KR970006208Y1 - Warm water circulating pump for cooling ability developed - Google Patents

Abstract

none

Description

Hot water circulation pump to improve water cooling effect

1 is a longitudinal sectional view showing the structure of a conventional hot water circulation pump

Figure 2 is a longitudinal sectional view showing the structure of the hot water circulation pump according to the present invention

Figure 3 (a) (b) is an illustration showing the main portion of the hot water circulation pump according to the present invention

(A) (b) of FIG. 4 is a cross-sectional view and a plan view of the lower bearing mounted on the hot water circulation pump according to the present invention.

* Description of the symbols for the main parts of the drawings *

1, 1-1: hot water circulation pump 2: pump housing

3: inlet 4: outlet

5: impeller 6: motor housing

7 stator 8 stator can

9: shaft 9-1: distributor

10: Rota 11: motor and shield

12: upper bearing 13: lower bearing

14: bearing holder 15: space

20 impeller 21 annular body

22: groove 23: wings

24: fixed body 25: lower bearing

26: Distribution Home

The present invention relates to a hot water circulation pump installed in the boiler system to force circulation of hot water, and more particularly, to improve the water cooling effect on the motor housing side, and more specifically, to the hot water circulation on the lower side of the rotor. By installing the impeller and improving the structure of the lower bearing to circulate the hot water flowing into the stator can to improve the water cooling effect on the motor housing side.

1 is a cross-sectional view showing the structure of a conventional hot water circulation pump (1) is operated as follows.

When power is input to the stator 7 of the motor housing 6, the rotor 10 is rotated and the shaft 9 on which the rotor 10 is condensed is rotated together with the rotor 10 so that the motor end shield 11 is rotated. The impeller 5 condensed on the upper side is rotated. When the impeller 5 is rotated, the hot water introduced into the impeller 5 through the inlet 3 of the pump housing 2 is circulated by the rotational force of the rotating impeller 5 and is discharged through the outlet 4. It is done.

The hot water circulating pump 1 operated in this way is introduced between the shaft 9 and the upper bearing 12 by the pressure of the impeller 5 in which the fluid introduced into the impeller chamber rotates into the stator can 8. The hot water filled and filled in the inside of the stator can 8 obtains a water cooling effect as a part of the counter current flows upward, and the hot water filled while the heat on the stator 7 side is also transferred to the stator can 8. A part is cooled by.

The conventional hot water circulation pump 1 is pointed out as the following disadvantages.

Since hot water in the impeller chamber is closely connected to the shaft 9, the upper bearing 12, and the motor shield 11, there is a problem that the amount of inflow is small and the lubrication effect is reduced, and the cooling effect is also poor, especially the stator Since the fluid introduced into the can 8 is not smoothly circulated to the outside, the water cooling effect is greatly reduced.

This problem causes a closed end that degrades the performance as the hot water circulation pump 1 is used for a long time.

The present invention has been made to solve such a problem, the purpose is to improve the water cooling effect and lubrication effect by forcibly circulating the hot water introduced into the stator can (8).

The present invention forms a distribution hole or a distribution groove for circulating fluid (hot water) in the existing shaft and the lower bearing, and installs a separate impeller for forcibly circulating the fluid in the lower side of the rotor, thereby circulating hot water more easily. It is a well known feature to make it possible.

The above object of the present invention, when the power is input to the stator 7 of the motor housing 6 by the upper bearing 12 and the lower bearing 25 of the bearing holder 14 fixed to the motor and shield 11 The rotor 10 is rotated together with the shaft 9 arranged therein, and the impeller 5 condensed on the upper side of the shaft 9 by the rotation of the rotor 10 rotates in the impeller chamber of the pump housing 2. In order to forcibly circulate the hot water flowing into the housing (2), the lower bearing for passing through the long hole 9-1 in the longitudinal direction in the center of the shaft (9) and supporting the lower end of the shaft (9) A plurality of distribution grooves 26 are formed in the longitudinal direction on the inner circumferential surface or the outer circumferential surface of 25, and the impeller 20 is provided on the lower shaft 9 of the rotor 10, but the plurality of distribution grooves 26 are provided on the bottom of the impeller 20. It is achieved by the hot water circulation pump, characterized in that the blades 23 are formed radially.

Since the present invention is constructed as described above, the fluid flowing into the stator can is circulated while being forced out to the outside through the distribution hole 9-1 of the shaft 9, thereby improving the cooling effect.

Hereinafter, specific embodiments of the present invention will be described in detail with reference to FIGS. 2 to 4.

2 is a hot water circulation pump 1-1 in which main parts are added to a conventional hot water circulation pump. The pump housing (2) and the motor housing (6) are divided by the motor and shield (11), and the impeller (5) is condensed on the upper side of the shaft (9) in the impeller chamber of the pump housing (2). A stator 7 and a rotor 10, which is a rotor, are provided inside the housing 6, and a shaft 9 is inserted into and fixed to the rotor 10.

A stator can 8 is provided between the stator 7 and the rotor 10.

This configuration is the same as the conventional hot water circulation pump (1).

Hereinafter, the structural features according to the present invention will be described in detail.

The impeller 20 which is integrated with the rotor 10 is mounted to the lower side of the rotor 10. As shown in (a) and (b) of FIG. 3, the impeller 20 has a fixed tube body 24 formed integrally inside the annular tube body 21, and a plurality of grooves 22 are equally spaced therebetween. In the groove 22, a plurality of wings 23 are formed radially.

The impeller 20 thus obtained is fixed while the fixed tube 24 is inserted into the shaft 9 and the upper side of the impeller 20 is in contact with the bottom surface.

The shaft 9 has a long through hole 9-1 in the longitudinal direction of its center.

The distribution hole 9-1 serves to raise the fluid flowing into the lower space 15 of the lower bearing 25 upward.

4, the structure of the lower bearing 25 is changed.

As shown, the distribution groove 26 may be formed in the longitudinal direction on the inner surface of the bearing, or may be formed on the outer surface, although not specifically shown, these distribution groove 26 has a function to distribute the hot water The same is done.

Reference numeral 14 denotes a conventional bearing holder for supporting the shaft 9 and the lower bearing 25, and a cavity 15 is formed between the shaft 9 and the inner side of the bearing holder 14, which is a conventional bearing holder. It is the same structure already formed also in the warm water circulation pump 1.

Hereinafter will be described the effect of the embodiment according to the present invention configured as described above.

When power is input to the stator 7, the rotor 10 having the impeller 20, the shaft 9 through which the distribution hole 9-1 is through, and the impeller 5 are rotated.

The hot water introduced into the impeller 5 through the inlet 3 is forced out by the impeller 5 and flows out through the outlet 4.

At this time, the fluid introduced into the impeller chamber is introduced into the gap between the shaft 9 and the upper bearing 12 and flows into the inside of the stator can 8. The inside of the impeller 20 rotates together with the rotor 10. Since the same function as the suction is maintained, a larger amount of hot water is sucked (inflowed) from the existing hot water circulation pump 1.

The introduced hot water is forced downward by the impeller 20 and is introduced into the space 15 through the distribution groove 26 of the lower bearing 25.

Since the hot water introduced into the space 15 is continuously sent to the lower side while the impeller 20 rotates, the hot water rises through the distribution hole 9-1 by the pressure, and the increased hot water is impeller 5. By forced circulation by the discharged through the outlet (4).

In this way, the hot water flowing into the inside of the stator can (8) during the hot water circulation pump (1-1) is forced to be forced to cool the heat generated in the rotor 10, and the stator (7) Since the heat of heat is also cooled by the hot water therein when it is transferred to the stator can 8, the cooling effect of the hot water circulation pump 1-1 can be increased.

In particular, since the impeller 20 has a plurality of blades 23 radially formed in the groove 22, it pushes the fluid (hot water) introduced into the stator can 8 downward, but does not flow back to the side and the upper side. Since it is possible to lower the hot water more effectively, and the pressure, that is, the pressure generated when the impeller 20 rotates, the distribution groove 26 of the distribution groove 26 and the shaft 9 of the lower bearing 25 Since forced hot water is circulated through -1), it is possible to make the most of the margin generated when operating the hot water circulation pump (1-1).

As described above, according to the present invention, the hot water in the impeller chamber is forcedly sucked down by the impeller 20 and downward through the distribution groove 26 of the lower bearing 25 and the distribution hole 9-1 of the shaft 9. Since the circulating discharge process is continued while the hot water circulation pump is operated, the cooling effect can be improved and thus it can be maintained continuously without degrading the original performance of the hot water circulation pump.

Claims (2)

When power is inputted to the stator 7 of the motor housing 6, the shaft 9 is formed by the upper bearing 12 fixed to the motor shield 11 and the lower bearing 25 of the bearing holder 14. The rota 10 is rotated together and the impeller 5 condensed on the upper side of the shaft 9 by the rotation of the rota 10 rotates in the impeller chamber of the pump housing, forcing hot water flowing into the pump housing 2. In that it is designed to circulate, The plurality of distribution grooves 26 are formed in the inner circumferential surface or the outer circumferential surface of the lower bearing 25 supporting the lower end of the shaft 9 through the length of the distribution hole 9-1 in the longitudinal direction in the center of the shaft 9. In the direction, the water cooling effect, characterized in that provided with an impeller 20 on the lower shaft 9 of the rotor 10, a plurality of wings 23 radially formed on the bottom surface of the impeller 20 Hot water circulation pump The method of claim 1, The impeller 20 integrally forms the fixed tube 24 inside the annular tube body 21, and a plurality of grooves 22 are provided at equal intervals between them, and the grooves 22 have wings 23, respectively. Hot water circulation pump to improve the water cooling effect, characterized in that formed