KR970005257B1 - Automatic water pumping opening/closing device - Google Patents

Abstract

The unmanned pumping-up distribution switching device of underground water connects a discharge pipe(12) of a water supply pump(10) to a water inlet hole(21) of a water feeding divider(20) via a connecting pipe(21a), thus to be connected to a water inlet chamber(22). The water inlet chamber(22) has a plurality of water through holes(25) which are separated by a predetermined interval in a round shape and each connected to a delivery pipe(25). At the position opposite to the water through holes(25), there are provided switching holes(28) which are formed on a rotary switching plate(27), each of which is opened/closed by means of a valve(29). The rotary switching plate(27) is installed by means of a rotary shaft(32), and the internal side of the rotary shaft(32) which is positioned on the water inlet chamber(22) is elastically supported by a spring(30) to thereby be closely contacted with a fixed plate(23). The external side of the rotary shaft(32) is coupled with a rotary circular plate(37) having an angle division protrusion(38), which forms a sensor(39) for sensing a rotary angle on the one side thereof.

Description

Unmanned Yaw Distribution Switchgear of Groundwater

1 is a perspective view of a water distributor according to the present invention.

2 is a longitudinal cross-sectional view of the feedwater distributor of the present invention.

3 is a side cross-sectional view of the water distributor according to the present invention.

4 is another longitudinal cross-sectional view of the feedwater distributor of the present invention.

Figure 5 (a) (b) is a front and side cross-sectional view of the angle sensor unit of the present invention.

6 is an exemplary state of use of the distribution water supply according to the present invention.

7 is a circuit diagram of a controller of the present invention.

8 is a block diagram of controlling the control device of the present invention with a microcomputer.

9 is a block diagram showing the control configuration of FIG.

* Explanation of symbols for main parts of the drawings

10: pump pump 11: suction pipe

12: discharge tube 20: water distributor

21: inlet 22: inlet chamber

23: fixing plate 24: center hole

25: water pipe 26: discharge pipe

27: rotary opening and closing plate 27a: center hole

28: opening and closing hole 29: opening and closing valve

30: worm wheel 31: worm gear

32: rotating shaft 35: spring

36: nut 37: rotating disc

38: angle division 39: position sensor

40,40 ': Reducer 41: Step motor

42: motor brake 43: mounting plate

44: filter network 46: sump

47: see-through window 50: control circuit

The present invention relates to an unmanned sewage distribution opening and closing device that is capable of automatically distributing water from a water intake (ground water, well, etc.) to a predetermined number of places, and more specifically, installing a plurality of discharge pipes and supplying a water distribution distributor. Selectively open and close a plurality of delivery pipes by installing a rotary switchboard with a plurality of valves installed therein, then selectively opening and closing the valves of the rotary switchboard and rotating the rotary switchboard at a predetermined angle. By allowing to adjust the water supply time to a predetermined number of places to be able to supply completely automatic.

In general, when watering multiple fields with a single pumping pump, not only the size per unit area of the field is different, but also the water supply varies depending on the characteristics of the field, so different water supply control is required.

Conventionally, many water pumps have been installed and used in order to supply a predetermined amount of water in several places, and a single water pump has a hassle to frequently change the direction of the connection hose of the discharge pipe according to the place of water supply. Even if it was configured to diverge into a plurality of outlet pipes, it was not possible to selectively supply a plurality of branched outlet pipes, and it was difficult to adjust the water supply amount and the water supply time.

The present invention relates to a groundwater unmanned sewage distribution switchgear for solving these problems described in detail by the accompanying drawings as follows.

The suction pipe 11 of the pump pump 10 sucks the water of the intake (ground water, well 13) and discharges it to the discharge pipe 12. The discharge pipe 12 is an inlet port 21 of the feedwater distributor 20. ) And the connection pipe 21a are connected to the inlet chamber 22 inside the water supply distributor 20, and a plurality of water holes 25 are provided at fixed intervals 23 located in the outlet direction of the inlet chamber 22. Arranged to annularly connected to each of the plurality of outlet pipes (26). The opening and closing hole 28 facing each other is formed in the rotary opening and closing plate 27 to screw the opening and closing valve 29, and the center hole 27a of the rotary opening and closing plate 27 and the center hole of the fixing plate 23 are formed. The rotary shaft 32 is inserted into the rotary shaft 32 in the position in contact with the water passage 25, and the inner side of the rotary shaft 32 positioned in the inflow chamber 22 is held by a spring 35 to open and close the rotary opening and closing plate 27. The plate 27 is brought into close contact with the fixed plate 23, the outer side is coupled to the rotary disk 37 having an angle division piece 38 to detect the rotation angle by the position sensor 39 on one side, the rotary opening and closing plate The outer circumferential edge of (27) rotates the worm wheel (30), and builds the primary and secondary gear units (40, 40 ') on the shaft (31a) of the worm gear (31) to step motor (41) and motor brake (42). Respectively, and the pump pump 10 and the step motor 34 are operated by the configuration circuit of the control circuit unit 50 as shown in FIG. 7 to adjust the water supply amount and the water supply time.

That is, the control circuit unit 50 sets the operation time of the pump pump 10 and the rotation angle and delay time of the step motor 34 by the detection sensor 39 and the motor brake 42 to set each feed pipe ( 26) It is possible to automatically control the water supply amount and water supply time.

In addition, the attachment plate 43 is coupled to the inlet port 21 of the water supply distributor 20 with bolts 45, and the filter network 44 is installed in the inlet chamber 22 inside the attachment plate 43 to provide the inlet port 21. The foreign matter of the water flowing in from the filter, and the transparent water collecting can 46 is installed in the lower portion to collect the foreign matter, the side of the water distributor 20 is coupled to the sight glass 47 by the bolt 48 Check the inside of inflow chamber or use when screwing on / off valve.

On the other hand, as another method for rotating the above-mentioned rotary opening and closing plate 27, the first and second reduction gear 40, 40 'and step motor on the rotary shaft 32 of the rotary opening and closing plate 27 as shown in FIG. The 41 and the motor brake 42 are connected in turn so that they can be rotated by direct power transmission.

8 and 9 enable the control device of the present invention to be controlled by the microcomputer 60. The water supply time of each of the delivery pipes 26 is inputted from the key input unit 61, and the display unit 62 receives the water supply time. The data input from the microcomputer 60 is calculated, and the microcomputer 60 controls the driving of the step motor M and the pump 10 with the information detected by the position sensor 39.

In the figure, reference numeral 26a is a connector, 33 is a bearing, 34 is an oil seal, 36 is a nut, 45 is a bolt, and F is a field.

In the present invention, as illustrated in FIG. 6, the suction pipe 11 of the conventional pumping pump 10 is used to supply water such as a water intake (ground water, wells 13) to several fields F. ) Is connected to the well 13 of the intake reservoir, and then the discharge pipe 12 of the pump pump 10 is connected to the inlet 21 of the water distributor 20 of the present invention and the fixing plate 23 of the water distributor 20. A plurality of outlet pipes 26 installed in the connection pipes 26a are connected to each other to allow water to each field F, and the plurality of opening and closing holes 28 formed in the rotary opening and closing plate 27 are open / close valves ( 29, the water supply pump 10 and the step motor 41 are operated by setting the water supply amount and the water supply time according to the size and quantity of the field F in the control circuit part 50 in the state of adjusting the opening and closing state by the selective coupling. do.

That is, the water flowing into the inlet chamber 22 from the inlet 21 of the water distributor 20 configured as shown in FIGS. 1 to 3 does not have the on-off valve 29 coupled to the rotary switch 27. Water is supplied to the field F to be watered sufficiently through the opening and closing hole 28 and the discharge pipe 25 communicated with the opening and closing hole 28, and when the water supply is completed, the step motor 41 is operated by the control circuit unit 50. By rotating the worm wheel 30 of the rotary opening and closing plate 27 engaged with the worm gear 31 at a predetermined angle, water can be supplied to a field connected to another discharge pipe 26 where water is to be supplied.

At this time, foreign substances such as sand mixed in the water flowing into the inlet chamber 22 of the feed water distributor 20 from the pumping pump 10 are filtered out of the filter net 44 and dropped into the lower sump 46 so that water can be smoothly supplied. And if a lot of foreign matter accumulated in the sump (46) it is easily collected.

In addition, the rotation angle of the rotation opening and closing plate 27 detects the angle division piece 38 of the rotation disc 37 coupled to the rotation shaft 32 as shown in FIG. According to the set angle of 50, the motor brake 42 brakes the motor 41 and delays the motor 41 for a predetermined time. The rotation speed of the motor 41 is reduced by about 10: 1 in the primary reducer 40. Next, the second reduction gear 40 'is decelerated by about 300: 1 to smoothly rotate a predetermined angle of the worm gear 31 by the motor 41.

As such, the water flowing into the inflow chamber 22 of the distribution water supply machine 20 from the pumping pump 10 selectively opens the opening / closing hole 28 of the rotary opening / closing plate 27 (opening the opening / closing hole according to the engagement state of the valve). Water is supplied to the delivery pipe 26 and the rotary opening and closing plate 27 is rotated at a predetermined angle by the detection sensor 39 and sequentially supplies an appropriate amount of water to a plurality of fields in a delayed operation. Since it has a more effective pumping function, according to the control circuit unit 50 is set to be fully automated distribution water supply is to be able to scientific farming.

On the other hand, as another rotation method of the rotary opening and closing plate 27, as shown in FIG. 4, the reduction gear 40, 40 ', the step motor 41, the motor brake ( By installing 42) it is possible to rotate the rotary opening and closing plate 27.

In addition, as shown in FIGS. 8 and 9, the control device configuration using the microcomputer 60 can increase the water supply efficiency.

As described above, the present invention can supply water sequentially to multiple places using a single pumping pump, and by supplying it by selectively adjusting the water supply amount and water supply time according to the characteristics of each place, it has a fully automatic water supply function and provides a waste of water. There is a characteristic that can be prevented and the night water supply effectively.

Claims (4)

The discharge pipe 12 of the pump pump 10 is connected to the inlet chamber 22 via the inlet 21 of the feedwater distributor 20 through the connection pipe 21a, and the fixed plate in the inlet chamber 22 direction 23, a plurality of through-holes 25 annularly arranged at predetermined intervals are formed and connected to the delivery pipes 26, respectively, and the opening-closing holes 28 arranged to face each other with the above-mentioned through-holes 25 are rotated. It is formed in each of the closing pipe 27 and opened and closed by the on-off valve 29, the rotary opening and closing plate 27 is arranged in the rotating shaft 32, the inner side of the rotating shaft 32 located in the inlet chamber 22 to the spring 30 The outer surface is coupled to the fixing plate 23, the outer side is coupled to the rotary disk 37 having an angle division piece 38 to detect the rotation angle by the sensor 39 on one side, the rotary opening and closing plate 27 The outer circumferential edge of the worm wheel 30 is engaged with the worm gear 31, and the first and second reduction gears 40 and 40 ′ are built into the shaft rod 31a of the worm machine 31 and the step motor 41 is formed. And open the motor brake 42 The unmanned water distribution switchgear for controlling the water supply amount and the water supply time of each delivery pipe (26) by operating the above pump and the step motor by the configuration circuit of the control circuit unit (50). The rotary switchgear of claim 1, wherein the first and second speed reducers 40 and 40 ', the step motor 41 and the motor brake 42 are sequentially connected to the rotary shaft 32 of the rotary switch 27. Unscrewed water distribution switchgear of groundwater which can be rotated. According to claim 1 and 2, wherein the filter net 44 is installed in the inlet chamber 22 inside the attachment plate 43 coupled to one side of the water supply distributor 20, a transparent water collecting container 46 is installed at the bottom thereof. Unscrewed water distribution switchgear of groundwater. The step motor 41 according to claim 1, wherein the water supply amount and the water supply time of each delivery pipe 26 are inputted from the key input unit 61 and displayed on the display unit 62, and the data inputted from the microcomputer 60 is calculated. And unmanned pumping distribution opening and closing device for controlling the driving of the pump pump (10).