KR100936988B1 - Nozzle assembly for controlling head of a fountain and apparatus for controlling head of a fountain provided with it - Google Patents

Abstract

PURPOSE: A nozzle assembly for adjusting a water level and a water level control device having the same are provided to control the height of water sprayed from a plurality of nozzles, and to make fountains by controlling each nozzle independently. CONSTITUTION: A nozzle assembly for adjusting a water level comprises a nozzle(3), a water pipe(5), and a three way valve(7). The nozzle sprays water. The water pipe supplies the water to the nozzle from a water source. The three way vale is mounted around the nozzle of the water pipe, and adjusts the amount of the water. The three way valve comprises a valve body(30), a discharge sheet(39), a drainage sheet(40), a valve disc(50), a valve stem(60), and a driving motor(70). The drainage sheet includes a drain hole(41) connected to a drain(33).

Description

Nozzle assembly for controlling head of a fountain and apparatus for controlling head of a fountain provided with it}

The present invention relates to a nozzle assembly for adjusting the fountain water level, and to a fountain water height control device having the same, and more specifically, to open and close each spray nozzle while supplying water used in the fountain to a plurality of spray nozzles using a single pump. The present invention relates to a nozzle assembly for adjusting the water level of a fountain so that the overall shape of the fountain can be varied by controlling the opening degree of the valve differently, and a fountain water height control device having the same.

In general, a fountain is a device that is pumped by a high pressure by pumping the water contained in the tank with a pump to supply to a plurality of nozzles installed in a proper arrangement in the tank, so that it is sprayed in the air in a constant form, so far in Fig. As shown, the plurality of nozzles 103 arranged under the water surface of the water tank 121 is collected and connected to the water supply pipe 106 through each water supply pipe 105, and the pump connected to the water supply pipe 106 The water contained in the water tank 121 by the pump 108 is pumped through the water inlet 181 as the water supply source 110 and simultaneously supplied to the plurality of nozzles 103, thereby providing the same height from the plurality of nozzles 103. Since the water of the head is sprayed, and the opening / closing valve 107 of the ball valves is installed in each of the water supply pipes 105, the valves 107 are manually adjusted before the water fountain operation to change the opening degree, thereby changing the nozzles every minute. Although the water level may be different, the amount of water pumped by the pump 108 and supplied to each nozzle 103 by controlling the output of the pump 108 through the inverter 109 connected to the pump 108 is collectively. It was meant to be adjusted.

Therefore, in the above-described conventional fountain 102, the height of the water sprayed from the nozzle 103 is always constant for each nozzle 103, and the inverter 109 can change the water height of the entire nozzle 103 at the same time. However, there is a problem in that the nozzles 103 cannot generate a relative difference in water level, and cannot change the water level quickly, and thus the shape of the fountain is monotonous and cannot be changed in various ways.

In addition, since the inverter 109 must be operated at all times in order to control the amount of water sprayed from the nozzle 103, that is, the water level of the fountain, there is also a problem in that maintenance costs such as electricity costs, installation and maintenance costs, and the like are not generated.

In addition, in the case of a commercialized fountain of another type different from the fountain 102, in the on / off control of the plurality of nozzles sequentially, the water is blown and the deformed image is produced by using the afterimage of the water being cut off. However, this also had a limitation in that the fraction shape could not be colorful since only one variation using the afterimage generated during off was added.

The present invention has been proposed to solve the problems of the conventional fountain as described above, while supplying water by a single pump to a plurality of nozzles, each of the nozzles to control the height of the water sprayed from the plurality of nozzles individually In addition, the purpose of the present invention is to control the height of the water discharged from the nozzles without any breakage of the water, thereby forming various water shapes in the form of continuous water rather than instantaneous shapes.

The present invention to achieve the above object, a nozzle for injecting water used in the fountain; A water supply pipe connected to an inlet of the nozzle to supply water used for a fountain from the water supply source to the nozzle; And a three-way valve mounted on an adjacent side of the nozzle of the water supply pipe and controlling an amount of water used for the fountain supplied to the nozzle, wherein the three-way valve has an inlet connected to a water supply source on one side and The outer body is provided with a discharge port for supplying a part of the water introduced through the water inlet to the nozzle, a drain hole is provided between the water inlet and the discharge port is discharged to the discharge port of the water introduced through the water inlet to discharge the remaining water to the outside Valve body forming a; A discharge sheet which divides the inside of the valve body at a side of the discharge port and passes through the discharge hole leading to the discharge port to form a flow path branch branching the water flowing from the inlet to the discharge port or the drain port; A drain sheet that closes the flow branch chamber at the drain port side to face the discharge sheet and has a drain hole through the drain hole; A valve disc configured to adjust an opening degree of the discharge hole and the drain hole while moving between the one end position close to the discharge sheet and the other end position close to the drain sheet; A valve stem extending along an axis at the center of the valve disc to movably support the valve disc along the axis within the flow path branch chamber; And a drive motor coupled to one end of the drain port opposite side of the valve stem to move the valve disc freely between the one end position and the other end position, wherein the valve stem is an end outer peripheral surface connected to the drive motor. The male screw portion is processed, the drive motor is coupled to the screw feed housing on the outer peripheral surface of the rotating shaft, the screw feed housing provides a nozzle assembly for adjusting the water height of the female screw portion is screwed on the inner peripheral surface is machined. do.

In addition, the present invention includes a plurality of nozzles for injecting water used in the fountain; A plurality of water supply pipes connected to an inlet of each nozzle to supply water used for a fountain from the water supply source to each nozzle; A plurality of three-way valves mounted on adjacent sides of the nozzles of the respective water supply pipes to adjust an amount of water used for the fountains supplied to the nozzles; A pump connected to each of the water supply pipes through a water supply pipe and configured to pump water taken from the water supply source to the respective water supply pipes; And a controller configured to determine the height of the water used for the fountain by controlling the opening degree of each of the three-way valves by an externally input command or a command according to a set program. The three-way valve includes a water supply source at one side. An inlet connected to the outlet, the outlet for supplying a part of water introduced through the inlet to the nozzle to the other side, and the remaining water supplied to the outlet through the inlet between the inlet and the outlet; A valve body constituting an outer body each having a drain hole for discharging; A discharge sheet which divides the inside of the valve body at a side of the discharge port and passes through the discharge hole leading to the discharge port to form a flow path branch branching the water flowing from the inlet to the discharge port or the drain port; A drain sheet that closes the flow branch chamber at the drain port side to face the discharge sheet and has a drain hole through the drain hole; A valve disc configured to adjust an opening degree of the discharge hole and the drain hole while moving between the one end position close to the discharge sheet and the other end position close to the drain sheet; A valve stem extending along an axis at the center of the valve disc to movably support the valve disc along the axis within the flow path branch chamber; And a driving motor coupled to one end of the drain port opposite side of the valve stem to rotate according to a driving command transmitted from the control unit to freely move the valve disc between the one end position and the other end position. The valve stem has a male threaded portion machined on an outer circumferential surface of the end connected to the drive motor, and the drive motor has a screw transfer housing coupled to an outer circumferential surface of the rotating shaft, and the screw transfer housing has a female thread coupled to the male screw portion on an inner circumferential surface thereof. Provided is a fountain water level control device having a nozzle assembly for adjusting the fountain water level being processed.

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According to the nozzle assembly for adjusting the fountain water height of the present invention and the fountain water height control device having the same, the water to be used for one pump water fountain is supplied to a plurality of nozzles arranged in a predetermined shape in the tank, A three-way valve is installed in the connected water supply pipe, and the amount of water pumped from the pump by the three-way valve can be changed from nozzle to nozzle, so that the shape of the water in the fountain can be varied in various ways. Will be.

In particular, by simply changing the current magnitude of the drive motor to open and close the three-way valve by the valve stem and the valve disk to change the rotational speed of the motor rotation shaft to realize the opening and closing speed of the valve, moreover the change in the water height of the fountain more quickly. As a result, the water level of the fountain can be adjusted in various ways, thereby further improving the effect of directing the fountain.

Hereinafter, a nozzle assembly for adjusting the fountain water level according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

The nozzle assembly of the present invention, as shown by the reference numeral 1 in Figs. 2 and 3, in the fountain (2) for spraying through the nozzle (3) using the water contained in the tank 21 as the water supply source As a device capable of adjusting the height of water sprayed from the nozzle (3), as shown in Figure 2, it consists of a nozzle (3), a water supply pipe (5), and a three-way valve (7).

Here, the nozzle 3 is a nozzle of a general type as shown in Fig. 2, the inlet 11 is coupled to the outlet side of the water supply pipe 5, the outlet 12 is provided so as to face the air. . In addition, the nozzles 3 are arranged in various arrangements at the bottom of the water tank 21 so as to be located below the water surface of the water supply source 10, as shown in FIG. Therefore, it is intended to spray at high pressure toward the air.

In addition, the water supply pipe 5 is a pipe that connects the water supply pipe 6 connected to the pump 8 to the nozzle 3, and is connected to the inlet 11 of the nozzle 3 to pump from the water supply source 10. The water to be supplied is supplied to the nozzle 3.

On the other hand, the three-way valve (7) is a means for adjusting the amount of water used in the fountain (2) supplied to the nozzle (3), it is mounted on the pipeline adjacent to the nozzle (3) of the water supply pipe (5) The water supplied from (6) is branched into the discharge port 32 leading to the nozzle 3 and the drain port 33 leading to the outside.

Here, the three-way valve 7 may be formed in various forms, but in this embodiment, as shown in particular in Figure 2, the valve body 30, the discharge seat 39, the drain seat 40, the valve disk 50, the valve stem 60, and the drive motor 70, the valve body 30 forms the outer body of the three-way valve (7), the inlet 31 at the lower end, the reverse A discharge port 32 is formed at the upper end of the phosphorus, and a drain port 33 is formed between the inlet port 31 and the discharge port 32, respectively. At this time, the inlet 31 is connected to the water supply source 10 through the water supply pipe 5 and the water supply pipe 6, the discharge port 32 is a portion of the water introduced through the inlet 31 to the nozzle (3) In order to supply, the drain 33 is supplied to the discharge port 32 of the water introduced through the water inlet 31 and discharges the remaining water to the outside.

In addition, the discharge seat 39 is a part for stably seating the valve disk 50 in one side end position in the valve body 30, as shown in Figure 2 discharge port to divide the inside of the valve body 30 Standing on the (32) side to form a flow path diverging chamber (35), through the flow path diverging chamber (35) is to branch the water flowing in the inlet 31 into the discharge port (32) or the drain (33), In the center, the discharge hole 37 leading to the discharge port 32 penetrates and seats the valve disc 50. On the other hand, the drain seat 40 is a portion for stably seating the valve disk 50 in the other end position in the valve body 30, as shown in Figure 2 flow passage chamber 35 in the drain port 33 side ), And the drain hole 41 leading to the drain hole 33 penetrates in the center to similarly seat the valve disc 50.

In addition, as shown in FIG. 2, the valve disc 50 has a substantially hexagonal cross-sectional longitudinal section in which a conical inclined surface is formed to fit the discharge hole 37 and the drain hole 41 on both the discharge side and the drain side. As a plug-type plate having a, it is possible to adjust the opening degree of the discharge hole 37 and the drain hole 41 while moving between one end position in close contact with the discharge sheet 39 and the other end position in close contact with the drain sheet 40 The amount of water supplied to the nozzle 3 is controlled.

In addition, the valve stem 60 extends along the axis at the center of the valve disc 50 to support the valve disc 50 in the flow path chamber 35 so as to be able to move forward and backward along the axis. The bar is slidably supported by a support ring 43 attached to the discharge-side inner circumferential wall surface of the valve body 30 for this purpose.

In addition, the drive motor 70 is a means for freely moving the valve disc 50 between one end position and the other end position, is coupled to one end of the drain port 33 opposite the valve stem 60, the control unit 9 The valve disk 50 is moved forward and backward by forward and reverse rotation according to the driving command transmitted from the bar. A screw feed housing 73 is coupled to the outer circumferential surface of the rotating shaft 71, and the inner circumferential surface of the screw feed housing 73 is provided. The female threaded portion 75 is machined and screwed with the male threaded portion 61 machined on the outer peripheral surface of the end of the valve stem 60, so that the valve stem 60, ie, the valve, is driven by its own rotational driving force through the screw transfer housing 73. The disk 50 can be advanced back and forth.

Meanwhile, as shown in FIG. 3, the fountain water level control controller 20 having the nozzle assembly 1 configured as described above includes a plurality of nozzles 3, a plurality of water supply pipes 5, and a plurality of three-way valves. (7), a pump (8) and a control unit (9), each nozzle (3), water supply pipe (5), and three-way valve (7) is the same as that applied to the nozzle assembly (1), Since it has already been described in detail in the description of the nozzle assembly 1, further description is omitted.

However, although the pump 8 and the control unit 9 are not described in detail in the nozzle assembly 1 as described above, the pump 8 is shown in FIG. 3, the water supply source accommodated in the water tank 21 ( As a means for pumping the water to be used for the fountain in 10), the water collected from the water supply source 10 is connected to each water supply pipe 5 through a water supply pipe 6 installed at the bottom of the water tank 21 of the fountain 2. Is pumped to each feed pipe (5).

In addition, the control unit 9 is a means for controlling each of the three-way valve 7 and the pump 8 connected through the control lines 97 and 98, as shown in FIG. By controlling the opening degree of each three-way valve 7 by forward and reverse rotation of the drive motor 70 of the three-way valve 7 at various speeds according to a command or an operation command input according to a program already set before operation. The height of water sprayed from the nozzle 3 is determined.

Now, the operation of the nozzle assembly for adjusting the fountain water height according to the preferred embodiment of the present invention configured as described above and the fountain water height control device having the same will be described.

First, according to the nozzle assembly 1 for adjusting the fountain water level of the present invention, the water flowing into the water supply pipe 5 from the water supply source 10 through the water supply pipe 6 is shown in FIG. As described above, the valve disc 50 is supplied to the nozzle 3 through the discharge hole 32 through the discharge hole 37 which is opened to the maximum when the valve disc 50 is seated on the drain sheet 40 at the other end position, and the nozzle 3. From high pressure.

On the contrary, in order to prevent the water from being sprayed from the nozzle 3 at all, as shown in FIG. 5, the valve disc 50 is moved from one end position to the other end position as described above and seated on the discharge sheet 39 to discharge. It is sufficient to close the ball 37 completely. At this time, the water introduced into the flow path branch 35 from the water supply pipe 5 passes through the drain hole 41 of the drain sheet 40 as shown by the arrow in Figure 5 is discharged to the outside through the drain port 33.

Meanwhile, in order to move the valve disc 50 from the open position of FIG. 4 to the closed position of FIG. 5 as described above, the driving motor 70 may be operated first. In FIG. ) Rotates in the direction of the arrow, and at the same time, the screw transfer housing 73 attached to the rotary shaft 71 also rotates so that the valve stem 60 screwed into the screw transfer housing 73 rotates backward. The opening degree of the discharge hole 41 is gradually increased at the same time as the opening degree of the discharge hole 37 is gradually decreased by the valve disc 50, and the valve disc 50 is moved to one end position as shown in FIG. By closing the discharge hole 37 completely, it becomes a valve closed state. On the contrary, when the drive motor 70 reversely rotates, the screw feed housing 73 reversely rotates in the direction of the arrow in the closed position shown in FIG. 5, thereby advancing the valve stem 60 and the valve disc 50 simultaneously. The opening degree of the discharge hole 37 gradually increases, and finally, as shown in FIG. 4, the discharge hole 37 is completely opened, and the drain hole 41 is returned to the valve-opened state in which it is completely closed.

On the other hand, according to the water level control apparatus 20 having the nozzle assembly for adjusting the water level, the control unit 9 is connected to the pump 8 by an external command input by an operator or an internal command input according to a predetermined program. The operation of the drive motor 70 of the nozzle assembly 1 is controlled. When a pumping start command is transmitted from the controller 9 to the pump 8, the pump 8 starts to operate and the water intake 81 is opened. Water is drawn from the water supply source 10 through the water supply pipe 6 to supply high pressure water to each of the water supply pipes 5 of the nozzle assembly 1. In this case, the controller 9 controls the opening degree of the three-way valve 7 of each nozzle assembly 1 differently, and the height of the water sprayed from each nozzle 3 has different values, thus As shown in FIG. 3, FIG. 6, and FIG. 7, various changes can be made in the shape of the fountain.

In particular, when controlling the operation of the drive motor 70 for opening and closing the three-way valve (7) in accordance with the magnitude of the current by changing the rotation speed of the rotation shaft 71 of the motor 70, the valve stem 60 and the valve disc (50) Bar can change the moving speed, it is possible to implement a change in the opening and closing speed of the three-way valve (7), that is, a change in the height of the water injected from the nozzle (3) more quickly.

1 is a schematic diagram illustrating the principle of operation of a conventional fraction.

Figure 2 is a schematic longitudinal cross-sectional view showing a nozzle assembly for adjusting the fountain water height according to the present invention.

Figure 3 is a schematic longitudinal cross-sectional view showing a fountain water level control device having a nozzle assembly for adjusting the fountain water level according to the present invention.

Figure 4 is a schematic longitudinal cross-sectional view showing the three-way valve of the nozzle assembly shown in Figure 2 in a fully open state.

5 is a schematic longitudinal cross-sectional view of the three-way valve of the nozzle assembly shown in FIG. 2 in a fully closed state;

6 and 7 are perspective views showing one of the various forms of the fountain produced by the fountain water level control device having a nozzle assembly for adjusting the fountain water level according to the present invention.

<Description of Symbols for Major Parts of Drawings>

1: nozzle assembly 2: fountain

3: nozzle 5: water pipe

6: water supply pipe 7: three-way valve

8 pump 9 control unit

10: water supply source 20: fountain water level control device

30: valve body 39: discharge sheet

40: drain sheet 50: valve disc

60: valve stem 70: drive motor

Claims (4)

delete A nozzle 3 for spraying water used for the fountain 2; A water supply pipe 5 connected to an inlet 11 of the nozzle 3 to supply water used in the fountain from the water supply source 10 to the nozzle 3; And A three-way valve (7) mounted on an adjacent side of the nozzle (3) of the water supply pipe (5) to adjust the amount of water used for the fountain supplied to the nozzle (3); The three-way valve (7), Inlet 31 connected to the water supply source 10 on one side, the discharge port 32 for supplying a portion of the water introduced through the inlet 31 to the nozzle 3 on the other side, the inlet 31 and the A valve body 30 which forms an outer body in which water outlets 33 which are supplied to the discharge hole 32 and discharge the remaining water to the outside among water introduced through the water inlet 31 are discharged between the discharge holes 32; The inside of the valve body 30 is divided at the discharge port 32 side so as to form a flow path diverging chamber 35 for branching the water flowing from the water inlet 31 to the discharge port 32 or the drain port 33. A discharge sheet 39 through which discharge holes 37 leading to the discharge holes 32 pass; A drain sheet 40 closing the flow path branch chamber 35 at the drain port 33 side to face the discharge sheet 39 and having a drain hole 41 connected to the drain port 33 therethrough; The valve disk is adapted to adjust the opening degree of the discharge hole 37 and the drain hole 41 while moving between one end position in close contact with the discharge sheet 39 and the other end position in close contact with the drain sheet 40. 50; A valve stem 60 extending along an axis at the center of the valve disc 50 to support the valve disc 50 so as to be movable along the axis within the flow path branch 35; And A driving motor 70 coupled to one end of the valve stem 60 opposite the drain port 33 to move the valve disc 50 freely between the one end position and the other end position; The valve stem 60 has a male screw portion 61 machined on an outer circumferential surface of the end portion connected to the drive motor 70, and the drive motor 70 has a screw feed housing 73 on the outer circumferential surface of the rotation shaft 71. Is coupled, the screw transfer housing (73) is a nozzle assembly for adjusting the water level, characterized in that the female screw portion (75) which is screwed to the male screw portion 61 on the inner peripheral surface is processed. delete A plurality of nozzles 3 for spraying water used for the fountain; A plurality of water supply pipes 5 connected to the inlet 11 of each nozzle 3 to supply water used for the fountain from the water supply source 10 to the respective nozzles 3; A plurality of three-way valves (7) mounted on adjacent sides of the nozzles (3) of each of the water supply pipes (5) to adjust the amount of water used for the fountains supplied to the respective nozzles (3); A pump (8) connected to each of the water supply pipes (5) through a water supply pipe (6) to pump water taken out of the water supply source (10) to the respective water supply pipes (5); And And a control unit 9 for controlling the opening degree of each of the three-way valves 7 by an externally input command or a command according to a set program to determine the height of the water used for the fountain. The three-way valve (7), Inlet 31 connected to the water supply source 10 on one side, the discharge port 32 for supplying a portion of the water introduced through the inlet 31 to the nozzle 3 on the other side, the inlet 31 and the A valve body 30 which forms an outer body in which water outlets 33 which are supplied to the discharge hole 32 and discharge the remaining water to the outside among water introduced through the water inlet 31 are discharged between the discharge holes 32; The inside of the valve body 30 is divided at the discharge port 32 side so as to form a flow path diverging chamber 35 for branching the water flowing from the water inlet 31 to the discharge port 32 or the drain port 33. A discharge sheet 39 through which discharge holes 37 leading to the discharge holes 32 pass; A drain sheet 40 closing the flow path branch chamber 35 at the drain port 33 side to face the discharge sheet 39 and having a drain hole 41 connected to the drain port 33 therethrough; The valve disk is adapted to adjust the opening degree of the discharge hole 37 and the drain hole 41 while moving between one end position in close contact with the discharge sheet 39 and the other end position in close contact with the drain sheet 40. 50; A valve stem 60 extending along an axis at the center of the valve disc 50 to support the valve disc 50 so as to be movable along the axis within the flow path branch 35; And The valve disc 50 is rotated between the one end position and the other end position by being coupled to one end of the drain port 33 opposite side of the valve stem 60 and rotating according to a driving command transmitted from the control unit 9. Drive motor 70 to move freely; consists of, The valve stem 60 has a male screw portion 61 machined on an outer circumferential surface of the end portion connected to the drive motor 70, and the drive motor 70 has a screw feed housing 73 on the outer circumferential surface of the rotation shaft 71. It is coupled, the screw transfer housing 73 is a fountain water height control having a nozzle assembly for adjusting the fountain water height, characterized in that the female screw portion 75 is screwed to the male screw portion 61 on the inner peripheral surface. Device.

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