KR101423294B1 - Hot water circulating pump - Google Patents

Abstract

The present invention relates to a hot-water circulating pump capable of having an improved cooling property to secure the smooth operability thereof, capable of being easily maintained, capable of being maintained at low costs, and capable of having an improved quality and durability. The hot-water circulating pump according to the present invention comprises: a pump casing cover having an inlet and an outlet through which hot water to be circulated flows into the pump and is discharged from the pump; and a motor housing coupled to the rear side of the pump casing cover, and internally having a motor to drive an impeller which is capable of discharging the hot water through the outlet after allowing the hot water to flow into the pump through the inlet, wherein the motor includes: a shaft maintained at the axial center of the motor housing by a bush, and having the impeller mounted on the front side thereof; and a rotor assembly and a stator assembly mounted at the central position of the shaft, and receiving electricity to generate power required to drive the impeller. The hot-water circulating pump according to the present invention further includes a cooling unit to cool heat generated when the rotor assembly and the stator assembly are operated, wherein the cooling unit has cooling oil filling the motor housing having the rotor assembly and the stator assembly housed therein.

Description

HOT WATER CIRCULATING PUMP

The present invention relates to a hot water circulating pump, and more particularly, to a hot water circulating pump which is installed in a boiler or the like and supplies heated hot water (heating water) to a heating area, pumps heated water cooled by heat exchange in a heating area, So that the cooling efficiency of the pump is increased.

Various types of hot water circulating pumps used in boilers and the like have been developed and used. The technical content of such a general hot water circulating pump will be described with reference to FIG.

A pump casing cover 4 having an inlet port 2 and an outlet port 3 for introducing and discharging hot water to be circulated is provided in front of the pump 1 for circulating hot water, The casing cover 4 is provided at its rear with a motor housing 7 having a motor 6 for driving the impeller 5 capable of discharging hot water through the inlet port 2 and then discharging hot water through the outlet port 3 ).

The motor 6 installed in the motor housing 7 is supported by a shaft 8 at the center of the motor housing 7 in the axial direction and a shaft 9 mounted on the side of the impeller 5 And a rotor assembly 10 and a stator assembly 11 are installed at an intermediate position of the shaft 9 so as to generate power required to drive the impeller 5 by receiving power.

The cooling unit 12 is further provided with a cooling unit 12 for cooling the heat generated during operation of the rotor assembly 10 and the stator assembly 11. The cooling unit 12 includes a lower assembly 10, A rotor can 13 and a stator can 14 made of a stainless steel material are provided outside the assembly 11 so as to block the flow of cooling water into the rotor assembly 10 and the stator assembly 11, .

A fine cooling water gap 15 is formed between the shaft 8 and the shaft 9 and between the rotor can 13 and the stator can 14 so that cooling water can be supplied by rotation of the impeller 5 have.

Patent Application No. 10 - 1995 - 0013137 Patent Application No. 10 - 1995 - 0013139 Patent Application No. 10 - 1995 - 0018217 Patent Application No. 10 - 1995 - 0018218 Patent Application No. 10 - 1996 - 0024026

Since the stator coil constituting the stator assembly is naturally cooled in the closed structure, the impregnating operation is required. In the hot water circulating pump to which the conventional technique is applied, the harmful substances are generated due to the impregnation operation, The rotor assembly always has cooling water. Therefore, there is a high possibility that condensation will occur according to the temperature change of the cooling water. In this case, the insulation breakdown phenomenon of the coil occurs and the operation of the motor becomes impossible .

The process of the rotor assembly is complicated and the cost is high, which causes a rise in the cost of the pump. If the rotor assembly is not precisely machined, it may cause interference or sticking with adjacent components, The manufacturing process of the pump is complicated and the number of components is increased, which causes the external competitiveness due to the overall cost increase to be weak.

The biggest problem in the prior art is that a cooling water gap must be formed between the can and the can which seal the rotor and stator assembly for circulation of the cooling water, and when they are not precisely machined, they are connected Circulation of the cooling water becomes impossible, and as a result, the motor is not cooled and the operation is disabled.

Since the process of circulating the cooling water and circulating it is continuously and repeatedly performed, a scale caused by the cooling water suddenly occurs after a certain period of time. When such a scale is accumulated in the cooling water gap composed of minute gaps, The pump can not be used due to the inability of the motor to operate.

Further, when the scale is accumulated in the cooling water gap, the motor constituting the pump or the pump can be easily separated, and the scale can not be removed and reused. Therefore, when there is scale accumulation, There are many problems such as unnecessarily large maintenance costs and shortening the life of pump.

Accordingly, the present invention has been made to solve the above problems, and it is an object of the present invention to provide a pump casing cover having an inlet and an outlet for introducing and discharging hot water to be circulated, A shaft housed in the center of the motor housing in the axial direction of the motor housing and mounted on the side of the impeller, and a motor connected to the motor housing, the motor housing including a motor for driving the impeller capable of discharging hot water through a rear outlet, And a rotor assembly and a stator assembly for receiving a power source at an intermediate position of the shaft to generate power required to drive an impeller, the pump comprising:

The cooling device further includes cooling means for cooling the heat generated during the operation of the rotor assembly and the stator assembly, wherein the cooling means is configured by filling the inside of the motor housing accommodating the rotor assembly and the stator assembly with cooling oil.

It is possible to achieve the object of improving the cooling property of the pump to ensure smooth operation while providing ease of maintenance while reducing the cost and improving the quality and durability of the pump.

Since the cooling of the rotor and the stator assembly of the motor constituting the hot water circulating pump is performed by the oil, the number of related parts is greatly reduced, the manufacturing of the pump is facilitated, the production cost can be reduced, It is possible to improve the quality of the pump by extending the service life of the pump because it does not require any time or cost required for maintenance even in long-term use.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view showing a front view of a hot water circulating pump to which the technique of the present invention is applied. FIG.
Fig. 2 is a schematic view showing a cross-sectional state of a pump for circulating hot water to which the technique of the present invention is applied. Fig.
FIG. 3 is a view showing an important part of a hot water circulation pump to which the technique of the present invention is applied. FIG.
4 is a view showing a pump for hot water circulation to which a conventional technique is applied.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a perspective view showing a front view of a hot water circulation pump to which the technology of the present invention is applied, FIG. 2 is a sectional view of a pump for hot water circulation to which the technique of the present invention is applied, A description will be given of the important parts of the hot water circulating pump to which the technique of FIG.

A conventional hot water circulation pump 100 is provided with a pump casing cover 103 having an inlet 101 and an outlet 102 for introducing and discharging warm water to be circulated in front and a pump casing cover A motor housing 106 incorporating a motor 105 for driving the impeller 104 capable of discharging hot water through the discharge port 102 after introducing the hot water through the inlet port 101 do.

The motor 105 is supported by a shaft 107 such as a bush in the axial center of the motor housing 106 and is provided with a shaft 108 mounted with an impeller 104 on its side, A rotor assembly 110 and a stator assembly 111 are installed at an intermediate position of the rotor 108 so as to generate power required to drive the impeller 104 by receiving power.

The present invention provides an improved cooling means 115 for rapidly cooling the heat generated during the operation of the rotor assembly 110 and the stator assembly 111 constituting the motor 105 .

The cooling means 115 may be configured to cool the heat generated in the rotor assembly 110 and the stator assembly 111 inside the motor housing 106 housing the rotor assembly 110 and the stator assembly 111 And incorporates cooling oil 116 therein.

The cooling oil 116 includes a front oil cover 117 for closing the front side of the motor housing 106 and the side of the shaft 108 and a rear side of the motor housing 106 and a rear side of the shaft 108 are connected to the motor housing 106 The rear oil cover 118 is integrally formed on the rear side of the rear cover 120. As shown in FIG.

An airtight member 121 such as an O-ring is buried between the outer circumferential surface 119 of the front oil cover 117 and the inner circumferential surface 120 of the motor housing 106 to prevent leakage of the cooling oil 116, The cooling oil 116 is prevented from leaking through the retainer 123 between the inner circumferential surface 122 of the front oil cover 117 and the outer circumferential surface of the shaft 108. [

An oil hole 125 is formed in the rear oil cover 118 so that the oil hole 125 can be exchanged with the injection of the cooling oil 116. An oil cap 127 So that leakage of the cooling oil 116 can be prevented.

The oil cap 127 may be made of a translucent or transparent material so that it can visually check the state of the cooling oil in the oil cap 127 so that it can be easily replenished or checked for replacement time.

Of course, the epoxy molding 130 is performed at the position of the lead wire 129 for applying power to the stator coil 128 of the stator assembly 111 through the motor housing 106, So that the leakage phenomenon of the oil 116 can be eliminated.

The use of the hot water circulation pump 100 to which the technique of the present invention is applied will be described as follows.

The motor 105 receiving the external power is operated to rotate the shaft 108 and the hot water is introduced into the inlet 101 by the impeller 104 mounted on the shaft 108, It is a well-known fact that the circulation in the form of supply to the region occurs.

Advantages obtained by using the hot water circulation pump 100 to which the technique of the present invention is applied are as follows.

Since the inside of the motor housing 106 is filled with the cooling oil 116, no separate impregnation is required for the rotor and stator assemblies 110 and 111, thereby eliminating the environmental problems that may be caused by the impregnating liquid, .

Since the motor housing 106 currently in use can be used as it is, there is no need to separately process or manufacture the motor housing 106, so that it is possible to provide ease of production and assembly, and consequently to reduce the production cost It has advantages.

Since it is possible to finish with the single lead wire 129 and the epoxy molding 130 without requiring a separate wire for power supply from the outside to the motor 105, the related work can be remarkably reduced, The foreign matter can be completely introduced and insulated.

Since the cooling oil 116 filled in the motor 105 has cooling and insulation and lubrication functions, it is possible to improve the insulation performance of the motor 105 as well as to improve the cooling performance and to have a lubricating effect of the shaft and the bearing water at the same time So that the smooth operation can be ensured without the fixing of the shaft, and the filled cooling oil cancels the noise generated during the operation of the rotor assembly 110 and the stator assembly 111 and absorbs the vibration, The quality and durability of the pump can be improved.

It is possible to prevent the hot water requiring pumping and the cooling oil 116 in the motor 105 from completely blocking (separating) the hot water and the cooling oil 116. The oil cap 127 It is possible to visually check the state of the cooling oil 116 filled in the motor 105 through the oil circulation pump 110 and the oil circulation pump 110 to easily confirm the replacement and replenishment timing, thereby providing ease of maintenance and the like.

100; Pumps for hot water circulation
103; Pump casing cover
105; motor
106; Motor housing
108; shaft
110; Rotor assembly
111; Stator assembly
115; Cooling means
116; Cooling oil
117; Front oil cover
123; Retainer
125; Oil hole
127; Oil cap
130; Epoxy molding

Claims (4)

A pump casing cover having an inlet and an outlet for introducing and discharging hot water to be circulated;
A motor housing coupled to the pump casing cover with a motor for driving the impeller capable of discharging the hot water through the discharge port after introducing the hot water through the inlet port to the rear of the pump casing cover;
The motor includes a shaft which is held at a center of the axial direction of the motor housing and is mounted on an impeller side of the motor housing;
And a rotor assembly and a stator assembly for receiving a power source at an intermediate position of the shaft to generate power required to drive an impeller, the pump comprising:
Further filling the interior of the motor housing with cooling oil to cool the heat generated during operation of the rotor assembly and the stator assembly;
The cooling oil includes a front oil cover closing the front of the motor housing and the shaft side;
A rear oil cover integrally formed at the rear of the motor housing to close the rear of the motor housing and the rear side of the shaft;
An airtight member interposed between an outer peripheral surface of the front oil cover and an inner peripheral surface of the motor housing;
A retainer interposed between the inner peripheral surface of the front oil cover and the outer peripheral surface of the shaft;
Wherein an oil cap formed in an axial center of the rear oil cover is screwed to an oil hole through an airtight member to prevent leakage of the cooling oil. delete delete delete

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