KR200167567Y1 - Screw pump for a water pumping - Google Patents

Abstract

The present invention relates to a pump pump for pumping, the object of the present invention is to easily discharge the water seized through the discharge pipe at the same pressure sucked without lowering the suction pumping pressure, and minimize the installation area of the pumping pump At the same time to prevent excessive energy consumption due to the operation to reduce the operating cost of use.

On the other hand, another object of the present invention is to increase or decrease the pumping pressure required for use according to the coupling configuration of the screw impeller, to increase the work efficiency according to pumping.

As described above, specific means of the present invention for achieving the above object; A string impeller having a shatterproof film is inserted into the case member having a coupling tool and a plurality of guide vanes to form a screw actuator having a rotational gap, and a plurality of such screw actuators are formed. It is achieved by forming a variable body to selectively be coupled to the case body provided.

Description

Pump Pump

The present invention relates to a pump pump for pumping, and more specifically, by using a screw impeller composed of a plurality of separate interconnections, coupling according to the capacity required for use, so as to have a rotational force in the pump casing as the suction force by the screw impeller rotational force It relates to a pump pump for pumping pumping action.

A conventional pump for pumping water, which is commonly used, is formed as a pump case 10 having a vortex chamber 20 as a space of a predetermined size as shown in FIG. 1, and a vortex chamber as a bottom of the pump case 10. The suction pipe 30 is connected to the 20 is formed, the upper discharge pipe 40 is formed to be connected to the vortex chamber 20, the inside of the vortex chamber 20 a plurality of rotary blades (50) It is formed by being installed so that the impeller 60 has a rotational force.

Therefore, in the conventional pump for pumping having the configuration as described above, when the impeller is rotated by an external power such as a motor, the impeller pumps water through the suction pipe by suction power by the rotation and supplies it into the vortex chamber, and is supplied to the vortex chamber. The water causes the vortex to be generated by the rotation of the rotary blades, and the water in the vortex chamber is discharged to the outside through the discharge pipe by the vortex pressure.

However, in the conventional pump for pumping having the configuration and function as described above, the vortex chamber has a considerably wider space configuration and forms an impeller combined with a rotor blade, compared to the diameters of the suction pipe and the discharge pipe to be connected. The water pumped at a considerable pressure through the vortex chamber has a considerable spatial configuration in the process of supplying it to the vortex chamber, so that the pumping pressure is rapidly reduced, and the reduced pumping pressure is again caused by the vortex action by the rotary blades. In order to discharge the discharge tube by increasing the pressure, the problems such as energy loss due to excessive power consumption due to the increase in pumping pressure were also considerable.

In addition, the conventional pump pump is the volume of the pump is set according to the size of the impeller is mass produced, the air in the vortex chamber is also proportionally enlarged according to the change of the size of the impeller, accordingly the formation volume of the pump case is also relatively It was to have a problem that is increased.

In addition, according to such a size change, the conventional pump pump not only has a problem of increasing the manufacturing cost according to the material cost, but also has a problem of having an installation area larger than necessary, and the user must selectively select a pump pump standardized according to the usage capacity. There was always a waste of work and inefficient problems.

Therefore, the present invention has been devised to solve the general problems of the conventional pump pump described above; The purpose of the present invention is to facilitate the discharge of the pumped water through the discharge pipe at the same pressure sucked without lowering the suction pumping pressure, and to minimize the installation area of the pump pump and to prevent excessive energy consumption due to the operation It is to reduce the work cost according to the use.

On the other hand, another object of the present invention is to increase or decrease the pumping pressure required for use according to the coupling configuration of the screw impeller, to increase the work efficiency according to the pumping.

As described above, specific means of the present invention for achieving the above object; A screw impeller having an anti-scattering film is inserted into the case member having a coupler and a plurality of guide vanes to form an actuator having a rotational gap. The screw actuator is formed of a plurality, and has a discharge port and a power shaft. This is achieved by forming the case body so that the quantity is selectively variablely coupled.

1 is a schematic cross-sectional view of a conventional pump for pumping.

2 is a partially omitted exploded perspective view of the pump pump for pumping according to the present invention.

Figure 3 is an enlarged cross-sectional view of the main portion of the pump pump for pumping according to the present invention.

4 is a cross-sectional view of the coupling, operating state of the pump pump for pumping according to the present invention.

<Explanation of symbols for main parts of drawing>

1 screw actuator 2 case member

3: screw impeller 4: case body

5: suction port 11: rotation gap

21: guide feather 22, 22 ': coupling sphere

31 shaft coupling 32 screw blade

33 shatterproof film 41 discharge tube

42: connector 43: power shaft

51: fixed bearing 52: fixed frame

331: jaw h, h ': keyway

Hereinafter, a preferred embodiment of the pump pump for pumping according to the present invention will be described in detail with reference to the accompanying drawings.

Figure 2 is an exploded perspective view of a partial omission of the pump pump for pumping according to the present invention, Figure 3 is an enlarged cross-sectional view of the main portion of the pump pump for pumping according to the present invention, Figure 4 is a cross-sectional view of the coupling, operating state of the pump pump for pumping according to the present invention Looking at the configuration according to the embodiment; It is formed of a cylindrical case member (2), the inner diameter of the case member (2), the screw impeller (3) is inserted and installed to form a screw actuator (1), such screw actuator (1) It is formed as a dog, and is configured by being coupled in series with one side of the case main body 4 having the discharge port 41 as necessary in use. (Not shown sign B: Pump support)

In some cases, the screw actuator 1 is formed by a coupling relationship between the case member 2 and the screw impeller 3, which will be described later, as the gist of the present invention having the configuration and shape as shown in FIG. The case member 2 takes a cylindrical through shape as shown in FIGS. 2 to 3, but a plurality of guide feathers 21 having a plate shape as a diagonal structure is formed around the rear inner diameter, and the case member 2 is formed. It is preferable that the front and rear ends of the) be formed in a form in which the coupling holes 22 and 22 'of the stepped configuration are opposed to each other.

In addition, the screw impeller (3) has a shaft coupling hole 31 having a key groove (h) in the center, as shown in Figure 2, it is preferably formed of a screw blade (32) of a conventional type; At this time, the screw impeller 3 has a configuration in which the outer diameter including the screw blades 32 is accommodated in the anti-scattering film 33 as shown in FIG. 3, and the anti-body film 33 containing the screw impeller 3 is included. 2) is formed in a cylindrical through-hole having a fixed jaw 331 on one side, as shown in Figure 2, the screw impeller (3) is to be integrally formed in the inner diameter of the anti-scattering film 33 is formed integrally .

Meanwhile, the main body 4 having the discharge pipe 41 has a cylindrical shape as shown in FIGS. 2 to 4, one side of which is open, and the other side of which has a closed configuration. The connector 42 is formed to engage with the coupler 22 of the case member 2, and the key groove h 'connected to the motor M, which is an external power unit, is formed at the center of the other side of the case. It is preferable to have a power shaft 43 having a through shape, as shown in FIG.

Therefore, the interaction according to the mutual coupling relationship and coupling relationship of the pump pump for pumping having the configuration as described above; Inside the case member 2, the screw impeller 3 forcibly fitted into the shatterproof film 33 is inserted to form the screw actuator 1.

At this time, the screw impeller 3 accommodated inside the case member 2 is guided by the fixing jaw 331 as shown in the partial enlarged view of FIG. 4 between the scattering prevention film 33 and the inner diameter of the case member 2. Rotation gap 11 is formed as a form spaced at a predetermined interval, such a rotation gap 11 is rotated when the screw impeller (3) having the anti-scattering film 33 in the case member (2) is rotated It will have the function of excluding friction interference.

On the other hand, the screw actuator (1) configured as described above is engaged with the connector 42 of the case body 4 by the one side coupling port 21 ', the screw actuator (1) having such a coupling configuration is shown in FIG. As shown in FIG. 5, as the installation form as needed, a plurality of screw actuators 1 are lined up to be connected to each other by using the coupling holes 22 and 22 '. Variable configuration is possible from the singular to the plural.

In this case, as described above, the screw actuators 1 are engaged in a row as a plurality, and each screw impeller 3 is installed on the power shaft 43 by the shaft coupling hole 31, and the key grooves h and h. It is fixedly formed by putting the key K by ').

Further, at the end of the screw actuator 1 having the above-described engagement structure, the suction port 5 having the high-pressure bearing 51 and the fixed frame 52 for supporting the fixed bearing 51 as an additional configuration. Is provided, the fixed bearing 51 is the end of the power shaft 43 is rotatably coupled to, the inlet (5) such as the suction pipe (P) is also connectable as shown in FIG. will be.

On the other hand, the present invention having a coupling relationship as described above as an operating state as shown in Figure 4; When operating the power motor (M), the power shaft 43 is to transmit the rotational force to the screw impeller (3) consisting of a plurality of coupling, the water through the inlet (5) by the rotational force of such a screw impeller (3) Is pumped and discharged to the discharge pipe 41.

At this time, in the screw impeller (3), the guide feather (21) has a function to prevent eddy phenomenon of pumped water and to smoothly induce the flow of pumping water, the anti-scattering film 33 of the screw impeller (3) The water pumped by the rotary centrifugal force is dispersed in all directions and has a function to prevent the pumping pressure from lowering.

Above, the pump pump for pumping according to the present invention, in the configuration of the impeller, the screw having a shatterproof film is accommodated and operated in the case member having the same diameter as the suction port and the discharge port to simplify the configuration by material cost and The cost of production is reduced.

In addition, the number of screw actuators are formed, and the quantity is assembled and used to be variable by the selective setting necessary for use, so that the increase and decrease of the pumping pressure according to the use environment and conditions can be arbitrarily adjusted, and the volume is reduced. The installation area is also greatly reduced, which provides a very remarkable effect to the user.

Claims (1)

The screw impeller 3 having the anti-scattering film 33 is inserted into the case member 2 having the coupler 21 and 21 'and the plurality of guide vanes 21 to operate with the rotation gap 11 therein. A sieve 1 is formed, and a plurality of such screw actuators 1 are formed, selectively engaged and variably installed on the case main body 4 having the discharge port 41 and the power shaft 43, and the suction port is provided. Combining with (5), the screw pump, characterized in that formed to be pumped by the rotation of the screw impeller (3).