KR970000963Y1 - Fluid circulating separating plate - Google Patents

Abstract

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Description

Separator for Fluid Circulation Pump

1 is a plan view of the present invention.

2 is a cross-sectional view taken along line A-A of the present invention.

Figure 3 is an overall longitudinal cross-sectional view of the fluid circulation pump coupled to the separator of the present invention.

* Explanation of symbols for the main parts of the drawings

1: body 2: rotor

3: rotor shaft 4: housing

5: driving magnet 6: impeller shaft

7: impeller 8: driven magnet

9: impeller case 10: separator

11: insertion hole 12: groove

13 end portion 14: protrusion

The present invention mainly relates to a separator that separates the pump unit for circulating the moti part for generating power and the oil rapeseed in the fluid circulation pump that is adopted in the boiler system to circulate the hot water.

In more detail, the rotor side and the impeller side of the pump part of the morty part are separated and separated by a separator plate, and the rotating force of the rotor side is led by the impeller side by a pair of magnets provided on the upper and lower sides of the separator plate. In the circulation pump for the boiler to rotate the motor and the pump unit is separated from each other and the upper side is to improve the separator that the impeller shaft is fixed upright.

In the conventional separator, an impeller shaft is fixed by a heat welding method by forming an insertion hole in the upper inner side of the protruding end which protrudes downward from the center, and an impeller having a driven magnetic is pivotally installed on the impeller shaft.

However, since the separator is formed of an industrial resin material, due to the self-weight of the impeller coupled to the impeller shaft and the pressure of the circulating fluid, the separator is squeezed downward and warped due to the passage of time. There was a problem that the noise is generated and the drive can not be driven smoothly with friction with the drive magnet.

Therefore, the present invention is designed to solve the above problems, and forms a plurality of small protrusions on the lower side of the separator plate and heat-bonds by forming a plurality of recessed grooves on the inner circumference of the insertion hole formed inside the protruding end. The purpose of this is to prevent the phenomenon of the deflection of the separator so that the impeller shaft can be more easily fixed to prevent noise and slip due to eccentricity and to allow smooth driving force to be exerted.

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

1 is a plan view showing the separator 10 according to the present invention, and FIG. 2 is a cross-sectional view taken along the line A-A.

A plurality of protrusions 14 having a constant size are equidistantly arranged on the lower axis surface of the separator 10 having a disk shape in which the impeller shaft 6 is fixed to the insertion hole 11 of the protruding end portion 13 formed at the center lower side. Protruding into the inner periphery of the insertion hole 11 is formed so that the concave-convex groove 13 is outwardly formed at intervals of 120 ° so that the impeller shaft 6 can be more easily coupled.

Reference numeral 15 is a fastening hole for inserting the bolt when engaging the body 1 and the impeller case (9).

The separator 10 according to the present invention configured as described above has the insertion hole 11 when the impeller shaft 6 is inserted and fixed in the insertion hole 11 smaller than the outer diameter of the impeller shaft 6. Since the melt is extended to a plurality of grooves 12 provided on the inner circumference and solidified, the impeller shaft 6 can be fixed and accumulated at an easy and accurate center.

In addition, the separator 10 is firmly supported by protrusions 14 protruding downwardly between the outer circumference and the center.

The separator 10 according to the present invention has an impeller 7 having a driven magnet 8 rotatably installed in the body of an impeller shaft 6 fixed upright in the center thereof as shown in FIG. 3. It is interposed between (1) and the impeller case (9) and is fixed by a fastening means such as a bolt nut. When power is input to the stator of the main body 1, the inner rotor 2 is rotated and the housing 4 coupled to the upper end of the rotor shaft 3 is rotated, so that the passive magnet 5 also rotates, The driven magnet 8 located on the upper side of the separator 10 rotates the impeller 7 by interlocking by magnetic force.

At this time, the fluid (hot water) introduced through the inlet is discharged through the outlet (not shown) after being forced to the impeller (7). When the fluid is circulated by such an operation, the pressure of the water circulated and the weight of the impeller shaft 6 to which the impeller 7 is coupled reach the separator 10, and the separator 10 sags downward. The phenomenon is going to occur, but the protrusion 14 protruding from the lower side of the separator 10 binds the separator 10, thereby preventing the separator 10 from being bent, and the separator 10 may be Even if a bending occurs, the protrusion 14 is supported while being connected, thereby preventing the separator 10 from being bent as an effect. In particular, the protrusion 14 makes point contact with the rotating driving magnet 5. Its small area allows it to rotate with very little frictional noise.

As described above, according to the present invention, when the impeller shaft 16 is fixed, the magnetic force loss caused by the eccentricity and the inclination can be easily fixed to the center of the separator 10 without eccentricity by the groove 12. It is possible to prevent the occurrence of slip and noise due to, and also by the protrusions 14 provided on the lower side, the separation plate 10 is prevented from friction due to the strengthening of the binding force is eliminated because the phenomenon is lowered. It will be able to improve the driving force.

Claims (1)

When power is supplied to the stator of the main body 1, the rotor shaft 3 rotates together with the rotor 2, and the housing 4 in which the driving magnet 5 is embedded is rotated, and the impeller shaft of the separator 10 is rotated. In the separator (10) in which the impeller shaft (6) is fixed upright in a fluid circulation pump that circulates the fluid while the impeller (7) installed in (6) is rotated by the interlocking of the driven magnet (8). On the inner circumference of the insertion hole 11 formed in the protruding end 13 of the plurality of grooves 12 are outwardly concave, and the lower surface between the outer circumference and the center of the plurality of protrusions 14 downwardly at equal intervals Separator for fluid circulation pump, characterized in that.