KR100220004B1 - A structure for gear pump - Google Patents

Abstract

The present invention relates to a trocoid gear pump structure, and in the related art, since only one inlet / outlet for suctioning / discharging the working fluid of the pump is formed, it is not possible to pump different working fluids of the pump as well as the same working fluid. There was a problem in that it does not provide a variety of uses, such as the pressure and flow rate can not be supplied to two different places when pumping.

Accordingly, the present invention has been made to solve the above problems, the operation of the pump by forming the intermediate gear having the internal gear and the external gear shape corresponding to the internal gear and the external gear to rotate while being engaged by the same motor shaft. It is possible to have a plurality of inlets and outlets for sucking and discharging the fluid, so that the pump can pump different working fluids, and also provide the advantage of supplying the pressure and flow rate to two different places when pumping the same working fluid. It is to improve the pumping operation performance of the back pump, and to sufficiently perform the function of the two-stage gear pump to generate the high pressure required for the pumping operation of the pump.

Description

Gear pump structure

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a trocoid gear pump, in particular an inlet and an outlet for adding and discharging a working fluid by adding an inner gear and an intermediate gear having a corresponding outer and outer gear shape so as to rotate while being engaged by the same motor shaft. It relates to a gear pump structure for forming a plurality of each.

As shown in FIGS. 1 and 2, the conventional trocoid gear pump structure is connected to a motor shaft (not shown) and rotates with respect to the inner gear 1 and the inner gear 1 while being engaged with the inner gear 1. The outer gear 2 having the eccentric e and the same rotation, and the outer circumferential surface of the outer gear 2 are seated while maintaining a minute gap inside the casing 3, and are coupled to the casing 3 Consisting of the cover 4 formed with the connection of the inlet 4A and the outlet 4B, the number of gear teeth of the inner gear 1 is designed to be one less than the number of gear teeth of the outer gear 2.

Hereinafter, reference numeral 3a denotes an o-ring groove to prevent fluid from leaking between the casing 3 and the cover 4.

Referring to the operation of the conventional trocoid gear pump configured as described above are as follows.

First, when the motor shaft is rotated using a motor (not shown) of the gear pump, the external gear 2 simultaneously rotates in the same direction so that the inner gear 1 connected to the motor shaft rotates in a clockwise direction and engages therewith. It turns.

At this time, since the inner gear 1 and the outer gear 2 have an eccentricity (e) with respect to the center point, the clearance between the inner gear (1) and the outer gear (2) in accordance with the rotation of the eccentric (e). As the working fluid of the pump sucked through the inlet (A) is formed to be widened is confined to continue to be compressed.

Then, the working fluid of the pump compressed while being trapped between the inner gear 1 and the outer gear 2 is discharged through the outlet B formed by the contact points of the inner gear 1 and the outer gear 2 again. As a result, the gear pump can operate as a high pressure oil pump.

However, in the conventional trocoid gear pump, since only one inlet (A) and outlet (B) are formed to suction / discharge the working fluid of the pump, the same pump is not only able to pump different working fluids, but also the same. When pumping the working fluid, there was a problem that the pressure and flow rate could not be supplied to two different places and thus could not provide a variety of uses.

Accordingly, the present invention has been made to solve the above problems, the object of which is to form an intermediate gear having the internal gear and the external gear shape corresponding to the internal gear and the external gear to rotate while being engaged by the same motor shaft, It is possible to pump a different working fluid of the pump by allowing a plurality of inlets and outlets to intake / discharge the working fluid of the pump, as well as supplying the pressure and flow rate to two different places when pumping the same working fluid. It is intended to greatly improve the pumping performance of the pump.

Another purpose is to be able to sufficiently perform the function of the two-stage gear pump to generate the high pressure required for the pumping operation of the pump.

1 is a plan view showing the structure of a conventional gear pump.

Figure 2 is a plan view showing a cover structure of a conventional gear pump.

3 is a state diagram of the coupling between the internal and external gears and the intermediate gear of the present invention, b is a side cross-sectional view thereof.

4 is a plan view showing the cover structure of the gear pump of the present invention, b is a side cross-sectional view thereof, c is a bottom view thereof.

5 is a plan view showing the casing structure of the gear pump of the present invention, b is a side cross-sectional view thereof, c is a bottom view thereof.

6 is a plan view showing a coupled state of the gear pump, b is a side cross-sectional view thereof.

Figure 7 is an embodiment of the gear pump structure of the present invention.

The configuration of the gear pump structure of the present invention for achieving the above object is as shown in Figures 3 to 6 attached,

The outer gear shape corresponding to the inner gear 1 is machined on the inner circumferential surface, and the inner gear shape corresponding to the outer gear 2 is machined on the outer circumferential surface so as to rotate by the same motor shaft (not shown). An intermediate gear 10 in which a guide groove 10a into which the unevenness 4a of the cover 4 is inserted is processed; To form

The outer gear shape of the intermediate gear 10 is engaged with the inner gear 1 at a distance from the center of the inner gear 1 by an eccentricity e1, and the inner gear shape processed on the outer circumferential surface of the intermediate gear 10 and its It is characterized in that the external gear 2 is engaged with the eccentric amount e2 in the same direction as the eccentric amount e1 from the center.

Referring to the operation and effect of the gear pump structure of the present invention configured as described above are as follows.

First, when the motor shaft is rotated using a motor (not shown) of the gear pump, as shown in FIG. 3A, the inner gear 1 connected to the motor shaft rotates in a clockwise direction, and the inner gear ( The inner gear shape formed on the outer circumferential surface of the intermediate gear 10 is also rotated in the same direction as the middle gear 10 having the outer gear shape formed on the inner circumferential surface thereof while falling by the eccentricity e1 from the center to engage with 1). The outer gear 2 which is spaced apart from the center by the eccentric amount e1 in the same direction as the eccentric amount e1 is also rotated in the same direction.

That is, since the guide groove 10a is machined in the intermediate gear 10 so that the unevenness 4a of the cover 4 can be inserted, the intermediate gear is centered around the eccentric amount e1 from the center of the inner gear 1. The outer gear 2 is rotated so that the outer gear 2 is the same as the eccentric amount e1 and the inner gear 1, the intermediate gear 10 and the outer gear 2 connected to the same motor shaft are the same. It will rotate in the direction.

At this time, since the intermediate gear 10 that rotates in the same direction has an eccentric e1 based on the center point of the inner gear 1, the inner gear 1 and the intermediate gear 10 according to the rotation of the eccentric e1. An inner inlet C and an inner outlet D corresponding to the cover 4 are formed between the inner circumferential surface of the outer gear shape by the contact point and the gap is widened.

In addition, since the external gear 2 and the intermediate gear 10 are separated by the eccentric amount e2 in the same direction as the center point eccentricity e1 of the inner gear 1, the outer gear 2 and the intermediate gear 10 are formed on the outer circumferential surface of the intermediate gear 10 according to the rotation of the eccentric e2. The outer inlet E and the outer outlet F are formed between the inner gear shape and the outer gear 2 formed by the contact point widening the gap.

Therefore, the working fluid of the pump is sucked through the inner inlet / outlet (C, D) and the outer inlet / outlet (E, F) to be formed and discharged at high pressure, so that the gear pump can function as a high pressure oil pump. Will be.

On the other hand, Figure 7 shows an embodiment of the gear pump structure of the present invention, the outer gear shape of the intermediate gear 10 is meshed with the inner gear (1) at a distance eccentrically e1 from the center of the inner gear (1). The outer gear (2) is to be engaged with the inner gear shape machined on the outer circumferential surface of the intermediate gear (10) and the eccentric amount (e2) in the direction opposite to the eccentric amount (e1) from the center,

The gear pump may perform a two-stage function by changing the contact point between the inner gear 1 and the intermediate gear 10 and changing the positions of the inner inlet C and the inner outlet D formed thereby.

Therefore, the working fluid sucked through the outer inlet E formed by the contact point between the outer gear 2 and the intermediate gear 10 is discharged through the outer outlet F, but the outer outlet F is The working fluid discharged through is again sucked by the inner inlet C and then discharged through the inner outlet D.

Here, the suction at the inner inlet (C) may be discharged through the inner outlet (D), and the discharged working fluid may be discharged at the outer inlet (E) and then discharged through the outer outlet (F).

That is, since the cover 4 has only one inlet A and one outlet B, the outer inlet F and the inner inlet C in the casing 3 of the gear pump C or the outer inlet at the inner outlet D. What is necessary is just to comprise the flow path connected to (E)}, and since the following structures and working effects are the same as that of FIG.

As described above, the present invention forms an intermediate gear having internal and external gear shapes corresponding to the internal gear and the external gear so as to rotate while being engaged by the same motor shaft, thereby allowing the inlet and the outlet to suck and discharge the working fluid of the pump. Pumps can pump different working fluids, as well as supplying the pressure and flow rate to two different locations when pumping the same working fluid. On the other hand, it is possible to sufficiently perform the function of the two-stage gear pump has the effect of generating a sufficient high pressure required for the pumping operation of the pump.

Claims (2)

An inner gear 1 connected to a motor shaft (not shown) and rotating, an outer gear 2 that is rotated in the same manner while engaging the inner gear 1 and having an eccentricity e with respect to its center point; In the gear pump consisting of a casing casing (3), the outer peripheral surface of the outer gear (2) is processed to be seated while maintaining a fine gap, and the cover (4) is coupled to the casing (3), the inlet and outlet, The outer gear shape corresponding to the inner gear 1 is machined on the inner circumferential surface so as to rotate by the same motor shaft, and the inner gear shape corresponding to the outer gear 2 is machined on the outer circumferential surface, and the cover 4 on the center surface thereof. An intermediate gear 10 in which the guide groove 10a into which the unevenness 4a is inserted is processed; Gear pump structure characterized in that formed. The outer gear shape of the intermediate gear 10 is engaged with the inner gear 1 at a position eccentrically e1 away from the center of the inner gear 1, and is machined on the outer circumferential surface of the intermediate gear 10. And a gear configured to engage the outer gear (2) at a distance from the center of the inner gear shape and eccentricity (e2) in the same or opposite direction as the eccentricity (e1) from the center thereof.

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