KR100971263B1 - Westco Pump - Google Patents

Abstract

The present invention relates to a Westco pump that is easy to maintain balance, is installed in a vertical shape, saves an installation area and space, and reduces noise.

According to the present invention, the inlet 16 is formed on one side and the discharge port 17 is formed on the other side and the casing 12 having a chamber 15 formed therein, and is installed in the chamber 15 of the casing 12 In a Westco pump comprising a disk-type impeller 4 coupled to a motor 1 and formed with vanes 5 along a circumference, the inlet 16 and outlet 17 of the casing 12 are the casing. It is formed in a position opposite to each other about the central axis of the impeller (4) of the (12), and is partitioned between the inlet 16 and the chamber 15 of the casing 12 by an arc-shaped blocking wall 20 and the inlet A bypass passage 22 is formed which connects the 16 and the chamber 15 so that the fluid sucked into the inlet 16 of the casing 12 is guided through the bypass passage 22 and at the end of the chamber 15. In communication with the Westco pump is provided.

Westcoe, Pump, Upright, Barrier, Noise

Description

Westco Pump

The present invention relates to a Westco pump, and more particularly, the fluid inlet and outlet of the pump casing are aligned and connected to the center or close to the impeller so that the balance can be easily maintained and installed during the installation and operation of the pump. The present invention relates to a Westco pump with a new structure that can save installation area and space, and can improve the pumping efficiency due to the reduction of noise due to cavitation and the reduction of outflow resistance.

As shown in FIG. 1, the Westco pump has a short cylindrical casing 2 and a disk-type impeller 4 formed in the chamber of the casing 2 and having two rows of vanes 5 formed in front and rear along the perimeter. It includes, one side of the casing (2) is coupled to the motor (1), the fluid sucked through the inlet (6) connected to the upper side of the casing (2) vanes (5) in accordance with the rotation of the impeller (4) It is a pump discharged through the discharge port 7 connected to the other side of the upper end of the casing (2) while being progressively pressurized in the gap between. The Westco pump is a pump capable of high lift with a small power, and is also called a regeneration pump, a friction pump or a vortex pump.

Such a Westco pump is, as shown, in order for the fluid sucked through the inlet 6 to be pressurized by the disk-type impeller 4 to receive a high pressure, the introduced fluid is impeller 4 in the casing 2. Since it is required to contact the periphery of the many to be pressurized by more vanes (5), for this purpose the inlet (6) is generally formed on one side of the upper end of the casing (2) and the discharge opening ( 7) is formed so that the sucked fluid can pass through almost the entire circumferential surface of the impeller 4. Number 9 is the cover.

However, according to such a structure, since the inlet 6 and the outlet 7 to which the pipes 10 and 11 are connected are connected to one side of the casing 2, the pump is connected to the straight pipes 10 and 11. Since the center of gravity of the deviates from the central axis of the pipe, it is difficult to maintain the balance during the installation or operation of the pump as a whole. There was a problem that it is structurally unsafe. In addition, there is a problem in that the compatibility is in the case of replacing a conventional conventional pump, in which the pipe is connected to be aligned with the center of the casing 2, with a Westco pump. In addition, in such a conventional pump, the noise due to the cavitation phenomenon inevitably generated along the circumference of the impeller 4 is not attenuated to the outside of the casing 2 but is transmitted to the outside as it is, and there is a problem that the noise is relatively high.

The present invention has been proposed in view of the problems of the conventional Westco pump as described above, and the present invention can be connected so that the pipe to be connected is aligned at or near the center of the impeller, so as to balance the installation and operation of the pump. It is easy to maintain, and to provide a structurally safe Westco pump even without a separate support means while saving installation space when installed in a vertical form. In addition, the present invention is to provide a Westco pump of a new structure that can reduce the noise caused by the cavitation phenomenon inside the pump casing.

According to one feature of the invention, the inlet 16 is formed on one side, the discharge port 17 is formed on the other side and the casing 12, the chamber 15 is formed therein, the chamber 15 of the casing 12 In the Westco pump comprising a disk-type impeller (4) coupled to the motor (1) and formed with a vane (5) along its perimeter, the inlet (16) and outlet (17) of the casing (12) Is formed at a position facing each other about a central axis of the impeller 4 of the casing 12, and extends along the circumference of the chamber 15 between the inlet 16 and the chamber 15 of the casing 12; A bypass passage 22 is defined by the arc-shaped blocking wall 20 and connects the suction port 16 and the chamber 15 so that the fluid sucked into the suction port 16 of the casing 12 passes through the bypass passage 22. Westco pump is provided, characterized in that it is guided through) and in communication with the chamber 15 at its end.

According to another feature of the invention, the bypass passage 22 is provided with a Westco pump, characterized in that extending to close to the discharge port (17).

According to another feature of the invention, the motor 1 is provided in the Westco pump, characterized in that installed in the upright or disposed on the upper or lower portion of the casing (12).

According to the present invention described above, the suction port 16 and the discharge port 17 of the casing 12 are formed at positions facing each other about the central axis of the impeller 4 of the casing 12, and the suction port 16 and By forming a bypass passage 22 defined between the chambers 15 by an arc-shaped blocking wall 20 extending along the circumference of the chamber 15, the fluid flowing into the suction port 16 is formed around the impeller 4. The vanes 5 formed in the part can be contacted by a sufficient length, so that the pipes connected to the inlet 16 and the outlet 17 are generally impeller 4 or casing, while exhibiting high pumping performance by sufficiently receiving the rotational force of the pump. Since it is connected to the center part of (12) or near, the balance can be easily maintained at the time of installation or operation | operation of a pump when connecting pipes 10 and 11, and structural stability increases. Particularly, according to the present invention, even when the casing 12 is supported vertically by only the pipes 10 and 11 connected without using a separate support means such as a base, the load of the pump itself is increased by the pipes 10 and 11. Since it is not biased toward any one side, it is suitable for installation in an upright type, thereby saving installation space.

In addition, according to the present invention, since the pipes 10 and 11 are connected to or close to the center of the pump casing 12, another existing type of pump to which the pipe is connected to be aligned to the center of the casing is the Westco of the present invention. Replacement with a pump can increase compatibility. In addition, due to the double wall structure formed in the curved blocking wall 20 due to the cavitation phenomena generated in the chamber 15 of the casing 12, the transmission to the outside of the casing 12 is reduced to reduce the noise during pump operation. Can be reduced.

Hereinafter, preferred embodiments of the present invention will be described with reference to the drawings. 3 is a cross-sectional view of an embodiment of the present invention, Figure 4 is a diagram showing the state of use thereof. As shown, according to the present invention, a chamber 15 in which an impeller 4 is installed is formed inside a short cylindrical casing 12 having an inlet 16 formed on one side and an outlet 17 formed on the other side. . The impeller 4 housed in the chamber 15 and condensed in the motor 1 is substantially in the form of a disk so that vanes 5 or vanes in two rows are formed along its periphery. The fluid sucked into the suction port 16 flows along the circumference of the impeller 4 in the chamber 15 and is pressurized by the vanes 5 of the impeller 4 to transfer the discharge port 17 on the other side of the casing 12. The discharge port 17 is formed to be in direct communication with the chamber 15.

By the way, the inlet 16 of the casing 12 is not in direct communication with the chamber 15, but is a bypass passage that extends along the circumference of the chamber 15 and is partitioned by a blocking wall 20 formed in an arc shape ( 22) is connected. That is, the suction port 16 communicates with one end of the bypass passage 22, and the bypass passage 22 extends to approach the discharge port 17, and the other end thereof communicates with the chamber 15. Accordingly, the fluid sucked into the suction port 16 flows along the bypass passage 22 to approach the discharge port 17 on the other side and then flows into the chamber 15 here, so that the flowing fluid flows to the circumferential surface of the impeller 4. It can be in contact with the longest, so that the force applied by the vanes 5 of the impeller 4 can be received as much as possible, thereby maximizing the pumping ability of the pump, compared to the conventional Westco pump as described above. Pumping capacity is not inferior. In addition, since the suction port 16 and the discharge port 17 are disposed facing the casing 12 so that the extension line passing through the center of the suction port 16 and the discharge port 17 passes through the central part of the impeller 4 of the pump, the casing ( The weight balance of the casing 12 can be easily maintained with respect to the pipes 10 and 11 connected to 12, so that the balance can be easily maintained during installation and operation, and the structural safety is high. In particular, when the pump body is installed upright in the pipe (10, 11) horizontally spaced apart from the ground, the center of gravity of the pump body with respect to the pipe (10, 11) does not deviate to one side structurally safe, so the pump The maintenance of the balance of the operation part can be easily achieved to achieve a smooth pumping operation, and in the case of installing in the upright type, it is advantageous because the installation area and space can be saved as compared with the case of installing in the horizontal type.

Further, according to the present invention, the casing (after the noise or impact caused by cavitation or the like generated around the impeller 4 in the chamber 15 by the fluid resistance at the time of operation of the pump is first attenuated by the blocking wall 20. Since it is transmitted to the outside of the 12), it is possible to reduce the noise as compared to the pump without such a barrier wall (20).

1 is an exploded perspective view of a conventional West nose pump

Figure 2 is a cross-sectional view of a conventional west nose pump

3 is a cross-sectional view of one embodiment of the present invention.

4 is a state diagram used in one embodiment of the present invention

Claims (3)

A suction port 16 is formed at one side and a discharge hole 17 is formed at the other side, and a casing 12 having a chamber 15 formed therein and a chamber 15 of the casing 12 are installed in the motor 1. In a Westco pump comprising a disk-type impeller (4) coupled and the vanes (5) formed along the periphery; The suction port 16 and the discharge port 17 of the casing 12 are formed at positions facing each other with respect to the central axis of the impeller 4 of the casing 12; Between the inlet 16 and the chamber 15 of the casing 12 is partitioned by an arc-shaped blocking wall 20 extending along the circumference of the chamber 15 and connects the inlet 16 and the chamber 15, A bypass passage 22 is formed which extends close to the discharge port 17; The bypass passage 22 communicates with the chamber 15 at an end thereof, and the fluid sucked into the inlet 16 of the casing 12 flows into the chamber 15 through the bypass passage 22. It is provided to be pressed by the vanes (5) while flowing along the periphery of the impeller (4); West chamber pump, characterized in that the chamber (15) and the discharge port (17) is in direct communication so that the fluid pressurized by the vanes (5) is pressurized and discharged through the discharge port (17). delete The Westco pump according to claim 1, wherein the motor (1) is disposed above or below the casing (12) and installed in an upright position.

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