an insulating material, a first arc block 3122 and a second arc block 3123 are arranged inside the speed changing pipe 312, the first arc block 3122 and the second arc block 3123 are connected through hinges, the second arc block 3123 is connected with the speed changing pipe 312 through a spring, a first magnetic field generator 3121 is arranged at one end of the speed changing pipe 312 close to the first arc block 3122, the first arc block 3122 is provided with a first magnet 31221 near one end of the shift tube 312, the first magnetic field generator 3121 attracts the first magnet 31221 after being energized, a movable plate 31124, a first reservoir 31125, a second reservoir 31126 and a third reservoir 31129 are provided at one end of the second velometer 3112 near the shift tube 312, the first reservoir 31125 is filled with insulating liquid, the movable plate 31124 is connected with the first reservoir 31125 through a piston rod, the first reservoir 31125 is communicated with the second reservoir 31126, the second reservoir 31126 is communicated with the third reservoir 31129, two sets of conductive blocks 31127 are provided inside the second reservoir 31126, one group of the conductive blocks 31127 is connected with an external power supply, the other group of the conductive blocks 31127 is connected with the first magnetic field generator 3121, conductive liquid is filled between the two groups of the conductive blocks 31127, a pressing block 31128 is arranged inside the third liquid storage tank 31129, and the pressing block 31128 is connected with the third liquid storage tank 31129 through a spring.
The present water supply equipment is often subjected to scaling or blockage in the use process, when scaling and blockage fall off suddenly, the water pump 21 is subjected to a group of large water flow impact force, and simultaneously the water supply equipment is also influenced by water hammer effect in the work process, the existing water supply equipment basically installs the water hammer eliminator on the pipeline, but the water hammer eliminator can effectively protect the pipeline but cannot effectively protect the water pump 21, under the action of the two reasons, the pump blade in the water pump 21 is often damaged, the invention arranges the speed change pipe 312 between the second velometer 3112 and the water pump 21, when water flow passes through the second velometer 3112, the movable plate 31124 can change the opening degree according to the urgent degree of the water flow, the more the water flow is turbulent, the larger the opening degree of the movable plate 31124 is, because the movable plate 31124 is connected with the first liquid storage tank 25 through the piston rod, therefore, after the movable plate 31124 is opened, the insulating liquid in the first liquid storage tank 31125 flows into the second liquid storage tank 31126, so that the distance between the two sets of conductive blocks 31127 in the second liquid storage tank 31126 is shortened, at this time, the current received by the first magnetic field generator 3121 is increased, and the magnetic field generated by the first magnetic field generator 3121 attracts the first magnetic block 31221, so that the first arc-shaped block 3122 and the second arc-shaped block 3123 can move towards the speed changing pipe 312 through the first magnetic field generator 3121 and the first magnetic block 31221.
As shown in fig. 1 to 5, a first velometer 3111 is disposed at one end of the connection pipe 311 close to the steady flow tank 31, a first permanent magnet 31111, a first coil 31112 and a first fan 31113 are disposed inside the first velometer 3111, the first coil 31112 is connected to the first fan 31113 through a transmission rod, the first permanent magnet 31111 is disposed at upper and lower sides of the first coil 31112, a second permanent magnet 31121, a second coil 31122 and a second fan 31123 are disposed at one end of the second velometer 3112 far from the speed change pipe 312, the second coil 31122 is connected to the second fan 31123 through the transmission rod, the second permanent magnet 31121 is disposed at upper and lower sides of the second coil 31122, and the second coil 31122 is connected to the first magnetic field generator 3121.
Through the above technical solution, when water flows through the first speed meter 3111 and the second speed meter 3112, the first blade 31113 and the second blade 31123 may rotate, and at this time, the first coil 31112 and the second coil 31122 may both perform cutting magnetic induction line motion, and further generate induced current, under normal conditions, when the water inflow of the water inlet device 5 is unchanged, the current generated by the first coil 31112 and the second coil 31122 should be a fixed value, but the inside of the water supply device may be blocked after long-time operation, and the like, and at this time, whether a problem occurs inside the steady flow tank 31 may be determined by the current generated by the first coil 31112, and whether a problem occurs inside the connection pipe 311 may be determined by the current generated by the second coil 31122, which facilitates subsequent fixed-point maintenance of a worker, and in addition, in order to ensure safety of drinking water, some water supply devices may add a disinfectant capable of automatically decomposing into the steady flow tank 31, but decomposition of the disinfectant requires a certain time, under the condition that the user uses water normally, the water flow can be slowed down by adjusting the water absorption capacity of the water pump 21 so as to ensure that the disinfectant in the water flow enters the user family to be completely decomposed, at night, however, the water consumption of the user is reduced, the water pump 21 is normally in a closed state, the water in the water supply device is delivered to the family of the user only by the pressure of the municipal pipe network, in this case, it is not guaranteed that the water flow completely decomposes the disinfectant upon entering the user's home, the present invention connects the second coil 31122 with the first magnetic field generator 3121, the flow rate of the water flowing through the second tachometer 3112 can be determined by the current flowing through the second coil 31122, and when the flow rate is too high, i.e. there is a risk of incomplete decomposition of the disinfectant in the water flow, the diameter of the pipe can be increased by the first magnetic field generator 3121 and the first magnetic block 31221, so that the speed of the water flow is slowed down to ensure that the disinfectant is completely decomposed when the water flow enters the user's home.
As shown in fig. 1 to 8, the water supply device 5 includes a municipal water supply pipe 51 and a third velometer 52, a third vane 521 and a baffle 522 are provided inside the third velometer 52, the third vane 521 is connected with the baffle 522 through a transmission rod, the baffle 522 is made of an insulating material, a fixed box 5221 is provided at a middle position, an electric accumulator 52211 and a commutator 52212 are provided inside the fixed box 5221, both the electric accumulator 52211 and the commutator 52212 are provided with a conductive rod 5225 and extend out of the fixed box 5221, an expansion plate 5222 and a second magnetic field generator 5223 are provided at one end of the baffle 522 near the third velometer 52, one end of the expansion plate 5222 near the second magnetic field generator 5223 is provided with a magnetic field, a magnetic field generated when the second magnetic field generator 5223 is directly connected with the electric accumulator 52211 is mutually attracted with the expansion plate 5222, a magnetic field generated when the second magnetic field generator 5223 is connected with the electric accumulator 52211 and the commutator 52212 is mutually repelled with the expansion plate 5222, a slider 5224 is disposed at one end of the baffle 522 close to the fixing box 5221, and the slider 5224 is made of a conductive material and is connected to the fixing box 5221 through a spring.
Through the technical scheme, when water in the municipal water supply pipe 51 flows into the third velometer 52, a large impact force is generated on the third fan blade 521, so that the third fan blade 521 rotates, the baffle 522 also rotates due to the connection between the third fan blade 521 and the baffle 522 through the transmission rod, the slide block 5224 arranged inside the baffle 522 is far away from the fixed box 5221 under the action of centrifugal force, the second magnetic field generator 5223 is directly connected with the accumulator 52211, the expansion plate 5222 is contracted into the baffle 522 under the action of the second magnetic field generator 5223, when the water in the municipal water supply pipe 51 is cut off, the rotating speed of the third fan blade 521 and the baffle 522 is reduced, the centrifugal force generated by the baffle 522 is smaller than the tensile force of a spring between the slide block 5224 and the fixed box 5221, the slide block 5224 moves towards the fixed box 5221 and is contacted with the conductive rod 5225, the commutator 52212 is connected into a circuit of the second magnetic field generator 5223 and the accumulator 52211, the second magnetic field generator 5223 repels the retractable plate 5222, the retractable plate 5222 extends out of the baffle 522, and the third velometer 52 can be closed in time through the retractable plate 5222 and the baffle 522, so that the continuous work of water supply equipment is avoided, and the phenomenon of fracture caused by negative pressure in the municipal water supply pipe 51 is avoided.
As shown in fig. 1 to 6, a third permanent magnet 523 and a third coil 524 are disposed on both sides of the third velometer 52, the third fan blade 521 and the third coil 524 are connected by a transmission rod, and the third permanent magnet 523 is disposed on both upper and lower sides of the third coil 524.
Through the above technical scheme, when water flows through the third speed detector 52 to rotate the third fan blade 521, the third coil 524 can cut the magnetic induction line to move, so that induced current is generated, the water outlet condition of the municipal water supply pipe 51 can be judged by detecting the induced current on the third coil 524, under normal conditions, when the induced current on the third coil 524 is determined, the induced current on the first coil 31112 and the second coil 31122 should be a fixed value, when the induced current on the third coil 524 is determined to be unchanged, and when the induced current on the first coil 31112 and the second coil 31122 is obviously changed, a problem occurs at one place of the flow stabilizing tank 31 and the connecting pipe 311, so that the follow-up fixed-point maintenance of workers is facilitated.
As shown in fig. 1, 9 and 10, the flow stabilizer 3 further includes a surge tank 32, an air supplement device 33 and a negative pressure eliminating tank 34, the surge tank 32, the air supplement device 33 and the negative pressure eliminating tank 34 are all disposed on the surge tank 31, the air supplement device 33 includes an air supplement box 331, a connecting frame 332 and an air supplement pipe 333, one end of the air supplement pipe 333 is connected with the surge tank 32 through a one-way valve, the other end of the air supplement pipe 333 extends into the negative pressure eliminating tank 34, the air supplement box 331 is disposed on the air supplement pipe 333, the connecting frame 332 is disposed at one end of the air supplement box 331 close to the surge tank 31, a floating rod 3321 is disposed inside the connecting frame 332, one end of the floating rod 3321 far from the air supplement box 331 is provided with a floating ball and extends into the surge tank 31, one end of the floating rod 3321 close to the air supplement box 331 is provided with a rack and extends into the air supplement box 331, a second piston plate 3312 and a rack frame 3311 are disposed inside the air supplement box 331, an air intake valve is disposed on the second piston plate 3312, the rack 3311 is provided with a gear inside, and both the rack and the rack 3311 are engaged with the gear.
In the water supply device, during the operation, the pressure stabilizing tank 32 is usually filled with a large amount of air to prevent the negative pressure in the pressure stabilizing tank 31, but as the operation proceeds, the air in the air, such as oxygen, carbon dioxide, etc., will dissolve in the water, causing the air in the pressure stabilizing tank 32 to gradually decrease with the passage of time, and the staff will supplement the air to the pressure stabilizing tank 32 at intervals of time, the present invention is provided with the air supplement device 33 between the pressure stabilizing tank 32 and the negative pressure eliminating tank 34, because the water level in the pressure stabilizing tank 31 changes constantly, and at the same time, one end of the floating rod 3321 far from the air charging box 331 is provided with a floating ball and extends into the pressure stabilizing tank 31, the floating rod 3321 will rise and fall with the change of the water level in the pressure stabilizing tank 31, at this time, the second piston plate 2 can move in the air charging box 331 through the rack, the rack holder 3311 and the gear, the air in the negative pressure eliminating tank 34 can be delivered to the pressure stabilizing tank 32 through the second piston plate 3312 and the air intake valve 3312, the gas in the surge tank 32 is ensured to be in a relatively stable state all the time, and the trouble that the staff needs to supplement gas into the surge tank 32 at intervals is avoided.
As shown in fig. 1, 9 and 11, an energy storage device 4 is disposed on one side of the steady flow tank 31 close to the steady flow tank 32, the energy storage device 4 includes an energy storage tank 41 and a push plate 42, the push plate 42 is connected with the energy storage tank 41 through a screw and a driving device, the energy storage tank 41 is connected with the steady flow tank 31 through a pressure increasing pipe 43, the pressure increasing pipe 43 is provided with a one-way valve, a second pressure relief device 321 is disposed at the top end inside the steady flow tank 32, a first piston plate 3211 is disposed inside the second pressure relief device 321, the first piston plate 3211 is connected with the second pressure relief device 321 through a spring rod, a set of through holes are disposed at both left and right ends of the second pressure relief device 321, wherein, the height of the group of through holes close to the energy storage tank 41 is lower than that of the group of through holes far away from the energy storage tank 41, the group of through holes close to the energy storage tank 41 is connected with the energy storage tank 41 through an air inlet pipe 44, the air inlet pipe 44 is provided with a one-way valve, and the group of through holes far away from the energy storage tank 41 is provided with an exhaust valve.
In the invention, the second pressure relief device 321 is arranged at the top end inside the pressure stabilizing tank 32, when the gas supplementing device 33 supplements excessive gas into the pressure stabilizing tank 32, the gas in the pressure stabilizing tank 32 can jack up the first piston plate 3211, and finally the gas in the pressure stabilizing tank 32 can flow out from a group of through holes close to the energy storage tank 41, and the gas can be conveyed into the energy storage tank 41 through the air inlet pipe 44, so that the damage of the pressure stabilizing tank 32 caused by excessive gas in the pressure stabilizing tank 32 can be avoided, the energy storage purpose can be achieved, the subsequent utilization is convenient, in addition, the existing water supply device does not have an emergency device, the maximum water delivery quantity per unit time of the water supply device is usually the water delivery quantity per unit time of the water pump 21 plus the water delivery quantity per unit time of the municipal water supply pipe 51, when the water delivery quantity per unit time required by a certain period of time is larger than the maximum water delivery quantity per unit time of the water supply device, the water supply device needs to replace the water pump 21 to ensure the needs of a user, however, the water pump 21 is not only troublesome to replace, but also the situation is rare, and the replacement of the water pump 21 is not economically practical for the situation, so the energy storage device 4 is arranged on the steady flow tank 31, when the situation is met, the one-way valve on the pressure increasing pipe 43 is opened, the exhaust valve is closed, then the driving device is opened, the push plate 42 can move in the energy storage box 41 through the screw rod and the driving device, the gas stored in the energy storage box 41 can be conveyed into the steady flow tank 31 through the push plate 42, the air pressure in the steady flow tank 31 is further increased, so that the water flow in the steady flow tank 31 can flow out from the steady flow tank 31 at a great flow speed, when the maximum water delivery amount per unit time of the water pump 21 is not changed, the maximum water delivery amount per unit time of the water supply device can be increased through the technical scheme, the requirement of a user is ensured, and finally the device has a simple structure and is economically practical, is beneficial to popularization.
As shown in fig. 1, 9 and 12, the negative pressure eliminating tank 34 is connected to the flow stabilizing tank 31 through a negative pressure inlet pipe 313, a first pressure relief 3131 is disposed at one end of the negative pressure inlet pipe 313, an arc 31311 is disposed inside the first pressure relief 3131, the arc 31311 is connected to the first pressure relief 3131 through a spring rod, a separating pipe 344 is disposed on a side of the negative pressure eliminating tank 34 close to the first pressure relief 3131, one end of the separating pipe 344 is connected to the first pressure relief 3131, and the other end of the separating pipe 344 is connected to the negative pressure eliminating tank 34.
Through the above technical scheme, after the water in the water supply equipment is reduced to a certain degree so that the air in the pressure stabilizing tank 32 is not enough to stabilize the pressure, the air in the external environment can be sent into the flow stabilizing tank 31 through the negative pressure eliminating tank 34 to keep the pressure in the flow stabilizing tank 31 consistent with the external pressure, after a period of time, if the water in the water supply equipment is increased, the air sent into the flow stabilizing tank 31 can be discharged through the negative pressure eliminating tank 34, but the air at the moment can become damp due to contact with the water in the flow stabilizing tank 31, if the external air is very cold, the discharged damp air can possibly cause the icing phenomenon of the negative pressure eliminating tank 34, and further influences the exhaust efficiency of the negative pressure eliminating tank 34, so that the air pressure in the flow stabilizing tank 31 is increased to damage the flow stabilizing tank 31, the invention is provided with the first pressure relief device 3131 at one end of the negative pressure inlet pipe 313, make the arc 31311 take place to rotate after the inside atmospheric pressure of stationary flow jar 31 reaches certain degree, because the one end of separator 344 is connected with first pressure relief 3131, the other end of separator 344 is connected with negative pressure elimination jar 34, therefore the inside gas of stationary flow jar 31 can flow out through separator 344, and then avoid the inside atmospheric pressure increase of stationary flow jar 31, lead to spare part and the casing in the stationary flow jar 31 to take place to damage, after the inside atmospheric pressure of stationary flow jar 31 reduces to certain degree, can make the arc 31311 reset through the spring beam.
As shown in fig. 1, 9 and 12, a filter sleeve 341, an air injection pipe 342, a vortex pipe 343 and a negative pressure eliminator 345 are arranged inside the negative pressure elimination tank 34, the filter sleeve 341 is arranged outside the negative pressure eliminator 345, the air injection pipe 342 is arranged above the filter sleeve 341, the vortex pipe 343 is arranged at one end of the inside of the negative pressure elimination tank 34 close to the separation pipe 344, a cooling pipe is arranged inside the separation pipe 344, an air inlet end of the vortex pipe 343 is connected with an air outlet end of the separation pipe 344, an air outlet cold end of the vortex pipe 343 is connected with the cooling pipe, and an air outlet hot end of the vortex pipe 343 is connected with the air injection pipe 342.
Through the technical scheme, moist air can enter the vortex tube 343 when flowing into the negative pressure elimination tank 34 through the separation tube 344, the moist air can be divided into cold air and hot air through the vortex tube 343, wherein the hot air flows out through the air injection tube 342, the ice crystals on the filter sleeve 341 can be cleared up by the hot air sprayed from the air injection tube 342, meanwhile, dust and impurities on the filter sleeve 341 can be blown away, the cold air can enter the cooling tube inside the separation tube 344, moisture in the moist air at the back can be condensed into water drops through the cooling tube, the moisture in the moist air is prevented from contacting the filter sleeve 341 through the air injection tube 342, and the filter sleeve 341 is prevented from being moist.
The working principle of the invention is as follows: when the water supply equipment works, water in the municipal water supply pipe 51 flows into the steady flow tank 31 through the third velometer 52, on one hand, the water flow of the municipal water supply pipe 51 can be judged through the third velometer 52, on the other hand, the connection between the municipal water supply pipe 51 and the water supply equipment can be timely blocked, and the phenomenon of rupture caused by negative pressure in the municipal water supply pipe 51 can be avoided, on the other hand, the speed change pipe 312 is arranged, when the water flows through the second velometer 3112, the turbulence degree of the water flow can be judged through the movable plate 31124, the inner diameter of the speed change pipe 312 can be adjusted at any time according to the turbulence degree of the water flow, so as to prevent the pump pressure of the water pump 21 from being damaged, meanwhile, when the water consumption of a user is reduced, when the water pump 21 is in a closed state, the flow rate of the water flowing through the second velometer 31122 can be judged through the current change, and when the flow rate is too high, the diameter of the pipeline can be increased through the first magnetic field generator 3121 and the first magnetic block 31221, the speed of the water flow is slowed down to ensure that the disinfectant in the household of the user can be completely decomposed when the water flow enters the household of the user, in the working process of the water supply device, the air in the negative pressure eliminating tank 34 can be conveyed into the pressure stabilizing tank 32 through the air supplementing device 33, the phenomenon that the air in the pressure stabilizing tank 32 is dissolved in the water too much to cause the air in the flow stabilizing tank 31 to be unstable is prevented, when the water delivery amount per unit time required by the user in a certain period of time is larger than the maximum water delivery amount per unit time of the water supply device, the air pressure in the flow stabilizing tank 31 can be increased through the energy storage device 4, the maximum water delivery amount per unit time of the water supply device is ensured to be increased under the condition that the water pump 21 is not replaced to realize the requirements of the user, when the water in the water supply device is reduced to a certain degree so that the air in the pressure stabilizing tank 32 is not enough to stabilize the pressure, the negative pressure eliminator 345 is started, and the filter sleeve 341 outside of the negative pressure eliminator 345 can prevent external dust, Impurities enter the steady flow tank 31, and the filter sleeve 341 can be prevented from being blocked by icing through the air injection pipe 342, the vortex pipe and the separation pipe 344.
It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.
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.

Claims (8)

1. The utility model provides a pot-type water supply equipment with steady voltage regulation function, includes base (1), its characterized in that: a water delivery device (2) and a flow stabilizing device (3) are arranged above the base (1), the water delivery device (2) comprises a water pump (21) and a user water supply pipe (22), the flow stabilizing device (3) comprises a flow stabilizing tank (31), a water inlet device (5) is arranged above the flow stabilizing tank (31), the lower end of the flow stabilizing tank (31) is connected with the water delivery device (2) through a connecting pipe (311) and a speed changing pipe (312), a second speed detector (3112) is arranged at one end, close to the speed changing pipe (312), of the connecting pipe (311), a first arc-shaped block (3122) and a second arc-shaped block (3123) are arranged inside the speed changing pipe (312), a first magnetic field generator (3121) is arranged at one end, close to the first arc-shaped block (3122), of the first arc-shaped block (3122) is provided with a first magnetic block (31221), a movable plate (31124), a first reservoir (31125), a second reservoir (31126) and a third reservoir (31129) are arranged at one end, close to the speed change tube (312), of the interior of the second speed measurer (3112), the movable plate (31124) is connected with the first reservoir (31125) through a piston rod, the first reservoir (31125) is communicated with the second reservoir (31126), the second reservoir (31126) is communicated with the third reservoir (31129), two groups of conductive blocks (31127) are arranged in the second reservoir (31126), one group of conductive blocks (31127) is connected with an external power supply, and the other group of conductive blocks (31127) is connected with the first magnetic field generator (3121).
2. The tank type water supply equipment with the pressure stabilizing and storage adjusting function as claimed in claim 1, wherein: one end of the connecting pipe (311) close to the steady flow tank (31) is provided with a first velometer (3111), a first permanent magnet (31111), a first coil (31112) and a first fan blade (31113) are arranged in the first velometer (3111), the first coil (31112) is connected with the first fan blade (31113) through a transmission rod, the first permanent magnet (31111) is disposed at upper and lower sides of the first coil (31112), one end of the interior of the second velometer (3112) far away from the speed-changing tube (312) is provided with a second permanent magnet (31121), a second coil (31122) and a second fan blade (31123), the second coil (31122) is connected with the second fan blade (31123) through a transmission rod, the second permanent magnet (31121) is disposed at upper and lower sides of the second coil (31122), the second coil (31122) is connected to a first magnetic field generator (3121).
3. The tank type water supply equipment with the pressure stabilizing and storage adjusting function as claimed in claim 2, characterized in that: the water inlet device (5) comprises a municipal water supply pipe (51) and a third velometer (52), a third fan blade (521) and a baffle (522) are arranged inside the third velometer (52), the third fan blade (521) is connected with the baffle (522) through a transmission rod, the baffle (522) is made of an insulating material, a fixed box (5221) is arranged at the middle position of the baffle (522), an electric accumulator (52211) and a commutator (52212) are arranged inside the fixed box (5221), electric conduction rods (5225) are arranged on the electric accumulator (52211) and the commutator (52212) and extend out of the fixed box (5221), a telescopic plate (5222) and a second magnetic field generator (5223) are arranged at one end, close to the third velometer (52), of the inside of the baffle (522), the second magnetic field generator (5223) is connected with the electric accumulator (52211) and the commutator (52212), and a sliding block (5224) is arranged at one end, close to the fixed box (5221), of the inside of the baffle (522), the slider (5224) is made of a conductive material.
4. The tank type water supply equipment with the pressure stabilizing and storage adjusting function according to claim 3, characterized in that: and a third permanent magnet (523) and a third coil (524) are arranged on two sides of the third velometer (52), the third fan blade (521) is connected with the third coil (524) through a transmission rod, and the third permanent magnet (523) is arranged on the upper side and the lower side of the third coil (524).
5. The tank type water supply equipment with the pressure stabilizing and storage adjusting function according to claim 4, characterized in that: flow stabilizer (3) still include surge tank (32), air supplement unit (33) and negative pressure and eliminate jar (34), surge tank (32), air supplement unit (33) and negative pressure are eliminated jar (34) and are all set up on surge tank (31), air supplement unit (33) is including aerifing box (331), link (332) and air supplement pipe (333), the one end of air supplement pipe (333) is connected with surge tank (32), the other end and the negative pressure of air supplement pipe (333) are eliminated jar (34) and are connected, it sets up on air supplement pipe (333) to aerify box (331), link (332) set up the one end that is close to surge tank (31) in box of aerifing (331), the inside of link (332) is provided with float rod (3321), the one end that box (331) were kept away from to aerify in float rod (3321) is provided with the floater and stretches into the inside of jar (31), the one end that float rod (3321) are close to box (331) is provided with the stationary flow of aerifing and stretches into rack (331) and inflates the stationary flow box (331), the stationary flow box (331) and fill Inside, the inside of inflating box (331) is provided with second piston plate (3312) and rack (3311), be provided with the admission valve on second piston plate (3312), the inside of rack (3311) is provided with the gear, rack and rack (3311) all are connected with gear engagement.
6. The tank type water supply equipment with the pressure stabilizing and storage adjusting function according to claim 5, characterized in that: an energy storage device (4) is arranged on one side of the steady flow tank (31) close to the pressure stabilizing tank (32), the energy storage device (4) comprises an energy storage box (41) and a push plate (42), the push plate (42) is connected with the energy storage box (41) through a screw rod and a driving device, the energy storage box (41) is connected with the steady flow tank (31) through a pressure increasing pipe (43), a second pressure relief device (321) is arranged at the top end of the interior of the pressure stabilizing tank (32), a first piston plate (3211) is arranged inside the second pressure relief device (321), the first piston plate (3211) is connected with a second pressure relief device (321) through a spring rod, a set of through holes are formed at the left end and the right end of the second pressure relief device (321), wherein the height of the group of through holes close to the energy storage tank (41) is lower than that of the group of through holes far away from the energy storage tank (41), and the group of through holes close to the energy storage tank (41) is connected with the energy storage tank (41) through an air inlet pipe (44).
7. The tank type water supply equipment with the pressure stabilizing and storage adjusting function according to claim 5, characterized in that: jar (34) are eliminated to negative pressure is connected with stationary flow jar (31) through negative pressure intake pipe (313), the one end of negative pressure intake pipe (313) is provided with first pressure relief ware (3131), the inside of first pressure relief ware (3131) is provided with arc (31311), be connected through the spring pole between arc (31311) and the first pressure relief ware (3131), one side that jar (34) are close to first pressure relief ware (3131) is eliminated to negative pressure is provided with separator tube (344), the one end of separator tube (344) is connected with first pressure relief ware (3131), the other end and the negative pressure of separator tube (344) are eliminated jar (34) and are connected.
8. The tank type water supply equipment with the pressure stabilizing and storage adjusting function according to claim 7, characterized in that: the negative pressure eliminating tank (34) is internally provided with a filter sleeve (341), an air injection pipe (342), a vortex pipe (343) and a negative pressure eliminator (345), the filter sleeve (341) is arranged at the outer side of the negative pressure eliminator (345), the air injection pipe (342) is arranged above the filter sleeve (341), the vortex pipe (343) is arranged at one end, close to the separating pipe (344), in the negative pressure eliminating tank (34), the separating pipe (344) is internally provided with a cooling pipe, the air inlet end of the vortex pipe (343) is connected with the air outlet end of the separating pipe (344), the air outlet cold end of the vortex pipe (343) is connected with the cooling pipe, and the air outlet hot end of the vortex pipe (343) is connected with the air injection pipe (342).
CN202111596676.8A 2021-12-24 2021-12-24 Tank type water supply equipment with steady voltage regulation and storage functions Active CN114059624B (en)

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CN114733216A (en) * 2022-03-15 2022-07-12 江苏道尔顿石化科技有限公司 Acetaldehyde evaporimeter of heat cyclic utilization
CN114733216B (en) * 2022-03-15 2023-03-03 江苏道尔顿石化科技有限公司 Acetaldehyde evaporimeter of heat cyclic utilization
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