KR200477268Y1 - Capsul type water-supply device - Google Patents

Abstract

The present invention provides a water supply device in the form of an underwater pump in the inside of a capsule type piping for easy maintenance. It can be installed inside a pipe to minimize vibration and noise, and a channel for cooling is formed inside the shaft, And it is a water supply device which does not require a mechanical seal and has a strong price.

Description

Capsul type water-supply device < RTI ID = 0.0 >

The present invention relates to a water supply device for supplying water of a water supply source to the outside. Such a water supply device communicates with a water supply source such as a water tank and serves to supply water to an object requiring water supply. Such a water supply pump has a method of using a pump that pressurizes outside by forming a channel, or a method of installing a pump in water and pressurizing the water by supplying water to the outside. At this time, the external pressurizing method has an advantage in maintenance as far as the pump for pressurization is located outside, but it has disadvantages of large vibration and noise. On the other hand, in the case of installing a pump in water and pressurizing it in water, it is formed together with a pipe for taking water in water, so it has a disadvantage of maintenance but it has an advantage of no noise and vibration.

As described above, a water supply device using the advantage of a method of using an external pressurizing pump and a method of installing a pump in water and pressurizing in water is disclosed in Korean Patent Laid-Open No. 10-2011-0107574 (Oct. 4, 2011) have. Such a conventional technique has a structure in which a pump installed in water is installed in a water supply pipe to provide a pressing force in the water supply pipe. This configuration has the merit that the impeller of the pump is installed in the water supply pipe to solve the maintenance problem which is a disadvantage in installing the pump in the existing water, and the noise, which is a disadvantage in installing the pump outside, can be partially reduced . However, since the motor for driving is exposed to the outside, vibration and noise which are the disadvantages when installing the pump to the outside are still severe. Only the impeller is located in the water pipe, not the water pump, and the rotating shaft passes through the case. A mechanical seal is required. This additional configuration has a disadvantage that it increases the production cost of the water supply device.

Korean Patent Publication No. 10-2011-0107574 (Apr. 4, 2011)

Accordingly, the present invention has been conceived to solve the above-mentioned problems, and it is an object of the present invention to provide a water supply device in the form of a submersible pump, And noise can be minimized, and a mechanical seal is not required, thereby providing a water supply device having a strong price.

According to an aspect of the present invention, there is provided a water supply device (100) for supplying water from a water supply source, comprising a water intake conduit (110) communicating with a water supply source to supply water, An internal storage part 121 of the body part 120 is provided with an inflow port 131 and a drain port 132, And a drain pipe 140 communicating with the drain 132 of the water supply unit 130 and discharging water to an external pipe.

The water supply unit 130 may include a shaft 130a formed as a rotating shaft and a rotating impeller 130b coupled to the shaft as a channel for cooling the water supply unit 130 is formed therein.

The body 120 may further include an upper cap 122 detachable from the body 120. The upper cap 122 may include an air automatic discharge means 123, And a water supply means fixture (124) for fixing the means (130).

The water supply means 130 may further include a foreign matter suction preventing means 133. The water supply means 130 may be formed in the form of a perforated plate or a net and may be detachable .

According to the present invention, it is possible to separate and work the piping when maintenance or inspection is required because the inside of the capsule type external piping is equipped with an underwater motor so that the piping can be easily maintained, According to the characteristic, it is possible to effectively prevent vibration and noise by using the water inside the pipe, and thus it is possible to prevent an ear and throat disease such as hearing loss which is easily occurred to workers exposed to noise.

In addition, a flow path is formed in the shaft serving as a rotating shaft for driving the impeller, so that the underwater motor can be directly cooled. Therefore, it is possible to cool the inside of the motor to improve the cooling performance, thereby effectively removing heat that affects the durability of the motor, thereby improving durability.

In addition, since an underwater motor is used, there is no part that penetrates to the outside, which is advantageous for sealing, and an expensive part such as a mechanical seal is not required. In addition, since the water intake pipe and the water pipe are separately provided, it is possible to prevent the vortex generated in the existing water supply device, thereby improving water supply efficiency. In addition, when the air is introduced into the water supply device, it is possible to prevent the interruption of the operation through the automatic air discharging means which automatically discharges air, and the foreign substance suction preventing means for preventing the impeller from being damaged due to the foreign substances of the inflow water. It has an advantage that it can be effectively protected.

1 is a perspective view of a capsule water supply device according to the present invention;
Fig. 2 is a cross-sectional view taken along line AA 'in Fig. 1; Fig.
3 is another embodiment of the cross-sectional view taken along line AA 'in FIG.
Fig. 4 is an exploded perspective view of the water supply means of the present invention; Fig.

Hereinafter, the capsule type water supply device for pressurization according to the present invention as described above will be described in detail with reference to the accompanying drawings. The following drawings are provided by way of example so that those skilled in the art can fully understand the spirit of the present invention. Accordingly, the present invention is not limited to the drawings shown below, but may be embodied in other forms. Also, like reference numbers throughout the specification denote like elements.

FIG. 1 is a perspective view of a capsule type water supply device according to the present invention, FIG. 2 is a sectional view in AA 'direction in FIG. 1, FIG. 3 is another embodiment of a sectional view in AA' direction in FIG. 1, It is a perspective view.

As shown in FIGS. 1 and 2, the water supply device of the present invention includes a water intake pipe 110 communicating with a water supply source to supply water, an internal storage (not shown) communicating with the water intake pipe 110 and storing the supplied water A water supply means 130 fixed by an underwater motor having an inlet 131 and a drain 132 in an internal storage portion 121 of the body portion 120, And a drain pipe (140) communicating with the drain (132) of the means (130) and discharging water to an external pipe.

As shown in FIG. 2, the water intake duct 110 and the water discharge duct 140 are separately formed, so that the efficiency of the water supply device due to the vortex, which was a problem in the prior art, can be prevented in advance. That is, in the conventional booster pump, the intake pipe and the drain pipe are not separately formed but are formed as one pipe. Therefore, there is a problem that the flow of water is ineffective due to the formation of vortices in the process of sucking the water in the direction of the water intake pipe using the impeller and sending the water toward the water pipe. However, the water supply device according to the present invention is constructed such that the water intake duct 110 and the water discharge duct 140 are separated from each other, so that a vortex is not formed. Thus, the water supply efficiency of the water supply device can be maximized. In addition, the impeller of the water supply device, which may be generated due to the resistance caused by the vortex, can be prevented or the durability of the motor can be prevented from decreasing, thereby increasing the maintenance cycle.

3, the water supply means 130 includes a shaft 130a formed with a flow path for cooling the water supply means 130 therein, and an impeller (not shown) (130b). This configuration is a general underwater motor composed of the shaft 130a serving as the rotation axis of the water supply means 130 and the impeller 130b rotating in combination with the shaft 130a. A flow path for cooling the water supply means 130 is formed and the water supply means 130 can be cooled. Therefore, the heat generated in the rotor (not shown) that is coupled to the shaft can be more effectively removed, so that the heat management efficiency of the water supply unit 130 can be improved, and the durability of the water supply unit 130 can be improved have. In addition, the water used for cooling can be supplied through the impeller to circulate the water used for cooling without a separate device. At this time, the shaft 130a of the water supply means 130 is formed with an O-ring 130c between the water supply means housing and the water supply means housing to block the inflow of water into the water supply means 130.

2 and 4, the internal storage part 121 is formed in the body part 120 to temporarily store the water supplied through the water intake pipe 110, The storage unit 121 is provided with water supply means 130. At this time, the internal storage unit 121 stores water to operate the water supply unit 130 formed by an underwater motor. At this time, the water stored in the internal storage unit 121 serves to prevent external leakage of vibration or noise generated in the water supply unit 130. At this time, the body portion 120 may be formed in multiple stages depending on the size of the water supply means 130 so as to surround the water supply means 130.

That is, the water supply means 130 may be formed of an underwater motor capable of operating in water, so that the water supply means 130 is always located in the water. Conventional water supply equipment has a separate structure such as a water raising device for this construction so that water is always supplied to the water supply means. This configuration is for preventing air from being injected into the water supply means, and the water supply means 130 of the present invention always has the advantage of preventing the air from being injected in water at all times.

At this time, the water around the water supply means 130 absorbs vibration and noise. Therefore, vibration or noise can be blocked without a separate vibration or noise reduction member, thereby reducing the size of the water supply device. Also, when the conventional noise reducing member is mounted, it is troublesome to remove the noise reducing member for maintenance and reinstall it after maintenance. However, as described above, the present invention is advantageous in that the structure is simple since the vibration or noise reduction member is not used, the maintenance is simple and the production cost is reduced. In addition, when the water supply unit 130 is formed to have a large size due to a high required output, the body 120 may be formed in multiple stages to more stably surround the water supply unit 130. In this configuration, when the body portion 120 is configured as one stage, the water supply device of the present invention can be formed in an unstable form due to its weight or size. Since the body portion 120 is divided into multiple stages, And the weight of the body part 120 can be dispersed in a multi-stage manner, thereby improving the convenience of the operator in maintenance.

The body 120 may further include an upper cap 122 formed at an upper end of the body 120 to be separated from the body 120. The upper cap 122 may be configured to stop the water supply device when necessary and to separate the upper cap 122 from the body 120 so as to connect the inner pipe or the water supply unit 130 ) Can be maintained. Therefore, if the water supply device is stopped and the upper cap 122 is separated from the existing maintenance method in which the piping itself has to be separated for maintenance after stopping the water supply means and completely discharging the water inside the piping, So that it is possible to increase the efficiency of the operation and thus to shorten the working time.

Further, the upper cap 122 may further include an air discharging means 123. In the case of a pump which has been used as a water supply means in the past, the operation of the pump is stopped for the protection of the pump when the air is sucked in, and then the operation is restarted after the manager directly discharges the air using the air discharging means It was common. This method has a problem in that an unstable disruption occurs in the supply of water because the suspended state continues until the manager confirms that the operation is stopped. In addition, in the case of such an air intake, leakage water is often caused by a water intake pipe. Therefore, in order to solve the problem fundamentally, it was necessary to inspect the entire water intake pipe to identify the water leakage area, to stop the operation of the water supply device, to remove the water inside the pipe, and to repair it. Therefore, the inconveniences caused by the shutdown of the water supply device and the labor time and manpower were required.

However, the water dispenser according to the present invention discharges the air using the automatic air discharging unit 123 that automatically discharges air when the suction of air into the body 120 is detected. With such a configuration, the operation stop of the water supply device due to the suction of the air does not occur. Therefore, it is possible to supply stable water and not to rely on passive management of the manager when the air is inhaled, but also to allow the water supply device to actively discharge the air to the outside, which is convenient to manage, .

In addition, the upper cap 122 may further include a water supply fixture 124. This is because if the fastener for fixing the water supply means 130 is formed in the body portion 120, the flow of water in the internal storage portion 121 may be interrupted. Further, the water supply means 130 can be taken out to the outside more conveniently when the water supply means 130 is maintained. Therefore, it is preferable that the water supply fixture 124 for fixing the water supply means 130 is formed on the upper cap 122.

3, the water inlet 130 for sucking water is formed in the center area of the body part 120 and the lower end of the water inlet 130 is connected to the drain pipe 140, As shown in FIG. And the inlet 131 for sucking water into the water supply unit 130 and the drain 132 for discharging water are separately provided. Therefore, it is possible to prevent the vortex generated when the water is sucked and discharged at the same time, and the water supply unit 130 can further include the foreign matter suction preventing member 133. At this time, it is preferable that the foreign matter suction preventing member 133 is made of a stainless steel porous plate or is formed in a net shape.

In addition, the size or shape of the hole of the foreign material suction preventing member 133 or the mesh of the screen screen is not limited to one form or dimension, but may be manufactured in various sizes so as to be suitable for the quality of raw water. do.

As shown in FIG. 4, the foreign matter suction preventing member 133 may be formed as a sieve on the inlet 131 formed in the center region of the body 120. At this time, the foreign matter suction preventing member 133 may be formed so as to surround the inlet 131, and water may be introduced only through the foreign matter suction preventing member 133. In addition, it is preferable that the foreign matter suction preventing member 133 is formed of a metal material having appropriate elasticity so that it can be easily removed by pulling it outward. With such a configuration, the water supply unit 130 has an advantage of minimizing damage that may be caused by foreign substances introduced from the outside, thereby enhancing durability.

While the present invention has been described with reference to specific embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. It is a matter of course that various modifications can be made.

100: Water supply device
110: intake pipe
120:
121: internal storage unit 122: upper cap
123: automatic air discharge means 124: water supply means fixing means
130: Water supply means
130a: shaft 130b: impeller
130c: O-ring
131: inlet 132: outlet
133: Foreign matter suction preventing member
140: To the drain pipe

Claims (8)

A water supply apparatus (100) for supplying water of a water supply source,
A water intake duct 110 communicating with the water supply source to supply water;
A body part 120 communicating with the water intake duct 110 and having an internal storage part 121 for storing supplied water;
A water supply means 130 fixed to an internal storage portion 121 of the body portion 120 by an underwater motor having an inlet 131 and a drain 132; And
And a drain pipe (140) communicating with a drain port (132) of the water supply means (130) and discharging water to an external pipe,
The body portion
And a top cap (122) detachable from the body (120) at an upper end thereof.
The water treatment system according to claim 1, wherein the water supply means (130)
And a shaft 130a formed as a rotation shaft and an impeller 130b rotating in association with the shaft, the shaft being formed with a flow path for cooling the water supply unit 130 therein.
delete The apparatus of claim 1, wherein the upper cap (122)
Further comprising an automatic air discharging means (123).
The apparatus of claim 1, wherein the upper cap (122)
And a water supply means fixture (124) for fixing the water supply means (130).
The water treatment system according to claim 1, wherein the water supply means (130)
Further comprising a foreign matter suction preventing member (133) on the inlet (131).
7. The apparatus according to claim 6, wherein the foreign matter suction preventing member (133)
Wherein the cap-shaped water supply device is formed in the form of a perforated plate or net.
7. The apparatus according to claim 6, wherein the foreign matter suction preventing member (133)
Wherein the cap-shaped water supply device is formed to be detachable.

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