KR970010563B1 - Cooling water circulating method of warm water circulating pump - Google Patents

Abstract

The pump is designed to compulsorily circulate hot water. As power is applied to a fixer(31) of a motor housing(30), a rotor(32) and a shaft(40) rotate and an impeller(25) mounted on the shaft(40) is rotated in an impeller chamber(24) of a pump housing(21) divided by a motor-canned shield(26), thereby compulsorily circulating hot water. A curved projection(25-1) is formed to provide an inlet chamber(25-2) in the center of the inner bottom surface of the impeller(25). The projection(25-1) is provided with a plurality of outlet holes(25-3) apart from each other at a constant interval, and the motor-canned shield (26) is provided with a plurality of through holes(27). A tapered guide passage(43) is formed in the lengthwise direction at the center of the shaft(40) into which upper and lower bearings(33)(34) are inserted, so that the inlet chamber(25-2) of the impeller(25) is connected with a space(36) of a bearing holder(37).

Description

Hot water circulation pump with forced circulation of cooling water

1 is a cross-sectional view showing a conventional hot water circulation pump.

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

3a, b is an enlarged illustration showing the structure of the main portion according to the present invention.

* Explanation of symbols for main parts of the drawings

1, 20: hot water circulation pump 2, 21: pump housing

3, 22: inlet 4, 23: outlet

5, 24: impeller chamber 6, 25: impeller

7, 26: motor and shield 10, 30: motor hang

11, 31: stator 12, 32: rotor

13, 35: stator can 14, 40: shaft

15, 33: upper bearing 16, 34: lower bearing

17, 37: bearing holder 18, 36: space

41: annular groove 42: spiral inlet hole

43: guideway 44: yom home

The present invention relates to a hot water circulating pump capable of forcibly circulating hot water.

More specifically, the hot water introduced between the shaft and the upper bearing introduced into the impeller chamber and the hot water introduced into the inside of the stator can flow into the space of the bearing holder from the lower side of the shaft to be discharged through the guide hole holed in the center of the shaft. It relates to a hot water circulation pump to be carried out a circulation process.

It is a feature of the present invention to utilize the incoming hot water as a lubrication function and to improve the water cooling effect.

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

When power is input to the stator 11 of the motor housing 1, the rotor 12 condensed to the shaft 14 rotates, and the pump is divided into the motor shield 7 by the rotation of the shaft 14. The impeller 6 of the housing 2 is rotated in the impeller chamber 5, and the hot water introduced into the impeller 6 through the inlet 3 by the rotation of the impeller 6 is forced by the impeller 6. After being circulated, it is discharged through the outlet 4.

In this way, the hot water introduced into the impeller chamber 5 when the hot water circulation pump 1 is operated is partially introduced into the gap between the shaft 14 and the upper bearing 15, and introduced into the stator can 13. The hot water is reflowed up and flows into the impeller chamber 5 and is discharged together with the forced circulation of hot water to obtain a slight water cooling effect.

However, in the conventional hot water circulation pump 1, the following problems are pointed out as drawbacks.

Since the amount of hot water flowing in and out of the impeller chamber 5 and the stator can 13 is small, a good cooling effect cannot be obtained, and foreign substances introduced into the stator can 13 together with the incoming hot water are discharged to the outside. If it does not use the hot water circulating pump 1 for a long time in this state, these materials are solidified to lower the rotational force of the shaft 14 or even The problem of suppressing the rotation itself occurs.

Since the inflow and outflow of hot water is insignificant, the frictional heat due to the friction between the shaft and the bearing cannot be effectively cooled, and the friction between the shaft and the bearing is easily worn, causing a phenomenon that the rotor shaft swings. While rubbing against the inner wall of (13), the stator can 13 is broken, that is, the stator can 13 is torn or punctured to paralyze the sealing function.

When the shaft 14 rotates while swinging, the rotor 12 is severely contacted with the edges of the bearing and is subjected to resistance, so that the rotational force of the rotor 12 falls, and the impeller and the impeller 6 do not maintain the horizontality. Because of the rotation, the pumping force is lowered.

These problems act as a failure factor of the hot water circulation pump 1 and cause a shortening of the service life.

As a solution to the above problems, Japanese Utility Model Utility Model No. 44-15169 and Domestic Utility Model Model No. 88-12466 have been proposed.

The former has a plurality of distribution holes through the inside and outside of the morton shield, the distribution hole through the bearing supporting the shaft, the fluid passage through the longitudinal direction in the center of the shaft and through the outlet to communicate with the impeller chamber at the top It relates to a large motor pump, the latter is formed by forming only a spiral inlet hole in the upper and lower sides of the shaft in a normal hot water circulation pump.

However, since the former has a lot of holes through the motor and shield for introducing the circulation water into the stator can, too much circulation water is circulated for the cooling water, and a part of the circulation water circulated by the impeller There is a problem in that it is not discharged to the outside to reduce the pumping efficiency, and since the circulating water used for the cooling water is discharged to the lower side of the impeller through the fluid passage of the shaft, a part of the circulating water that has been used is introduced into the stator can. There was also a problem that the cooling effect is lowered by repeating the circulation that is introduced again, there is no means for circulating the circulation water on the outer periphery of the shaft has a problem that a lot of heat is generated between the shaft and the bearing supporting it. Therefore, it is not easy to apply this in a small hot water circulation pump such as the present invention.

In addition, the latter has a hot water flow into the inlet formed in the outer periphery of the shaft and plays a role of lubrication between the bearings supporting it, but the circulation function for cooling is inadequate, resulting in a lot of heat due to low cooling effect. When used for a long time, there was a problem of dropping the pumping function while weakening the magnetization power.

The present invention is to provide a new and improved hot water circulation pump to solve these problems to overcome the problems and the end of the conventional hot water circulation pump.

The above and other objects according to the present invention, when power is input to the stator 31 of the motor housing 30, the rotor 32 is fixed to the shaft 40 is rotated with the shaft 40 and the shaft 40 The upper and lower bearings in the hot water circulation pump configured to force circulation of hot water while the impeller 25 condensed on the upper side is rotated in the impeller chamber 24 of the pump housing 21 partitioned by the motor and shield 26. Spiral inlet hole 42 is formed in the upper and lower outer peripheral surface of the shaft 40 supported by the (33) (34), the guide pipe passage 43 is through the inner center and a plurality of distribution holes in the motor and shield 26 ( In the through hole 27, a protrusion 25-1 having an inflow chamber 25-2 is formed at the center of the bottom of the impeller 25, and a plurality of discharge holes 25-are formed in the protrusion 25-1. 3) and through the inner center of the shaft 40 through the through hole (43) is formed in the upper and lower strait and a plurality of annular groove (41) in the upper outer circumference ) And the spiral inlet 42 formed at the lower side of the shaft 40 is located in the bearing 34 when the upper inlet is not in operation, and is exposed upward by the thrust of the impeller 25 during operation. It is achieved by the hot water circulation pump 20 of the forced circulation system of the cooling water, characterized in that it is built, in particular, the annular groove 41 formed in the upper portion of the shaft 40 is the thrust according to the rotation of the impeller 25 Cooling water characterized in that the upper and lower ends of the bearing 33 in the upper and lower ends of the bearing 33 so that the shaft 40 is not locked at the edge of the bearing 33 when the shaft 40 is raised It is achieved by the hot water circulation pump 20 of the forced circulation method.

Since the present invention is as described above, it is possible to achieve the desired purpose while forcibly circulating the hot water, that is, the water-cooling effect and the foreign matters are laminated and solidified, and the purpose of preventing the shaft and the bearing from being worn by the lubrication function.

The above and other objects, features, and effects of the present invention will be more clearly understood by the following description based on the accompanying drawings.

Reference numeral 21 denotes a pump housing 21 in which the inlet 22 and the outlet 23 are perforated in opposite directions and an impeller chamber 24 is provided at the center thereof.

In the impeller chamber 24 of the pump housing 21, the impeller 25 is condensed on the upper side of the shaft 40 which is raised through the motor and shield 26.

The impeller 25 has a protrusion 25-1 formed at the center of the bottom plate, and an inflow chamber 25-2 is formed at the upper end of the shaft 40, and a plurality of inflow chambers 25-2 are formed therein. Four discharge holes 25-2 are communicated at equal intervals and communicate with the inside of the impeller 25.

Reference numeral 30 denotes a motor housing in which an annular stator 31 is fixed therein. A stator can 35 is provided at an inner circumference of the stator 31, and a rotor inside the stator can 35. A shaft 40 having a 32 is built up by the motor shield 26 and the bearing holder 37, and the top bearing 33 and the bottom bearing 34 are built in such a way that they can be easily rotated. Lose.

The shaft 40 has a structure as shown in FIGS. 3 and 4 (a) and (b).

The shaft 40 into which the upper bearing 33 and the lower bearing 34 are inserted is provided with a plurality of annular recesses 41 and spiral inlet holes 42 on the upper and lower outer peripheral surfaces thereof.

The annular groove 41 may be maintained horizontally or inclined in an inclined manner, and when it is inclined, it is preferable that the angle is within 45 ° so that the introduced hot water (fluid) is not rapidly discharged.

In addition, the upper and lower ends of the annular recess 41 and the spiral inlet hole 42 formed on the upper and lower sides are formed somewhat higher and lower than the upper and lower ends of the upper and lower bearings 33 and 34 to easily inflow and outflow. It could be.

In addition, the center of the shaft 40 through the guide pipe path 43 through the upper and lower strait. By passing the guide pipe 43 through the upper and lower straits as described above, the inflow force and speed of the inflow side (lower portion) and the pressure and speed of the discharge side of the discharge side (upper side) can be changed.

Hereinafter, the operation and effect of the hot water circulation pump 20 according to the present invention.

When power is input to the stator 31 of the motor housing 30, the shaft 40 of the rotor 32 is rotated, the impeller 25 divided by the motor shield 26 is rotated, and the impeller 25 is rotated. Rotation of the hot water is forced to the inside of the impeller 25 through the inlet 22 of the pump housing 21 and then discharged through the outlet 33.

When the hot water circulation pump 20 is operated as described above, a part of the hot water introduced into the impeller chamber 24 through the inlet 22 is introduced into the bottom portion 24-1 of the impeller chamber 24, and the impeller A portion of the hot water is introduced into the annular groove 41 of the shaft 40 through the distribution hole 27 by the pressure generated by the rotation of the 25, and the hot water introduced into the annular groove 41 on the uppermost side. Is gradually lowered along the connection surface.

Since the contact area between the annular groove 41 and the upper bearing 33 is less, the resistance due to rotation is reduced, and the annular groove 41 is filled with hot water, so that the shaft 40 is formed continuously. Lubrication functions to rotate more smoothly.

In particular, the hot water flowing into the annular groove 41 is the same pressure is generated around 360 ° as shown in (a) of Figure 4, the shaft 40 is to maintain a vertical state without tilting .

The hot water downward along the annular recess 41 is filled in the stator can 35.

Filled hot water is forcibly introduced into the spiral inlet hole 42 formed at the lower side of the shaft 40, and foreign substances included in the hot water are also introduced together.

The hot water is introduced into the space 36 by the pressure of the spiral inlet 42 according to the rotation of the shaft 40, and then the hot water guides the guide pipe path 43 of the upper and lower straits as shown in (b) of FIG. 4. Ride up.

At this time, since the pressure P ₁ of the inlet side is higher than the pressure P ₂ of the outlet side, the hot water flows in the inlet side quickly, and the hot water flows out slowly in the outlet side. .

The hot water is ascended along the guide pipe 43 of the Sangkwang subsidiary, is reintroduced into the impeller 25 through the discharge hole 25-3 in the inflow chamber 25-2, and is forcibly discharged.

As described above, since the hot water circulation pump 20 according to the present invention forcibly circulates the hot water, foreign matters impregnated in the hot water are prevented from being stacked on the upper portion of the bearing holder 37 and the space portion 36. ) Can prevent solidification by foreign matters, and as the water film is formed by the hot water introduced into the annular recess 41 and the spiral inlet hole 42, the dry friction is completely excluded, thereby preventing wear of the connecting portion. Will be.

In particular, the hot water discharged through the discharge hole 25-3 compensates the phenomenon that the inlet of the impeller 25 is in a low pressure state, thereby preventing the impulse rotation of the impeller 25 and reducing the occurrence of noise. You can get it.

In addition, the shaft 40 is formed in the guide pipe path 43 of the upper and lower straits inside, so when the shaft 40 is molded, the guide pipe path 43 serves as a subtraction gradient of the inner core. It can be solved.

Claims (2)

When power is input to the stator 31 of the motor housing 30, the rotor 32 condensed on the shaft 40 rotates together with the shaft 40, and the impeller 25 condensed on the upper side of the shaft 40. ) Is supported by the upper and lower bearings 33 and 34 in the hot water circulation pump which is forced to circulate hot water while rotating in the impeller chamber 24 of the pump housing 21 divided by the motor and shield 26. In the upper and lower outer circumferential surface of the shaft 40 is formed, the spiral inlet 42 is formed, the guide pipe 43 through the inner through hole and the plurality of distribution holes 27 through the motor shield 26, the impeller Forming a protrusion 25-1 provided with an inflow chamber 25-2 at the center of the bottom of the bottom 25, and passing the plurality of discharge holes 25-3 through the protrusion 25-1; The guide pipe path 43 through the inner center of the 40 is formed by the upper and lower straits, and the plurality of annular grooves 41 are formed in the upper outer circumference, and the lower part of the shaft 40 The spiral inlet hole 42 formed in the hot water of the forced water circulation system is characterized in that the upper inlet is located in the bearing 34 when not in operation and is exposed upward by the thrust of the impeller 25 during operation. Circulation pump. The annular recess 41 formed in the upper portion of the shaft 40, the shaft 40 is the bearing 33 when the shaft 40 is raised by the thrust according to the rotation of the impeller 25 Hot water circulation pump of the forced circulation method of the cooling water, characterized in that the upper and lower annular groove (41) formed on the upper and lower edges of the bearing (33) so as not to lock at the edge.