KR100836735B1 - Fountain with bypass - Google Patents

Abstract

A fountain having a bypass pipe is provided to secure the low cost and the low defective ratio by excluding a pump equipped with an inverter controlling the rotational speed of an impeller. In a fountain for jetting the water by a nozzle(10) connected to a pump, a bypass pipe(30) is installed at one side of the nozzle. A solenoid valve(35a) is installed at the bypass pipe. The height of the water jetted from the nozzle is adjusted by regulating the flow of water flowing into the bypass pipe by the operation of the valve. The solenoid valve is operated according to an input signal in order to control the height of the water jetted from the nozzle. The nozzle penetrates through one side of the body. The pump is formed in the body. The pump pumps up the water through an inlet port submerged under the water and supplies the water to the nozzle.

Description

Fountain with bypass

Figure 1a is a perspective view showing a fraction of the prior art.

1B is a cross-sectional view taken along the line A-A of FIG. 1A.

Figure 2 is a perspective view of a fountain formed with a bypass pipe according to the present invention.

3 is a cross-sectional view taken along the line B-B in FIG.

4 is a perspective view of another embodiment of a fountain formed with a bypass pipe according to the present invention;

<Explanation of symbols for main parts of the drawings>

10: nozzle 20: pump

21: inlet 30: bypass

35a, 35b: valve 40: main body

41: base 42: perforated network

The present invention relates to a fountain in which the bypass pipe is formed, and more particularly, to a fountain in which the bypass pipe is formed to adjust the height of water sprayed from the nozzle according to the opening and closing degree of the valve formed in the bypass pipe.

Recently, a number of fountains have been installed and each fountain is operated individually according to the voice signal to create a scene that looks as if it is dancing. Various attempts have been made to freely control this.

The most commonly used method for adjusting the height of water sprayed through the nozzle is to form a ball valve 3 on one side of the nozzle 1 to change the cross-sectional area within the nozzle 1 as shown in FIG. The resistance of water is changed by changing the angle of the oil pipe in the nozzle 1.

However, according to the related art, as shown in FIG. 1B, the cross-sectional area in the nozzle 1 is changed irregularly according to the operation of the ball valve 3, and the angle of the oil pipe in the nozzle 1 is severely bent so that the nozzle 1 exits. Since the velocity distribution of the water sprayed at is not regular along the circumferential direction, the water stream of the fountain sprayed through the nozzle 1 cannot be scattered or tilted in any direction before reaching the desired height, thereby producing a beautiful water stream shape. This occurred.

Thus, by adjusting the rotational speed of the impeller using a pump equipped with an inverter, a fountain was introduced to control the height of water sprayed through the nozzle by changing the momentum imposed on the water introduced through the inlet of the pump.

However, pumps with inverters are quite expensive, which imposes significant constraints on costs, often overloads of pumps, increases the number of breakdowns, and requires the pump to be completely waterproof. The problem occurred.

In view of the above, the present invention provides a fountain in which a bypass pipe is formed in which the water flow is not dispersed and the beauty of the fountain is maximized by adjusting the height of water sprayed from the nozzle according to the opening and closing degree of the valve formed in the bypass pipe. There is this.

In addition, since there is no need to use a pump equipped with an inverter for controlling the rotational speed of the impeller, there is another purpose to enable low cost, low failure rate, and freely applicable to various fountains.

In order to achieve the above object, the fountain formed with the bypass pipe of the present invention is a fountain for spraying water by a nozzle connected to a pump, wherein a bypass pipe is formed at one side of the nozzle, and the valve is formed at the bypass pipe. By controlling the flow rate flowing into the bypass pipe by the operation of the valve to adjust the height of the water injected from the nozzle, the valve is a solenoid valve, the solenoid valve is operated in accordance with the input signal in the nozzle It is characterized by controlling the height of the water sprayed.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In describing the present invention, when it is determined that the detailed description of the related well-known configuration or function may obscure the gist of the present invention, the detailed description will be omitted.

In the fountain formed with a bypass tube according to the present invention, as shown in FIGS. 2 and 3, a bypass tube 30 is formed at one side of the nozzle 10, and a valve 35a is formed at the bypass tube 30. By controlling the flow rate flowing into the bypass pipe 30 by the operation of the valve 35a to adjust the height of the water sprayed from the nozzle (10). In addition, the nozzle 10 may also be equipped with a valve 35b to further adjust the height of water sprayed.

At this time, the solenoid valve may be mounted as the valve 35a, and since the solenoid valve is operated by a signal input from a controller (not shown), the flow rate passing through the bypass tube 30 is determined according to the opening and closing degree of the solenoid valve. And the height of the water sprayed through the nozzle 10 is automatically controlled according to the change in the flow rate passing through the nozzle 10.

The fountain according to the present invention is a fixed fountain in which one or more nozzles 10 are formed in a connection pipe (not shown) connected to the pump 20 as well as the pump 20 immersed in the water to inhale water into the nozzle 10. Because it sprays through, it can be applied to all fountains, such as mobile fountains, which can move the fountain freely to the desired position in the reservoir.

Particularly, in the case of a movable fountain, a nozzle 10 is formed through one side of the main body 40, a pump 20 is formed inside the main body 40, and the pump 20 is inlet 21 submerged in water. Water is supplied through the nozzle 10 to supply. At this time, if a control unit (not shown) is installed inside the main body 40 in which the pump 20 is formed, the inside of the main body 40 may be completely sealed to prevent water from being introduced into the reservoir, but the control unit may be formed. If not, it is preferable to use the pump 20 to be waterproof to allow the water to flow into the body 40, which may be effective because it can cool the heated pump 20 with water.

The bottom plate 41 of the main body 40 is formed to be spaced apart from the inlet 21 of the pump 20 by a predetermined distance, and the perforated network 42 is formed on the side of the main body 40 so that foreign matters enter the inside of the pump 20. Do not enter.

Meanwhile, as shown in FIG. 4, a plurality of bypass tubes 30 are formed at the outer periphery of the nozzle 10, and respective valves 35a are formed at each bypass tube 30 to be simultaneously or individually controlled and scattered. You will be able to produce a variety of shapes without water. At this time, the bypass pipe 30 may be formed symmetrically along the outer circumference of the nozzle 10 to adjust the height of the water while keeping the fountain body very straight.

Although not shown in the drawings, a wheel may be mounted on the bottom of the body or a rail may be formed on the bottom of the reservoir and a rail wheel may be mounted on the bottom of the body so that the fountain may be operated while the body moves as programmed over the bottom of the reservoir or the rail. Could be.

Referring to the function and operation of the fountain formed by the bypass tube according to a preferred embodiment of the present invention configured as described above are as follows.

First, the fountain formed with the bypass tube according to the present invention is disposed at a desired position in the reservoir, and the power is connected after manually adjusting the valve 35a formed in the bypass tube 30. At this time, if the valve 35a is a solenoid valve, the solenoid valve is operated according to a signal input through a controller (not shown). The flow rate passing through the bypass pipe 30 and the nozzle 10 is determined according to the degree of opening and closing of the valve 35a, and the height of the water sprayed through the nozzle 10 is controlled. In addition, by finely adjusting the valve (35b) formed in the nozzle 10 may be additionally adjusted to the fountain water flow. However, when the valve 35b formed on the nozzle 10 is excessively adjusted, the fountain water stream may be scattered or inclined in an arbitrary direction, and thus, it is preferable to adjust the valve 35b appropriately so as not to greatly affect the water stream.

In the present invention, it is generally not necessary to use a pump equipped with an inverter for adjusting the rotational speed of the impeller to adjust the height of the water sprayed through the nozzle 10 as well as the valve 35b formed on one side of the nozzle 10. The scattering phenomenon of the fountain water stream, which occurs when you adjust), does not occur at all.

When power is supplied to the pump 20, the water of the reservoir where foreign matter is removed through the perforation network 42 formed on the side of the main body 40 is sucked into the inlet 21 of the pump 20, and the As it passes through the impeller, the momentum increases significantly and is supplied to the nozzle 10. At this time, according to the opening and closing degree of the valve 35a formed in the bypass pipe 30, the remaining flow rate is supplied to the nozzle 10 except for the flow rate discharged through the bypass pipe 30 to the reservoir, and the water of the fountain is not scattered. Beautiful shape soar to the height you want.

In addition, if a plurality of bypass tubes 30 are formed symmetrically on the outer periphery of the nozzle 10 and each valve 35a formed for each bypass tube 30 is symmetrically controlled, the water flow of the fountain is kept more straight and The height will be adjusted.

The above description is merely illustrative of the technical spirit of the present invention, and those skilled in the art to which the present invention pertains may make various modifications and changes without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention but to describe the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be interpreted by the claims below, and all technical ideas within the scope of the claims should be construed as being included in the scope of the present invention.

The fountain formed with the bypass tube according to the present invention as described above, by adjusting the height of the water sprayed from the nozzle in accordance with the opening and closing degree of the valve formed in the bypass tube, there is an effect that the beauty of the fountain is maximized without scattering the water.

In addition, there is no need to use a pump equipped with an inverter to control the rotational speed of the impeller, so the price is low, the failure rate is low, and there is an effect that can be freely applied to various fountains.

Claims (5)

In a fountain in which water is sprayed by a nozzle connected to a pump, A bypass pipe is formed at one side of the nozzle, and a valve is formed at the bypass pipe, and the height of water sprayed from the nozzle is controlled by adjusting a flow rate flowing into the bypass pipe by the operation of the valve. Wherein the valve is a solenoid valve, the solenoid valve is operated in accordance with the input signal is a fountain formed with a bypass pipe, characterized in that for controlling the height of water sprayed from the nozzle. The method of claim 1, The nozzle is formed through one side of the main body, the pump is formed inside the main body, the pump is a fountain formed with a bypass pipe, characterized in that the water is introduced into the nozzle through the inlet submerged in the water. The method of claim 2, The bottom plate of the main body is formed spaced apart from the inlet by a predetermined distance, the side of the main body is formed with a bypass pipe, characterized in that the perforated network is formed. delete delete

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