KR101369969B1 - Double suction type centrifugal pump - Google Patents

Abstract

The present invention relates to a double suction pump capable of preventing a fluid in a casing from being exposed to the outside through a casing ring installed in an inlet of the casing and being efficiently used by smoothly maintaining internal pressure in the casing. The double section pump includes the casing having the inlet in which the fluid is sucked and an outlet discharging the fluid; an impeller operated to suck or discharge the fluid by being connected to the inlet and the outlet; and a rotary shaft which is installed in the casing by passing through the casing in order to be connected to the impeller. The casing ring is installed in the casing having the inlet to prevent the fluid, which flow towards the outlet according to the rotation of the impeller, from being sucked into the inlet due to a discharge pressure of the outlet.

Description

Double suction type centrifugal pump

The present invention relates to a suction pump, and more particularly, even if the casing ring installed at the inlet of the casing is used for a long time, it is prevented from being easily worn by the fluid flowing along the inlet so that the internal pressure of the casing is lowered so that the inlet is It relates to a double suction pump to prevent the back flow of the fluid in the direction of, thereby preventing the discharge pressure of the discharge port is lowered to achieve an efficient use of the double suction pump.

A double suction pump refers to a device for transporting a fluid using a pressure action.

Such a suction pump has a casing provided with an inlet and an outlet to allow fluid to flow in and out, an impeller installed inside the casing to smoothly inlet and discharge fluid through the inlet and outlet, and the It is usually composed of a rotating shaft for rotating the impeller and a motor.

Conventional positive suction pump as described above is usually configured to smoothly flow the fluid to the inlet and outlet provided in the casing through the rotation of the impeller provided inside, as in the literature (1), (2) As in), a method for smoothly flowing the fluid flow by changing the configuration of the impeller provided inside the casing has been proposed.

However, in order to prevent water from leaking out of the casing and preventing air from flowing into the casing, a conventional double suction pump such as Document (1) and Document (2), as shown in FIG. Since only a simple coupling of the casing ring was applied, the casing ring could be easily worn according to the use of the suction pump, and thus, it was difficult to smoothly adjust the internal pressure of the casing, and the fluid flowing into the casing through the inlet was There was a problem that it is difficult to smoothly discharge the fluid in the direction of the discharge port in the direction of the reverse flow in the direction of the discharge port, or the discharge pressure of the discharge port has a problem that can lower the efficiency of the suction pump.

(1) Korea Patent Registration No. 10-0973833 (2010.07.28) (2) Republic of Korea Registered Utility Registration No. 20-0429173 (October 12, 2006)

The present invention has been made to solve the above-described problems, even when the suction pump is used for a long time, the casing ring installed in the inlet of the casing is configured to prevent the wear out easily to prevent the fluid from flowing out of the casing. At the same time it relates to a positive suction pump to efficiently maintain the internal pressure inside the casing to facilitate the flow of fluid through the inlet and outlet.

In order to achieve the above object, the present invention provides a casing having a suction port and a discharge port for discharging the fluid, and an impeller installed to be connected to the suction port and the discharge port to operate the suction and discharge of the fluid, and the impeller In the double suction pump including a rotating shaft which is installed through the casing so as to be connected to the casing, the inlet is formed in the casing, the fluid flowing in the direction of the discharge port in accordance with the rotation of the impeller is prevented from flowing into the suction port by the discharge pressure of the discharge port Casing ring may be installed to be configured in order to.

In this case, the casing includes a lower casing in which the suction port and the discharge port are formed, and an upper casing coupled through a fastening member so as to be separable from the lower casing, and the casing rings are installed to be in close contact with each other through the lower casing and the suction port. Can be.

In addition, the suction port includes a coupling protrusion formed to protrude along a longitudinal direction, and a seating groove formed to form a stepped portion at the lower end of the coupling protrusion, and the casing ring includes a coupling groove into which the coupling protrusion is inserted; It is formed to be extended to be bent to one side of the coupling groove may be configured to include a mounting projection inserted into the mounting groove.

In addition, the casing ring may be configured to form a cut surface of the "c" shape.

The present invention as described above can achieve the following effects.

First, even when using the suction pump for a long time by preventing the casing ring coupled to the inlet of the casing to be easily worn, it is possible to prevent the fluid inside the casing outflow and to use a stable suction pump.

Second, by forming a structure in which the inlet and the casing ring of the casing are engaged with each other, it prevents air from flowing into the casing and achieves stable use, thereby efficiently adjusting the pressure inside the casing, and thereby fluid inside the casing. Inflow and discharge can be achieved stably.

Third, a simple structural coupling that changes and combines the shape of the inlet of the casing and the casing ring installed therein without complicated mechanical configuration prevents the fluid inside the casing from being exposed to the outside and prevents air from entering the casing. It is possible to achieve the convenience, as well as the effect of reducing the maintenance cost accordingly.

1 is a side cross-sectional view showing a state in which a casing ring is installed in a conventional suction pump.
Figure 2 is a perspective view of the casing ring of the present invention.
Figure 3 is a side cross-sectional view of the casing ring of the present invention.
Figure 4 is a schematic view showing a side from the casing ring installed in the suction pump according to the present invention.
Figure 5 is another schematic view showing in a plan view the state in which the casing ring is installed in the suction pump according to the present invention.
Figure 6 is a side cross-sectional view showing a state in which the casing ring is installed in the inlet of the casing according to the present invention.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

Preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings, the same reference numerals are used to designate the same or similar components throughout the drawings. In addition, the terms described below are defined in consideration of the functions in the present invention, and this may vary depending on the intention or custom of the user, the operator. Therefore, definitions of these terms should be made based on the contents throughout this specification.

First, the configuration will be described according to FIGS. 2 to 6 shown.

As shown in FIGS. 4 and 5, the casing 100 having the inlet 111 through which the fluid is sucked and the outlet 112 for discharging the fluid is connected to the casing 100 and the inlet 111 and the outlet 112. Impeller 200 is installed to operate the suction and discharge of the fluid, the rotating shaft 300 is installed through the casing 100 to be connected to the impeller 200, and the motor for rotating the rotating shaft 300 ( In the positive suction pump including M), the fluid flowing in the direction of the discharge port 112 in accordance with the rotation of the impeller 200 in the casing (100) formed with the suction port 111 of the discharge port 112 The casing ring 400 is installed to prevent the inlet 111 from being introduced by the discharge pressure.

As shown in FIG. 4, the casing 100 includes a lower casing 110 formed by the inlet 111 and the outlet 112, and a fastening member P to be detachable from the lower casing 110. Consists of the upper casing 120 is coupled through.

At this time, the lower casing 110 and the upper casing 120 has the same structure and function as the structure of the casing constituting the conventional suction pump, the detailed description thereof will be omitted.

In addition, in the present invention, as shown in Figs. 4 and 5, in addition to the above-described configuration of the casing 100, the impeller 200, the rotating shaft 300, the motor M, the bracket 130, the bearing 140, the ring 150, as well as the configuration of the packing 160, of course, can be made including a variety of configurations for forming a conventional suction pump.

Although the casing 100 is not shown in detail in the present invention, as described above, the lower casing 110 and the upper casing 120 are configured by the impeller 300, the rotating shaft 300, and the like. It is desirable to configure the configuration so that it can be conveniently installed.

On the other hand, the casing 100 is more preferably formed of a metal material ensured rigidity and watertightness.

In addition, it is preferable that the impeller 200 uses an extremely good balance and a good hydraulic balance, which prevents excessive vibration from occurring during use of the impeller and thus constitutes a suction pump configured to be connected to the impeller 300. This is to prevent the damage or excessive wear.

In addition, the rotating shaft 300 is configured to enable the rotation of the impeller 200 through the rotational force transmitted from the motor (M) is coupled through the inside of the casing (100).

The configuration of the rotary shaft 300 is the same as the configuration and function and configuration of the rotary shaft 300 applied to the conventional suction pump, it is also used to combine the sleeve to prevent wear, corrosion damage, etc. The technology applied to the suction pump is the same as the function and configuration, the detailed description thereof will be omitted.

Hereinafter, the casing ring 400 which is a characteristic of the present invention will be described in more detail.

The casing ring 400 is installed in close contact with each other such that the casing ring 400 is interposed between the lower casing 110 and the suction port 111.

This is coupled to one side of the inlet 111, the casing ring 400, as shown in Figure 6, is installed in close contact to prevent the fluid flowing inside the casing 400 is exposed to the outside, the outside air is The casing 400 is to prevent the flow into the inside.

At this time, the suction port 111 is configured to include a coupling protrusion 111a protruding along the longitudinal direction, and a seating groove 111b formed to form a step with the lower end of the coupling protrusion 111a. The ring 400 has a coupling groove 410 in which the coupling protrusion 111a is formed to be inserted, and is formed to be bent to one side of the coupling groove 410 to be inserted into the seating groove 111b. It is configured to include 420.

The coupling protrusion 111a is configured to be inserted into the coupling groove 410 of the casing ring 400 and coupled as shown in FIG. 6, and the seating groove 111b is the casing ring 400. As the mounting protrusion 420 is configured to be inserted and coupled, when described in more detail, the coupling protrusion 111a and the seating protrusion 420 is formed in the corresponding direction and the seating groove 111b After the coupling is made to be engaged with each other by the coupling groove 410, the fluid inside the casing 400 flows out to the contact surface of the casing 400 which is in contact with the outside of the inlet 111, or the outside air flows through the casing 400. ) It can be effectively prevented from flowing into the inside.

In particular, the casing ring 400 is configured to form a "c" shaped incision surface, as shown in Figure 2 and 3, as shown in Figures 4 to 6, the inlet 111 of the lower casing 110 And casing ring 400 is coupled to form a plurality of bending contact surface in the mutually contacting part even when the casing ring 400 is coupled, as shown in Figure 1 showing the installation state of a conventional casing ring 400, so as to be horizontal or vertical Through the contact surface of the casing ring 400 to be coupled is to efficiently overcome the problem that did not prevent the fluid or external air from entering the casing (100).

In addition, the bending contact surface is not illustrated in detail in the present invention, but the casing ring 400 and the casing 100 is coupled to form a plurality of bent surfaces to be in contact with each other by such a casing ( 100) It is possible to prevent external air from easily penetrating into the inside, and to prevent the fluid inside the casing 100 from flowing out more efficiently.

On the other hand, in the present invention has been described by showing the shape of the casing ring 400 in a ring shape having a "c" shaped cutting surface. The present invention is not limited thereto, and the shape of the casing ring 400 may be changed and applied to the casing ring 400 if it is configured to stably maintain a close state after being smoothly coupled with the suction port 111 of the lower casing 110. Of course.

As described above, the casing ring is coupled to the inlet of the lower casing to prevent the casing ring from being easily worn even when using the suction pump for a long time, so that the fluid inside the casing flows out or the outside air is casing. It prevents the inflow and can achieve the use of a stable suction pump.

While the present invention has been particularly shown and described with reference to specific embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made therein without departing from the spirit or scope of the invention as set forth in the following claims It will be apparent to those of ordinary skill in the art.

Description of the Related Art [0002]
100: casing 110: lower casing
111: suction port 111a: engaging projection
111b: mounting groove 112: discharge port
120: upper casing 130: bracket
140: bearing 150: ring
160: packing 200: impeller
300: rotating shaft 400: casing ring
410: coupling groove 420: seating protrusion
M: Motor

Claims (4)

A casing 100 having a suction port 111 through which the fluid is sucked and a discharge port 112 for discharging the fluid, and installed to be connected to the suction port 111 and the discharge port 112 are operated to inhale and discharge the fluid. In the positive suction pump comprising a impeller 200, a rotating shaft 300 which is installed through the casing 100 so as to be connected to the impeller 200, and a motor (M) for rotating the rotating shaft 300,
In the casing 100 having the inlet 111, the fluid flowing in the direction of the outlet 112 according to the rotation of the impeller 200 is prevented from entering the inlet 111 by the outlet pressure of the outlet 112. Casing ring 400 is installed in order to,
The casing ring 400 is
A suction pump, characterized in that configured to form a "c" shaped incision surface. The method of claim 1,
The casing 100 is
A lower casing 110 having the suction port 111 and the discharge port 112 formed therein;
The upper casing 120 is coupled through the fastening member P so that the lower casing 110 is separable.
The casing ring 400 is
A suction pump, characterized in that it is installed to be in close contact with each other via the lower casing 110 and the suction port 111. 3. The method of claim 2,
The inlet 111 is
Coupling protrusion 111a protruding along the longitudinal direction,
It includes a seating groove (111b) formed to form a stepped end to the lower end of the coupling protrusion (111a),
The casing ring 400 is
A coupling groove 410 into which the coupling protrusion 111a is inserted;
The suction suction pump, characterized in that it comprises a seating protrusion (420) is formed to extend to be bent to one side of the coupling groove (410) is inserted into the seating groove (111b). delete

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