CN115198841A - Low-energy-consumption water supply device - Google Patents

Abstract

The invention discloses a low-energy-consumption water supply device which comprises a water supply equipment body, wherein the output end of the water supply equipment body is connected with a maintenance pipe in a penetrating way, the top side of the maintenance pipe is connected with a water supply main pipe through a coupler, a limiting pipe is arranged at the central position of the inner side of the water supply main pipe, positioning pieces are fixed on the inner walls of the upper side and the lower side of each water supply main pipe, clamping holes for clamping the limiting pipes are arranged in the middle of the positioning pieces in a penetrating way, through holes convenient for stabilizing the flow of drinking water are also arranged on the outer sides of the top surfaces of the positioning pieces, water through holes are also arranged on the side walls of the limiting pipes, positioning columns are fixed on the top surfaces of the limiting pipes, and positioning holes matched with the positioning columns are also arranged on the bottom sides of the limiting pipes. The invention has reasonable design and stable operation, reduces the working power of the water supply equipment by changing the volume of water delivery in the water supply pipe during use, and does not change the water supply pressure in the whole process, thereby greatly saving energy consumption and ensuring the water use experience of users.

Description

Low-energy-consumption water supply device

Technical Field

The invention relates to the technical field of water supply auxiliary equipment, in particular to a low-energy-consumption water supply device.

Background

Water supply equipment is commonly used for production, living and agricultural irrigation, and the characteristics of living water supply are that the flow demand fluctuation is large, the medium and small flow water supply time is long, while the efficiency of a common booster pump is low under the working condition of medium and small flow, the energy consumption is high, and the efficiency of a water pump is reduced by about half under the working condition of 25 percent of rated flow, which means that under the condition of the same water supply pressure and water supply quantity, the energy consumption of small flow water supply is 2 times or more of that of large flow water supply, and the energy waste is caused.

Through the retrieval, application number 201910496596.1's patent discloses an energy-conserving water supply equipment, including stationary flow jar, booster pump unit, check valve, switch board, stationary flow jar passes through the pipeline and is connected with the booster pump unit, and the booster pump unit is connected with water outlet pipe way, and fixed mounting has the check valve on the water outlet pipe way, switch board intelligent control water supply equipment's operation.

The device achieves the energy-saving effect within the medium and small flow water supply time range by controlling the flow of inlet water, but the pressure in the water supply pipe is reduced after the flow is reduced, so that the water outlet speed and the flow of a user are greatly reduced when the user uses water, the water use experience of the user is seriously influenced, the use requirement of people is difficult to meet, and therefore, the research of the low-energy water supply device is necessary.

Disclosure of Invention

The invention aims to solve the problems of high energy consumption and unstable water supply in the prior art, and provides a low-energy-consumption water supply device.

In order to achieve the purpose, the invention adopts the following technical scheme:

the utility model provides a low energy consumption water supply installation, includes the water supply equipment body, and water supply equipment body output end through connection has the maintenance pipe, maintenance pipe top side has the water supply house steward through the coupling joint, the inboard central point of water supply house steward puts and is equipped with spacing pipe, single the inboard inner wall all is fixed with the spacer on the water supply house steward downside, the spacer middle part all runs through and sets up the card fixed hole that is used for card fixed spacing pipe, and the through-hole of the drinking water stationary flow of being convenient for is still seted up in the spacer top surface outside, and the limbers has still been seted up to spacing pipe lateral wall, spacing pipe top all is fixed with the reference column, and spacing bottom of the tube side still has been seted up the locating hole identical with the reference column, spacing intraductal side is equipped with the gasbag that changes spacing pipe water supply volume and aerifys the stick, adjacent two be connected with the double-end connector between the gasbag aerifys the stick, the water supply house steward upside is equipped with the air feed mechanism that is used for changing gasbag and aerifys the stick state.

Preferably, the water supply installation body is including installing the base, and installation base top surface middle part is fixed with the water supply tank, and filter and intelligent liquid level protector are installed respectively to water supply tank top surface both sides, the switch board is installed to water supply tank one side, and the water supply tank opposite side is provided with the filler pipe, and filler pipe and water supply tank bottom surface through connection have a aqueduct, filler pipe one side is provided with the delivery pipe, and the delivery pipe is close to aqueduct one side and erects by the installation base front side to the rear side in proper order and install water supplementing pump one, lift pump, water supplementing pump two and the reserve pump input end and the filler pipe between all through connection have the pipe of watering, water supplementing pump one, lift pump, water supplementing pump two and the reserve pump output end all through connection on the delivery pipe.

Preferably, the first water replenishing pump, the water lifting pump, the second water replenishing pump and the standby pump are all erected and installed on the top surface of the installation base, the middle of the irrigation pipe is further connected with an overhauling section convenient for dredging and cleaning of equipment through a coupler, the output end of the intelligent liquid level protector is electrically connected with the receiver in the control cabinet, and the control ends of the first water pump, the water lifting pump, the second water replenishing pump and the standby pump are electrically connected with the transmitter in the control cabinet.

Preferably, air feed mechanism is including running through the connecting pipe of fixing on floor equipment room bottom, connecting pipe and the top the water main is contradicted, connecting pipe top side runs through and is fixed with the gas injection and divides the pipe, and the solenoid valve is all installed to the gas injection branch intraductal wall, and the gas injection divides pipe upside through connection to have the gas injection house steward, and gas injection house steward top side through connection has hollow post, the hollow post outside is provided with the gas pitcher, and the gas pitcher deviates from hollow post one side and all is equipped with the support, and support top side all has electric telescopic handle through the fix with screw, and the electric telescopic handle output all extends to adjacent in the gas pitcher and at the end fixing have the piston head, and the gas pitcher is given vent to and is all through connection with the air duct between end and the hollow post outer wall.

Preferably, the gas pitcher is equipped with a plurality ofly, and its quantity is according to the high settlement of supplying water, gas pitcher and support are all fixed on floor equipment room bottom surface, the water pressure makes the gasbag aerify the stick and be in the shriveled state in the water supply main pipe when the piston head deviates from the laminating of hollow post one side with the gas pitcher with the laminating of gas pitcher inner wall.

Preferably, it is fixed that maintenance pipe both ends all pass through the shaft coupling, and water main is equipped with many, and all fixes through the shaft coupling between the adjacent water main, spacing pipe length and single water main length is unanimous, and reference column and locating hole all are equipped with a plurality ofly and distribute equally on spacing pipe top surface and bottom surface.

Preferably, the through holes are arranged in a plurality and are uniformly distributed on the outer side of the top surface of the positioning sheet in an annular mode, and the water through holes are arranged in a plurality and are distributed on the side wall of the limiting pipe in a matrix mode.

Preferably, the number of the air bag inflating rods is twice that of the water supply main pipe, the air bag inflating rods are distributed in the water supply main pipe in three vertical rows, and the air bag inflating rods at the bottommost side are fixed on the inner wall of the limiting pipe.

Compared with the prior art, the invention provides a low-energy-consumption water supply device, which has the following beneficial effects:

1. the invention has reasonable design and stable operation of the device, reduces the working power of the water supply equipment by changing the volume of water delivery in the water supply pipe during use, and does not change the water supply pressure in the whole process, thereby greatly saving energy consumption and ensuring the water use experience of users;

2. when the water supply device is used, a user is supplied with water by the water supply device body, the working condition time of medium and small flow is set according to the condition of water consumption of the user, and the air inflation rods of the air bags in the vertical rows are inflated according to the set working condition and time, so that the adjustment of the water supply quantity in the water supply main pipe is reduced, and on the premise that the water supply pressure is unchanged, the output power of the water supply device body is adjusted along with the reduction of the water supply quantity, so that the aim of saving energy consumption is fulfilled;

3. when the water supply device supplies water under the working condition of medium and small flow, the output power of the water supply device body is adjusted only according to the water supply quantity in the water supply main pipe, and the pressure in the water supply main pipe is kept in the initial setting range, so that the water use experience of a user is well ensured;

4. according to the invention, the electromagnetic valve on the gas injection branch pipe is selectively opened according to the set flow working condition during gas supply, the piston head is driven by the opened electric telescopic rod to move to enable the gas in the gas tank to be input into the gas bag gas filling rod, at the moment, the gas bag gas filling rod is inflated and expanded, so that the rapid change of the water delivery volume in the water supply main pipe is achieved, the adjusting speed of the device is further ensured under the medium-small flow working condition, the piston head moves back when the gas is leaked, at the moment, the gas is pressed back into the gas tank by the water pressure, and the water supply quantity in the water supply main pipe is adjusted again when the electromagnetic valve is closed to wait for the next medium-small flow working condition;

5. according to the invention, water is delivered actively by the water lifting pump during water delivery, when the water delivery pressure is reduced, the first water supplementing pump is started to complete water supplementing operation, the second water supplementing pump is started when the first water supplementing pump is in full-load operation and water is not supplemented enough, and the standby pump is used as a timely replacement function when the first water supplementing pump or the second water supplementing pump fails, so that the water delivery stability of the second water supplementing pump is ensured well.

Drawings

FIG. 1 is a schematic front view of the present invention;

FIG. 2 is a connection diagram of the water main of the present invention;

FIG. 3 is a schematic view of the structure of the positioning plate of the present invention;

FIG. 4 is a schematic structural view of a stopper tube according to the present invention;

FIG. 5 is a front view of the air supply mechanism of the present invention;

FIG. 6 is a top view of the air supply mechanism of the present invention;

FIG. 7 is an enlarged view taken at A of FIG. 5 in accordance with the present invention;

fig. 8 is a plan view of a water supply equipment body according to the present invention.

In the figure: the water supply equipment comprises a water supply equipment body 1, a maintenance pipe 2, a water supply header pipe 3, a limiting pipe 4, a positioning sheet 5, a clamping hole 6, a through hole 7, a water through hole 8, a positioning column 9, an airbag inflation rod 10, a double-head connector 11, a gas supply mechanism 12, an installation base 101, a water supply tank 102, a filter 103, an intelligent liquid level protector 104, a control cabinet 105, a water adding pipe 106, a water guide pipe 107, a water supply pipe 108, a first water replenishing pump 109, a water lifting pump 1010, a second water replenishing pump 1011, a standby pump 1012, a water filling pipe 1013, an overhaul section 1014, a connecting pipe 121, a gas injection branch pipe 122, a gas injection header pipe 123, a hollow column 124, a gas tank 125, a support 126, an electric telescopic rod 127, a piston head 128 and a gas guide pipe 129.

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.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Example one

Referring to fig. 1-4, a low energy consumption water supply installation, including water supply installation body 1, the through connection of 1 output of water supply installation has maintenance pipe 2, thereby be convenient for maintenance and mediation of device, maintenance pipe 2 top side has water main 3 through the coupling joint, 3 inboard central point of water main puts and is equipped with spacing pipe 4, single water main 3 upper and lower side inner wall all is fixed with spacer 5, spacer 5 middle part all runs through and sets up the card hole 6 that is used for card spacing pipe 4, spacer 5 top surface outside still sets up the through-hole 7 that is convenient for the drinking water stationary flow, through-hole 7 is equipped with a plurality ofly and is cyclic annular evenly distributed in the spacer 5 top surface outside, water passage 8 has still been seted up to spacing pipe 4 lateral wall, water passage 8 is equipped with a plurality ofly and is the matrix form and distributes on spacing pipe 4 lateral wall, thereby guarantee that water can smoothly circulate in the water main 3, spacing pipe 4 top surface all is fixed with reference column 9, spacing pipe 4 bottom side still sets up the reference column and has the reference column 9 identical locating hole, 9 and locating hole all are equipped with a plurality ofly and equally distribute on spacing pipe 4 top surface and bottom surface and the side, thereby make two adjacent air bag 4 grafting of spacing pipe 4 more be equipped with 10 air bag 10 inboard air bag 10 for changing the air supply connection of air bag 10 air-bag for the air-bag 10.

When the water supply device is used, the water supply device body 1 supplies water to a user, the working condition time of medium and small flow is set according to the condition of water consumption of the user, and the air supply mechanism 12 is used for selectively inflating the air bag inflating rods 10 in several vertical rows according to the set working condition and time, so that the adjustment of reducing the water supply quantity in the water supply main pipe 3 is achieved, on the premise that the water supply pressure is not changed, the output power of the water supply device body 1 is adjusted along with the reduction of the water supply quantity at the moment, and the purpose of saving energy consumption is achieved

Example two

As shown in fig. 1 and 8, the present embodiment is substantially the same as embodiment 1, and preferably, the water supply equipment body 1 includes an installation base 101, a water supply tank 102 is fixed in the middle of the top surface of the installation base 101, a filter 103 and an intelligent liquid level protector 104 are respectively installed on both sides of the top surface of the water supply tank 102, so as to further filter drinking water and monitor the liquid level in the water supply tank 102 in real time, thereby ensuring the stability of water supply, a control cabinet 105 is installed on one side of the water supply tank 102, a water feeding pipe 106 is installed on the other side of the water supply tank 102, a water guiding pipe 107 is connected to the bottom surface of the water supply tank 102 through the water feeding pipe 106, a water supply pipe 108 is installed on one side of the water supply pipe 108 close to the water guiding pipe 107, a first make-up pump 109, a water lifting pump 1010, a second make-up pump 1011 and a backup pump 1012 are sequentially installed from the front side to the rear side of the installation base 101, a water filling pipe 1013 is connected between the first make-up pump 109, the water pump 1010, the second make-up pump 1011 and the backup pump 1012, output ends of the first make-up pump 109, the first make-up pump 1010, the second 1011 and the backup pump 1012 are all connected to the water supply pipe 108.

In this embodiment, water is transported by water lift pump 1010 initiative when supplying water, and moisturizing operation is accomplished in the start-up of moisturizing pump 109 when delivery pressure reduces, and moisturizing pump 1011 is opened when moisturizing pump 109 fully loaded operation is not enough moisturizing yet, and the effect is in time replaced when making a trouble of moisturizing pump 109 or moisturizing pump 1011 to spare pump 1012 to the stability of moisturizing pump 1011 is transported to fine assurance.

EXAMPLE III

As shown in fig. 1 and 8, this embodiment is substantially the same as embodiment 1, and preferably, the first make-up pump 109, the lift pump 1010, the second make-up pump 1011, and the backup pump 1012 are all installed on the top surface of the installation base 101, the middle part of the irrigation pipe 1013 is further connected with an overhaul section 1014 facilitating dredging and cleaning of the equipment through a coupling, the output end of the intelligent liquid level protector 104 is electrically connected with the receiver in the control cabinet 105, and the control ends of the first pump 109, the lift pump 1010, the second make-up pump 1011, and the backup pump 1012 are electrically connected with the transmitter in the control cabinet 105.

In this embodiment, the middle of the irrigation pipe 1013 is provided with the maintenance section 1014, so that the maintenance and the dredging of the water supply apparatus body 1 are not facilitated, and the operation of the water supply apparatus body 1 is better ensured to be more stable.

Example four

As shown in fig. 1, 5, 6 and 7, this embodiment is substantially the same as embodiment 1, preferably, the gas supply mechanism 12 includes a connecting pipe 121 fixed on the bottom surface of the floor equipment room, the connecting pipe 121 abuts against the uppermost water supply main 3, a gas injection branch pipe 122 is fixed on the top side of the connecting pipe 121 in a penetrating manner, electromagnetic valves are mounted on the inner walls of the gas injection branch pipe 122, a gas injection main 123 is connected on the upper side of the gas injection branch pipe 122 in a penetrating manner, a hollow column 124 is connected on the top side of the gas injection main 123 in a penetrating manner, a gas tank 125 is arranged on the outer side of the hollow column 124, a support 126 is arranged on the side of the gas tank 125 away from the hollow column 124, electric telescopic rods 127 are fixed on the top side of the support 126 through screws, control ends of the electric telescopic rods 127 and the electromagnetic valves are electrically connected with the control cabinet 105, thereby facilitating automatic control operation of the equipment, output ends of the electric telescopic rods 127 all extend into adjacent gas tanks 125 and piston heads 128 are fixed on the end portions, and gas outlet pipes 129 are connected between the end portions of the gas tank 125 and the outer wall of the hollow column 124 in a penetrating manner.

In this embodiment, the electromagnetic valve on the gas injection branch pipe 122 is selectively opened according to a set flow working condition during gas supply, the electric telescopic rod 127 drives the piston head 128 to move after the opening so that gas in the gas tank 125 is input into the airbag inflating rod 10, the airbag inflating rod 10 inflates and expands at the moment, so that the volume of water delivered in the water supply main 3 is rapidly changed, the speed of device adjustment is further ensured under a medium-and-small flow working condition, the piston head 128 moves back when gas is leaked, the gas is pressed back into the gas tank 125 by water pressure at the moment, and the electromagnetic valve is closed to wait for readjustment of water supply quantity in the water supply main 3 under the next medium-and-small flow working condition.

EXAMPLE five

As shown in fig. 1, 5, 6 and 7, this embodiment is substantially the same as embodiment 1, and preferably, the air tank 125 is provided in plural numbers, the number of the air tanks 125 is set according to the water supply height, the air tank 125 and the support 126 are fixed on the bottom surface of the floor facility room, the piston head 128 is attached to the inner wall of the air tank 125, and the water pressure in the water supply main 3 makes the air bag inflating rod 10 in the deflated state when the piston head 128 is attached to the side of the air tank 125 away from the hollow column 124.

In this embodiment, the water pressure when the piston head 128 engages the side of the air tank 125 facing away from the hollow post 124 is just sufficient to counteract the pressure of the water supply in the water main 3, thereby ensuring that the air-bag inflatable wand 10 automatically deflates to restore the deflated state after the air is injected.

EXAMPLE six

As shown in fig. 1 and 2, the present embodiment is substantially the same as embodiment 1, preferably, two ends of the maintenance pipe 2 are fixed by couplers, the water supply main 3 is provided with a plurality of water supply main 3, and the adjacent water supply main 3 are fixed by couplers, the length of the limiting pipe 4 is the same as that of a single water supply main 3, the number of the airbag inflation rods 10 is 6 times that of the water supply main 3, the airbag inflation rods 10 are distributed in the water supply main 3 in three vertical rows, the airbag inflation rods 10 at the bottommost side are fixed on the inner wall of the limiting pipe 4, and the gas injection branch pipes 122 at the uppermost side are all fixed on the bottom surfaces of the gas injection branch pipes 122 in a penetrating manner.

In this embodiment, the gasbag aerifys stick 10 and is three vertical rows and distributes, and single row mutually independent to be convenient for realize the multistage adjustment of 3 water supply volumes of water supply main, and then satisfy the requirement that water supply equipment body 1 satisfies diversified water supplies, and then improved the flexibility that the device used greatly.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be able to cover the technical scope of the present invention and the equivalent alternatives or modifications according to the technical solution and the inventive concept of the present invention within the technical scope of the present invention.

Claims (10)

1. A low-energy-consumption water supply device comprises a water supply equipment body (1), wherein the output end of the water supply equipment body (1) is connected with a maintenance pipe (2) in a penetrating way, and the low-energy-consumption water supply device is characterized in that the top side of the maintenance pipe (2) is connected with a water supply main pipe (3) through a coupler;

the water supply main pipe (3) is characterized in that a limiting pipe (4) is arranged at the central position of the inner side of the water supply main pipe (3), positioning pieces (5) are fixed on the inner walls of the upper side and the lower side of each water supply main pipe (3), clamping holes (6) used for clamping the limiting pipes (4) are formed in the middle of each positioning piece (5) in a penetrating mode, through holes (7) convenient for stable flow of drinking water are further formed in the outer sides of the top surfaces of the positioning pieces (5), water through holes (8) are further formed in the side walls of the limiting pipes (4), positioning columns (9) are fixed on the top surfaces of the limiting pipes (4), and positioning holes matched with the positioning columns (9) are further formed in the bottom sides of the limiting pipes (4);

spacing pipe (4) inboard is equipped with the gasbag that changes spacing pipe (4) water supply volume and aerifys stick (10), adjacent two the gasbag is aerifyd and is connected with double-end connector (11) between stick (10), water supply main (3) upside is equipped with air feed mechanism (12) that are used for changing gasbag and aerify stick (10) state.

2. The low-energy-consumption water supply device according to claim 1, wherein the water supply equipment body (1) comprises an installation base (101), a water supply tank (102) is fixed in the middle of the top surface of the installation base (101), a filter (103) and an intelligent liquid level protector (104) are respectively installed on two sides of the top surface of the water supply tank (102), a control cabinet (105) is installed on one side of the water supply tank (102), a water supply pipe (106) is arranged on the other side of the water supply tank (102), a water guide pipe (107) is connected with the bottom surface of the water supply tank (102) in a penetrating manner, a water supply pipe (108) is arranged on one side of the water supply pipe (106), a first water replenishing pump (109), a water lifting pump (1010), a second water replenishing pump (1011) and a backup pump (1012) are sequentially installed on one side of the water supply pipe (108) close to the water guide pipe (107) from the front side to the rear side of the installation base (101), a first water replenishing pump (109), the water lifting pump (1010), the second water replenishing pump (1011) and the backup pump (1012), the input end of the water supply pipe (106) is connected with the water filling pipe (1013), and the first water replenishing pump (109), the backup pump (1010) is connected with the output end of the backup pump (1012) through the water supply pipe (1013), the backup pump (1012).

3. The low-energy-consumption water supply device is characterized in that the first water replenishing pump (109), the water lifting pump (1010), the second water replenishing pump (1011) and the spare pump (1012) are erected and installed on the top surface of the installation base (101), and the middle part of the irrigation pipe (1013) is further connected with a maintenance section (1014) which is convenient for dredging and cleaning the equipment through a coupling joint.

4. The low-energy-consumption water supply device as claimed in claim 2, wherein the output end of the intelligent liquid level protector (104) is electrically connected with the receiver in the control cabinet (105), and the control ends of the first water pump (109), the water lifting pump (1010), the second water replenishing pump (1011) and the spare pump (1012) are electrically connected with the transmitter in the control cabinet (105).

5. The low-energy-consumption water supply device according to claim 1, wherein the gas supply mechanism (12) comprises a connecting pipe (121) penetrating and fixed on the bottom surface of the floor equipment room, the connecting pipe (121) abuts against the uppermost water supply main pipe (3), a gas injection branch pipe (122) penetrates and is fixed on the top side of the connecting pipe (121), electromagnetic valves are installed on the inner walls of the gas injection branch pipe (122), a gas injection main pipe (123) is connected on the upper side of the gas injection branch pipe (122) in a penetrating manner, a hollow column (124) is connected on the top side of the gas injection main pipe (123) in a penetrating manner, a gas tank (125) is arranged on the outer side of the hollow column (124), a support (126) is arranged on one side of the gas tank (125) away from the hollow column (124), electric telescopic rods (127) are fixed on the top side of the support (126) through screws, the output ends of the electric telescopic rods (127) extend into the adjacent gas tanks (125) and are fixed with piston heads (128) at the end portions, and gas guide pipes (129) are connected between the gas outlet end of the gas tank (125) and the outer wall of the hollow column (124).

6. A low energy consumption water supply apparatus according to claim 5, wherein said gas tank (125) is provided in plural number, the number of which is set according to the water supply height, and said gas tank (125) and said support (126) are fixed on the floor of the floor facility room.

7. A low energy consumption water supply device according to claim 5 or 6, wherein the piston head (128) abuts the inner wall of the air tank (125), and when the piston head (128) abuts the side of the air tank (125) facing away from the hollow column (124), the water pressure in the water supply manifold (3) causes the balloon pump (10) to deflate.

8. The low-energy-consumption water supply device according to claim 1 or 2, wherein two ends of the maintenance pipe (2) are fixed through couplers, a plurality of water supply main pipes (3) are arranged, adjacent water supply main pipes (3) are fixed through couplers, the length of each limiting pipe (4) is consistent with that of a single water supply main pipe (3), and a plurality of positioning columns (9) and positioning holes are arranged and distributed on the top surface and the bottom surface of each limiting pipe (4) respectively.

9. A low energy consumption water supply device according to claim 1, wherein the through holes (7) are provided in plurality and distributed uniformly on the outer side of the top surface of the positioning plate (5) in a ring shape, and the water through holes (8) are provided in plurality and distributed on the side wall of the limiting pipe (4) in a matrix shape.

10. A low energy consumption water supply device according to claim 8, characterized in that the number of said air bag inflatable rods (10) is 6 times of the number of the water supply main pipe (3), the air bag inflatable rods (10) are distributed in three vertical rows in the water supply main pipe (3), and the air bag inflatable rods (10) at the bottommost side are fixed on the inner wall of the limiting pipe (4).

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