CN207073160U - It is a kind of with remote monitoring function without negative pressure pipe network pressurizing current stabilization water work - Google Patents

Abstract

The utility model discloses it is a kind of with remote monitoring function without negative pressure pipe network pressurizing current stabilization water work, including steady-flow tank, the upper end of steady-flow tank is connected with generating mechanism, generating mechanism includes a cylindrical shell, rotating shaft is provided with the middle part of shell, one end of rotating shaft and the side wall of shell are rotatablely connected, and the other end of rotating shaft through shell side wall and with the driving axis connection of generator, polylith blade is evenly equipped with the side wall of rotating shaft, it is connected on the upside of shell with running water pipe, the downside of shell is connected with water inlet pipe, and the water side of water inlet pipe is connected on steady-flow tank；The upper end of steady-flow tank is also associated with negative pressure inhibition device and battery, battery and generating mechatronics；The lower end of steady-flow tank is connected with outlet pipe and standby pipe, and booster pump I is connected with outlet pipe, booster pump II is connected with standby pipe.The utility model is produced electricity using the kinetic energy of running water so that after commercial power interruption, secondary water-supply is normally carried out in the still short time.

Description

It is a kind of with remote monitoring function without negative pressure pipe network pressurizing current stabilization water work

Technical field

It the utility model is related to supply equipment technology, more particularly to a kind of increasing without negative pressure pipe network with remote monitoring function Press current stabilization water work.

Background technology

Traditional way of supplying water be unable to do without storage cistern, and the running water in the water storage apparatus such as pond is supplied by municipal administration, originally Water becomes zero pressure again after entering in the water storage apparatus such as pond, and this has resulted in the substantial amounts of energy and wasted；It is existing steady Although being provided with standby booster pump in stream water work, after power failure, the booster pump and stand-by pump of normal use all will Decommission, and the pressure of running water can only maintain the just conventional water of the relatively low user of floor, the secondary confession for high-level user Water will occur power-off related the problem of cutting off the water supply, the strong influence normal life of high-level user.

Therefore, it is proposed that a kind of solve without negative pressure pipe network pressurizing current stabilization water work with remote monitoring function State problem.

Utility model content

The purpose of this utility model is to solve shortcoming present in prior art, and the one kind proposed has long-range prison Control function without negative pressure pipe network pressurizing current stabilization water work.

To achieve these goals, the utility model employs following technical scheme：

It is a kind of with remote monitoring function without negative pressure pipe network pressurizing current stabilization water work, including steady-flow tank, the current stabilization The upper end of tank is connected with generating mechanism, and the generating mechanism includes a cylindrical shell, is provided with the middle part of the shell The side wall of rotating shaft, one end of the rotating shaft and shell is rotatablely connected, and the other end of rotating shaft through shell side wall and with generating The driving axis connection of machine, polylith blade is evenly equipped with the side wall of the rotating shaft, is connected on the upside of the shell with running water pipe, it is described The downside of shell is connected with water inlet pipe, and the water side of the water inlet pipe is connected on steady-flow tank；The upper end of the steady-flow tank also connects It is connected to negative pressure inhibition device and battery, the battery and generating mechatronics；The lower end of the steady-flow tank is connected with outlet pipe With standby pipe, booster pump I is connected with the outlet pipe, the booster pump I is connected by controlling switch with external power source, described Booster pump II is connected with standby pipe, the booster pump I and booster pump II are electrically connected with by controller and battery, described Controller communicates to connect with long-distance control cabinet.

Preferably, the bottom in the steady-flow tank is provided with liquid level sensor, the signal output part of the liquid level sensor with The first signal input part electrical connection of controller.

Preferably, the outlet pipe and standby pipe are both connected on same root water supply line, and standby pipe is connected to water supply The end of pipeline, direction of the water supply line along flowing water are connected with distance-transmission pressure gauge I, check valve and distance-transmission pressure gauge in turn II, the signal output part of the distance-transmission pressure gauge I and distance-transmission pressure gauge II respectively with the second of controller and the 3rd signal input End electrical connection.

Preferably, ammeter, the signal output of the ammeter are connected with the wire that the booster pump I electrically connects with city End electrically connects with the 4th signal input part of controller.

Preferably, tangential direction of the running water pipe along shell is set.

Preferably, the long-distance control cabinet, which is provided with, is respectively used to indicate booster pump I and the letter of the working condition of booster pump II Number indicator lamp I and signal lamp II, it is additionally provided with for showing distance-transmission pressure gauge I and distance-transmission pressure gauge on the long-distance control cabinet The display screen of II pressure data.

Compared with prior art, the beneficial effects of the utility model are：By connecting generating mechanism on water supply pipe, The kinetic energy having in itself using running water drives generator operation electricity production, and by the electrical power storage of conversion in battery；Pass through Standby pipe is connected on steady-flow tank, booster pump II is set on standby pipe, and booster pump II is connected by controller and battery Connect, being normally carried out for secondary water-supply can be ensured after commercial power interruption；Liquid level sensor is set by the bottom in steady-flow tank, After can effectively avoiding the water in steady-flow tank from exhausting, the idle running of booster pump II is burnt；The utility model effectively realizes energy Conversion, solving the problems, such as to have a power failure in short-term related there is secondary water-supply interruption；In addition, the utility model is simple in construction, intelligence Change degree is high, and for feedwater, administrative staff bring great convenience.

Brief description of the drawings

Fig. 1 be the utility model proposes it is a kind of with remote monitoring function without negative pressure pipe network pressurizing current stabilization water work Structural representation；

Fig. 2 be the utility model proposes it is a kind of with remote monitoring function without negative pressure pipe network pressurizing current stabilization water work The attachment structure schematic diagram of middle shell and running water pipe and water inlet pipe.

In figure：1 steady-flow tank, 2 generating mechanisms, 3 shells, 4 rotating shafts, 5 generators, 6 blades, 7 running water pipes, 8 water inlet pipes, 9 Negative pressure inhibition device, 10 batteries, 11 outlet pipes, 12 standby pipes, 13 booster pumps I, 14 controlling switches, the control of 15 booster pumps II, 16 Device, 17 long-distance control cabinets, 18 liquid level sensors, 19 water supply lines, 20 distance-transmission pressure gauges I, 21 check valves, 22 distance-transmission pressure gauges IIth, 23 ammeters, 24 signal lamps I, 25 signal lamps II, 26 display screens.

Embodiment

Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the embodiment of the utility model is carried out Clearly and completely describing, it is clear that described embodiment is only the utility model part of the embodiment, rather than whole Embodiment.Based on the embodiment in the utility model, those of ordinary skill in the art are not under the premise of creative work is made The every other embodiment obtained, belong to the scope of the utility model protection.

Reference picture 1-2, it is a kind of with remote monitoring function without negative pressure pipe network pressurizing current stabilization water work, including steady-flow tank 1, the upper end of steady-flow tank 1 is connected with generating mechanism 2, and generating mechanism 2 includes a cylindrical shell 3, and the middle part of shell 3 is provided with Provided with rotating shaft 4, one end of rotating shaft 4 is rotatablely connected with the side wall of shell 3, and the other end of rotating shaft 4 through shell 3 side wall and with The driving axis connection of generator 5, polylith blade 6 is evenly equipped with the side wall of rotating shaft 4, and the upside of shell 3 is connected with running water pipe 7；Value Obtain one to be mentioned that, tangential direction of the running water pipe 7 along shell 3 is set, and is subjected to the maximum kinetic energy of running water output, shell 3 Downside is connected with water inlet pipe 8, and the water side of water inlet pipe 8 is connected on steady-flow tank 1.

The upper end of steady-flow tank 1 is also associated with negative pressure inhibition device 9 and battery 10, and negative pressure inhibition device 9 and battery 10 are electrical Connection, battery 10 electrically connect with generator 5；The lower end of steady-flow tank 1 is connected with outlet pipe 11 and standby pipe 12, outlet pipe 11 On be connected with booster pump I 13, booster pump I 13 is connected by controlling switch 14 with external power source, and supercharging is connected with standby pipe 12 Pump II 15, booster pump I 13 and booster pump II 15 are electrically connected with by controller 16 and battery 10, controller 16 with it is long-range Switch board 17 communicates to connect.

Wherein, outlet pipe 11 and standby pipe 12 are both connected on same root water supply line 19, and standby pipe 12 is connected to confession The end of waterpipe 19, direction of the water supply line 19 along flowing water are connected with distance-transmission pressure gauge I 20, check valve 21 and teletransmission pressure in turn The signal output part of power table II 22, distance-transmission pressure gauge I 20 and distance-transmission pressure gauge II 22 is respectively with the second of controller 16 and the 3rd Signal input part electrically connects.

As a kind of optimal embodiment, the bottom in the utility model in steady-flow tank 1 is provided with liquid level sensor 18, liquid The signal output part of level sensor 18 electrically connects with the first signal input part of controller 16；And as an improvement, long-range control Cabinet 17 processed is provided with the signal lamp I 24 and signal for being respectively used to indicate booster pump I 13 and the working condition of booster pump II 15 and referred to Show lamp II 25, be additionally provided with long-distance control cabinet 17 for showing distance-transmission pressure gauge I 20 and the pressure data of distance-transmission pressure gauge II 22 Display screen 26；When ammeter 23 detects no current on the wire being connected with booster pump I 13, administrative staff are believed by observing Number indicator lamp I 24 is that can be known booster pump I 13 stopped supercharging work, helps staff to judge and fix a breakdown.

Operation principle：The kinetic energy having in itself using running water drives generator 5 to work, and the electrical power storage of conversion is existed In battery 10, when ammeter 23 detects that commercial power supply interrupts, controller 16 controls booster pump II 15 to work, and by electric power storage Pond 10 powers for it, to ensure being normally carried out for secondary water-supply；Liquid level sensor 18 is set by the bottom in steady-flow tank 1, When the water in steady-flow tank 1 will exhaust, controller 16 controls booster pump II 15 out of service, avoids its idle running from burning；Pass through The distance-transmission pressure gauge I 20 and distance-transmission pressure gauge II 22 of setting, it is whether enough available for the hydraulic pressure in detection water supply line 19, and can The hydraulic pressure of secondary water-supply is adjusted by the rotating speed of remote control booster pump I 13 and booster pump II 15.In the utility model, control For device using AT89S51 single-chip microcomputers as main control chip, the programmable Serial Interface carried using it can carry out feature programming, to meet Above-mentioned demand for control.

It is described above, the only preferable embodiment of the utility model, but the scope of protection of the utility model is not This is confined to, any one skilled in the art is in the technical scope that the utility model discloses, according to this practicality New technical scheme and its utility model design are subject to equivalent substitution or change, should all cover in protection model of the present utility model Within enclosing.

Claims (6)

1. A kind of 1. existing without negative pressure pipe network pressurizing current stabilization water work, including steady-flow tank (1), its feature with remote monitoring function In the upper end of the steady-flow tank (1) is connected with generating mechanism (2), and the generating mechanism (2) includes a cylindrical shell (3) rotating shaft (4), is provided with the middle part of the shell (3), one end of the rotating shaft (4) is rotatablely connected with the side wall of shell (3), And the other end of rotating shaft (4) through shell (3) side wall and with the driving axis connection of generator (5), the side wall of the rotating shaft (4) On be evenly equipped with polylith blade (6), be connected on the upside of the shell (3) with running water pipe (7), the downside of the shell (3) and water inlet (8) connection is managed, the water side of the water inlet pipe (8) is connected on steady-flow tank (1)；The upper end of the steady-flow tank (1) is also associated with Negative pressure inhibition device (9) and battery (10), the battery (10) electrically connect with generator (5)；The lower end of the steady-flow tank (1) Outlet pipe (11) and standby pipe (12) are connected with, booster pump I (13), the booster pump I are connected with the outlet pipe (11) (13) it is connected by controlling switch (14) with external power source, booster pump II (15), the increasing is connected with the standby pipe (12) Press pump I (13) and booster pump II (15) are electrically connected with by controller (16) and battery (10), the controller (16) Communicated to connect with long-distance control cabinet (17).
2. 2. it is according to claim 1 it is a kind of with remote monitoring function without negative pressure pipe network pressurizing current stabilization water work, its It is characterised by, the bottom in the steady-flow tank (1) is provided with liquid level sensor (18), the signal output of the liquid level sensor (18) End electrically connects with the first signal input part of controller (16).
3. 3. it is according to claim 1 it is a kind of with remote monitoring function without negative pressure pipe network pressurizing current stabilization water work, its It is characterised by, the outlet pipe (11) and standby pipe (12) are both connected on same root water supply line (19), and standby pipe (12) The end of water supply line (19) is connected to, direction of the water supply line (19) along flowing water is connected with distance-transmission pressure gauge I in turn (20) signal of, check valve (21) and distance-transmission pressure gauge II (22), the distance-transmission pressure gauge I (20) and distance-transmission pressure gauge II (22) Output end respectively with the second of controller (16) and the 3rd signal input part electrically connect.
4. 4. it is according to claim 1 it is a kind of with remote monitoring function without negative pressure pipe network pressurizing current stabilization water work, its It is characterised by, ammeter (23), the letter of the ammeter (23) is connected with the wire that the booster pump I (13) electrically connects with city Number output end electrically connects with the 4th signal input part of controller (16).
5. 5. it is according to claim 1 it is a kind of with remote monitoring function without negative pressure pipe network pressurizing current stabilization water work, its It is characterised by, tangential direction of the running water pipe (7) along shell (3) is set.
6. 6. it is according to claim 1 it is a kind of with remote monitoring function without negative pressure pipe network pressurizing current stabilization water work, its It is characterised by, the long-distance control cabinet (17), which is provided with, to be respectively used to indicate booster pump I (13) and booster pump II (15) work shape The signal lamp I (24) and signal lamp II (25) of state, it is additionally provided with the long-distance control cabinet (17) for showing teletransmission The display screen (26) of pressure gauge I (20) and distance-transmission pressure gauge II (22) pressure data.