KR20090068904A - Engaging structure of a transmission output shaft and an input flange for forklift truck - Google Patents

Abstract

A coupling structure between an output shaft of a transmission and a flange in a fork lift truck is provided to carry out the coupling in a short time by using coupling elements such as snap rings or split pins instead of using bolts and nuts and prevent the leakage of lubrication oil stably. A coupling structure between an output shaft of a transmission and a flange in a fork lift truck includes an output shaft(52) protruded to the outside of a housing(50) and a flange(60) having an axial part(61) spline-coupled with a protrusion part(53) of the output shaft. The axial part has a supporting element for preventing the axial part from being released out of the protrusion part. The supporting element is a snap ring(70) opened at a side. The snap ring is fitted into an indent groove part(72) of the protrusion part and protruded on an outer peripheral surface of the protrusion part so as to support the axial part.

Description

ENGAGING STRUCTURE OF A TRANSMISSION OUTPUT SHAFT AND AN INPUT FLANGE FOR FORKLIFT TRUCK}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a transmission output shaft and a flange fastening structure of an input side of a forklift to which a universal joint is applied, and more particularly, to a transmission output shaft and a flange fastening structure of a forklift having improved support means to prevent loosening and assembly of the flange. .

Figure 1 shows an example of the fastening structure of the transmission output shaft and the flange of the conventional forklift. In the transmission of the conventional forklift, the input shaft flange 1 is connected to the output side of the engine (not shown) for simplicity of the drawing so as to transmit power to the axle side. The input shaft flange 1 is connected to the output shaft 2 of the transmission. In the conventional example shown, a plurality of gears 4 rotatably mounted in the housing 3 as bearings are engaged with the gears on the axle side. A spline 6 is connected to the protrusion 5 protruding out of the housing of the formed output shaft 2 and then fastened to the nut 7 as a supporting means. Between the housing 3 and the output shaft 2 a spacer 8, an O-ring 9 and a seal 10 are provided.

Figure 2 shows another example of the fastening structure of the transmission output shaft and the flange of the conventional forklift. In another example shown, the same parts as in the example of FIG. 1 are denoted by the same reference numerals. In the transmission of the forklift, the input shaft flange 1 is rotatably mounted in the housing 3 as a bearing and connected to the output shaft 2 with a plurality of gears 4 meshing with the gears on the axle side with a spline 6. , By means of a plurality of bolts 12 as a supporting means, a fixed plate 11 having a larger diameter than the protrusion of the output shaft is arranged and fastened integrally so as to keep the flange from falling out of the protrusion of the output shaft, and a seal 10 is provided. Unexplained reference numeral 13 is a washer.

In the fastening structure of the transmission output shaft and the flange of the conventional forklift, as the bolts and nuts are fastened and fastened, the number of parts such as washers and O-rings is large, cumbersome, and time-consuming. There is a problem that the fastening portion can be released, accordingly there was a problem of leakage.

SUMMARY OF THE INVENTION An object of the present invention is to solve the above-described problems, and to improve the transmission output shaft and input flange fastening structure to ensure easy assembly while maintaining the bolt fastening structure of the forklift transmission input flange and the output shaft firmly. To provide.

In order to achieve the above object, the present invention relates to a flange for transmitting a driving force of the engine, and a transmission output shaft and a flange coupling structure of a forklift rotatably mounted in a transmission housing and splined to an output shaft provided with a plurality of gears, And a support means for supporting the shaft portion of the flange that is splined to the protrusion of the output shaft protruding outside the housing so as not to be released from the protrusion of the output shaft, the support means being formed by a snap ring with one side open, and the snap ring is an output shaft protrusion. It is inserted into the groove portion formed around the outer peripheral surface of the end of the output shaft provides a transmission output shaft and flange coupling structure of the forklift, characterized in that partially projected over the outer peripheral surface of the flange to support the shaft portion on the outer surface.

On the other hand, in another embodiment, the present invention is a flange for transmitting the driving force of the engine, and the transmission output shaft and flange coupling structure of the forklift rotatably mounted in the transmission housing and splined to the output shaft provided with a plurality of gears, And a support means for supporting the shaft portion of the flange which is splined to the protrusion of the output shaft which protrudes out of the housing so as not to be released from the protrusion of the output shaft. The support means is a split pin, which is radially in the protrusion portion of the output shaft and the shaft portion of the flange. It provides a transmission output shaft and a flange coupling structure of the forklift, characterized in that it is inserted through the hole formed to penetrate.

The present invention can be easily fastened by using a snap coupling means such as a snap ring or a split pin for coupling the output shaft of the forklift transmission to the transmission and the engine output to the transmission, thereby reducing the work time for assembly. It is effective to improve the cost, and to reduce the cost by reducing the number of parts compared to the conventional fastening structure by bolts and nuts, there is an effect that can stably prevent the leakage of lubricating oil of the transmission.

Hereinafter, with reference to the accompanying drawings showing an embodiment of the present invention will be described in more detail the present invention.

3 is a cross-sectional view showing an embodiment of the present invention, the output shaft 52 is rotatably mounted by a bearing 51 in the transmission housing 50, the end of the output shaft 52 is the housing 50 It is formed as the protrusion part 53 which protruded outward. A plurality of gears 55 are typically integrated with the spline to the output shaft to transmit power to the axles.

The projection 53 of the output shaft 52 is coupled to the output side of the engine (not shown in the figure) is coupled to the flange 60 for transmitting power to the output shaft provided in the transmission housing 50.

The flange 60 is formed in a wheel type, and a hole 62 is formed at the center of the shaft portion 61 so that the protrusion 53 of the output shaft is coupled thereto. Splines are formed on the inner wall of the hole 62 of the flange and the outer surface of the protrusion 53 of the transmission output shaft engaged with the inner wall so that the output shaft can be rotated by the rotational force of the flange.

Support means are provided to prevent the flange 60, which engages the projection 53 of the output shaft 52 of the transmission, from being loosened, and in this embodiment provided with a snap ring 70 as support means.

As shown in FIG. 4, the snap ring 70 may be elastically deformed radially outward in an annular ring shape having one side open, so that the snap ring 70 may be elastically mounted to the output shaft of the transmission, thereby facilitating assembly. Do. The snap ring may be assembled in such a way that one or more open portions are staggered.

The snap ring 70 is fitted into the groove 72 formed around the outer peripheral surface of the end of the output shaft protrusion 53, but partially protrudes over the outer peripheral surface of the output shaft protrusion to support the shaft portion 61 of the flange on the outer surface.

Reference numeral 65 in the figure is provided as an O-ring so that the lubricant contained in the housing of the transmission does not leak through between the protrusion outer side of the output shaft and the inner side of the hole formed in the shaft portion of the flange. Further, reference numeral 67, which is not described, is a seal member that is typically provided to prevent oil leakage between the transmission housing and the outer surface of the flange shaft.

In this way, the flange is disposed in the recess formed in the outer protrusion of the output shaft of the transmission and is in contact with the outer side of the shaft portion of the flange so that the flange can be stably held without being engaged with the output shaft.

Figure 5 illustrates a coupling structure of the flange and the output shaft by the support means of another embodiment of the present invention. This embodiment uses a split pin 80 as shown in FIG. 6 as a support means for preventing the flange from coming off the portion where the protrusion of the flange and the output shaft is splined.

To this end, a hole 82 penetrating the projection 53 of the output shaft and the shaft 61 of the flange 60 in the radial direction, and the split pin 80 passes through the flange shaft and the projection through hole of the output shaft. Insert it, and open the split pin end projecting in the opposite direction in both directions so that the split pin does not come out of the hole 82 even if the flange rotates together with the output shaft.

The present invention can be easily fastened by using a snap coupling means such as a snap ring or a split pin to couple the output shaft of the forklift transmission to the transmission and the engine output to the transmission, thereby simplifying the assembly work and the number of parts. It is possible to reduce the cost by reducing the cost and to reliably prevent the leakage of lubricant in the transmission.

1 is a schematic cross-sectional view showing a transmission output shaft and a flange coupling structure of a conventional forklift.

Figure 2 is a schematic cross-sectional view showing a transmission output shaft and a flange coupling structure of another conventional forklift.

Figure 3 is a schematic cross-sectional view showing the transmission output shaft and the flange coupling structure of the forklift having the support means of the snap ring in accordance with the present invention.

4 is a schematic perspective view showing the snap ring of FIG.

Figure 5 is a schematic cross-sectional view showing the transmission output shaft and the flange coupling structure of the forklift having a split pin type support means of another embodiment of the present invention.

FIG. 6 is a schematic perspective view showing the split pin of FIG. 5; FIG.

Explanation of symbols on the main parts of the drawings

 50: transmission housing 52: output shaft

 53: protrusion 60: flange

 61 shaft portion 70 snap ring

 72: groove portion 80: split pin

 82: hall

Claims (2)

In a flange coupling structure for transmitting the driving force of the engine, and a transmission output shaft and flange coupling structure of the forklift, which is rotatably mounted in the transmission housing 50 and splined to an output shaft 52 provided with a plurality of gears, the housing (50) a support means for supporting the shaft portion 61 of the flange 60, which is splined to the protrusion 53 of the output shaft 52 protruding outward, from being released from the protrusion 53 of the output shaft. The means is a snap ring 70 having one side open, and is fitted into a recess 72 formed around the outer peripheral surface of the end of the output shaft protrusion 53, and partially protrudes above the outer peripheral surface of the output shaft protrusion to extend the shaft portion 61 of the flange from the outer side. Transmission output shaft and flange coupling structure of the forklift, characterized in that for supporting. In a flange coupling structure for transmitting the driving force of the engine, and a transmission output shaft and flange coupling structure of the forklift, which is rotatably mounted in the transmission housing 50 and splined to an output shaft 52 provided with a plurality of gears, the housing (50) a support means for supporting the shaft portion 61 of the flange 60, which is splined to the protrusion 53 of the output shaft 52 protruding outward, from being released from the protrusion 53 of the output shaft. The means is a split pin (80), the transmission output shaft of the forklift, characterized in that it is inserted through the hole (82) formed so as to penetrate radially through the projection (53) of the output shaft and the shaft portion (61) of the flange (60). And flange coupling structure.

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