HU230676B1 - Angle drive - Google Patents

Abstract

FIELD OF THE INVENTION The present invention relates to an angular gearbox, the housing of which is a bearing shaft (1) bearing in the housing, and bearing in the housing, the output axes (2,3,4) arranged in a plane perpendicular to the drive shaft (1), as well as on each axis (1,2,3,4) taper gears (11,21,31,41) are fixed and the taper gear (11) of the drive shaft (1) is at least one with a pinion gear (21) in a direct drive connection and the taper gear (11) of the drive shaft (1) at least one a conical pinion (11) of the same design as the conical pinion (21), and a further pinion gear (12) on the drive shaft (1) secured by at least two of the additional conical gears (12) fixed on each of the output shafts (3,4) with conical gear (31,41) in direct drive connection.

Description

angle Transmission

BACKGROUND OF THE INVENTION The present invention relates to a jig gear having a housing, an inboard bearing drive shaft, and a housing for a bearing Angebet '. in the capeshop ven.

In mechanized large-scale agriculture, the crop is dried in tower-shaped drying silos. A portion of the dried crop beneath the baffle of the upper crop layers is good for the drain in the bottom of the tank, from where it can be withdrawn through the transport channel. In the case of silos with a slanting floor, evacuating pulleys are needed to empty the entire contents of the tank, the longitudinal axis of which is in the radial direction of the silo circle. The snail's leaves move in bed so that urmcnvt is down the middle of the sdo, for frying knowledge.

In the case of dryers with screw auger systems,. one of the most important aspects, tip the drying as evenly as possible. If non-homogeneous parts of the silage crop are formed in the silage and mixed together, some of the product harvested by the snail will not be properly dried and may be damaged during further storage. It is also important to optimize the plow because of the energy requirements of the dryer , so that the hagomyters of the storage stagak are satisfied by the fo = kl ratio, since for the sake of uniform drying the conveyor screws have the same lumps and work in the same cross-sectional plane of the crop container. At this point, the crop runs out evenly at points in the silo where the snails are working. A further requirement is that the crop is uniformly depleted of the total volume of the silo, and that no "valleys" are formed on the surface of the crop, since they subsequently lead to coma / eri movements and inbornogemtas in the crop. harvesting of produce,

Publication No. K'.R 20000086696 discloses a system of two field snail crops where the number of snails is the same, but cannot be transmitted, oog> i BOW KA csmn hevsrtengehc is a system of feeds to the system of btvhus contains two vertical longitudinal planetary worms which rotate about their own axis and the longitudinal axis of the silo. The system requires at least two additional motors depending on the number of planetary worms, in addition to the planetary auger drive, which makes the construction expensive not to mention the increased risk of failure.

The patent application 1> E4335949 requests a system operating with a auger auger, where the augers have a longitudinal axis. Due to the design of the gear, the speed of the augers is the same here, and something of the gear ratio is that 1 --- 1: 1, To eliminate avalanche-like crop movements, the augers can rotate longitudinal axis of the silo to a second motor is needed,

DE 20316481 discloses a seat with an angular gear unit in which the shafts are locked at 90 or ISO degrees and the drive shaft drives four output shafts with a conical wheel connection, the longitudinal axis of which is in the same plane. In the possible embodiment illustrated in Figure 5 of the patent, the drive and drive pinion wheel connection are such that each drive shaft has the same number of swinging wheels as the pinion wheels on each drive shaft have the same diameter. For this reason, the gearbox can be used to drive the discharge pulleys of crop drying silos. However, due to the diameter of the taper wheels of the drive shaft and the drive shaft. it is not possible for the transmission to extend, By arranging a discharge auger on each of the four drive axes aligned with its longitudinal axis, avalanche-like thermal movements can be reduced. Compared to the solutions described above, it is advantageous that only one drive motor is required to use the gear in the crop dryer. However, the cone wheel of the drive shaft is necessarily larger in diameter and therefore more expensive to produce than the cone wheels of the drive shafts.

From the examples above, there are various solutions for evenly dispensing the entire volume of the crop. For one or two storage augers, additional planetary augers can be used, which, due to our total crop volume, move and smooth the unevenly distributed crop.

Another possibility is that one. or two picking pulleys are also moved around the longitudinal axis of the silo during picking so that the pulleys can pass through the entire cross-section of the silo.

In addition, as in the third example, the number of discharge pulleys can be increased. Compared to the previously described discharge systems, the latter means a system with a narrower limit, since no additional motorkm is required beyond the motor driving the auger screws.

Thus, prior art solutions require additional motors to drive the system apart from the drive screw drive motor, or the drive shaft cone wheel is larger in diameter than the drive shaft cone drive wheel, thus producing high drive costs.

kelktm.'cáhnk evert egv is a nail hopper for creating a storage tank auger for an ebo \ orhan crop, where the uniform loading is carried out in addition to one or two discharge augers, without the need for additional motors. or large cone lubricants, i.e. where at least three orthogonal drive shafts are connected to the drive shaft at a ratio of 1: 1.

It has been discovered that since it is not possible to directly connect four identical cogwheels to a single cone gearwheel, the axes of said cone gears close to each other and the drive shaft to a degree of PP. Since the pinion gears of the output shafts are interconnected to form a self-locking structure, the gear unit according to the invention provides a solution to the problem by having the pinion pinion of the drive shaft with at least one pinion pin and the pinion pin on the drive shaft. which is provided with at least two pinion couplings directly attached to each of the further output shafts with a cone gear having the same design as the additional pinion gear.

We have accomplished our goal by designing such an angular gear. which house, xhshan, industrial shaft »'and the ha / ban bearing therein. the drive shaft is provided with drive shafts perpendicular to the drive body and having pinion gears mounted on each shaft, and the pinion gear of the drive shaft being in direct drive engagement with at least one pinion gear and the pinion pin of the drive shaft having at least one pinion; the same k.-locking toothed wheel, and t-oahb 'knpte ^ askers \ ao' <'g''he ameh hg. in the catching axle, more ken, ir copied from some of the spindles, \ ke? lkk ^' ósmoos the drive shaft is in direct drive contact with the bevel helical gear wheel. The drive shaft arranged in a plane perpendicular to the drive shaft is perpendicular to the drive shaft adjacent to the plane.

Λ The drive shaft mounted on the drive shaft and the additional drive wheel are formed as a single drive wheel having a coupling region coupled to the drive shaft coupebgaskers, coupled with a second coupling region connected to the cone gear wheel btcn in the drive shaft.

The drive shaft is provided with a drive shaft which is perpendicular to the plane of the drive shafts and which is housed in a housing and is located in the vanes of at least one cone gear wheel mounted on the drive shaft. a pinion gear of the same design as the pinion gear is fixed,

The male nail articular nail bed is described in more detail with reference to the nail file. In the drawing it is.

Fig. 1 illustrates a prodrug six-grain embodiment of a serine sogic acid according to the invention in a dimetric view,

Figures 2a to 2b show a kinematic drawing of the angular gear according to the invention in two views and

Fig. 3 shows the angle drive according to the invention from B in Fig. 1.

The t. 1 to 2 show axes 13,22,23,32,42 in a preferred embodiment of the nail gears according to the invention, wherein the nail gears are provided with an axis 1 and at least three gears 2,3,4. , Bearings 53, and the drive shafts 2,3,4 are disposed in a plane perpendicular to the drive shaft I. In this embodiment, the 2.3 shafts and the '2.4 shafts have an angle of όίΓ' to each other. For better illustration, the gearbox is not shown. Although the angular alignment of the exit axes relative to the 2 axes may be different from the right angle, with the appropriate size selection, it is expedient to stack the exit 2,3,4 axes on top of each other in order to expand the crop storage space 1,2,3,4,5,0 tcnvaUck egv to others with them togzttou 11.21,31,41 Al kupfvgatex. site íegfecmeve '' vSetlnkomfe Λ tahi! ratio is the axis I of the drive bevel drive I, in the embodiment shown in this figure, the four exit axes 2,3,4. which are in the same plane perpendicular to the drive axis 1. The conical gear wheel 11 fixed to the drive shaft 1 is directly connected to the conical gear wheel 21 passing through the drive shaft 2. The same design of the pinion gear 21 is the same as the pinion gears II, i.e. their diameters and modules, The output shaft 2 extends between the pinion wheels 31,41 and the bearings 23 are provided with the pinion gears on the side of the pinion gear. so that the angular gear according to the invention can simultaneously drive four spacer pulleys arranged in the same plane, with the same lordutam

An additional drive bevel gear 12 is mounted on the drive shaft 1 below the bevel gear 11, which in this embodiment is smaller than the bevel gear 11. The additional drive bevel gear 12 can be mounted on the shaft I above the bevel gear 11, i.e. between the bevel gear 11 and the bearing n 13, in which case its diameter is larger than that of the drive bevel gear 11.

In a preferred embodiment, the nail driver according to the invention is shown in the figure, but not necessary for the operation of the nail driver, which is perpendicular to the plane of the exit 2,3,4 axes. The bevel gear 51 is of the same design as the bevel gear 21 and is in the drive cage. The advantage of this design is that the toothed wheel 51 supports the gearwheel 21, increasing the resistance of the angular gear to the dynamic effects, creating a system of power branching, and alternatively providing a gear ratio of I; a tosnhfo, h. ^ mdo seogbanónm »h.au $ aho / located under the drive unit in the crop storage

Since, unlike the prior art, in the angular gear according to the invention the displacement rate of the output shafts 2,3,4,5 corresponds to the rotational speed of the input shaft 1. each gear ratio i is 1: 1.

Λ 2a. and 2b. Fig. 2A shows a kinematic drawing of the jigsaw in two views. The minor drawing of the 1,2,3,45 axes connected to the locations of the 11,12,21,31,41,51 cone roller wheels illustrates the transverse relationship. In the figure, the direction of rotation of the axes 1,2,3,4,5 is denoted by the index nsl, u? Of course, the shafts 1,2, 3,4, 5 may also rotate in opposite directions. The jig gear is shown in FIG. 3a from the direction A of the longitudinal axis of the drive shaft 4 in FIG. FIG. 1A is a view of the drive shaft B of FIG. 1 in the longitudinal axis of the drive shaft 2. , 4 3a shows that. The larger diameter hub wheels 11 mounted on the drive shaft 1 drive the hollow gear 21 of the drive shaft 2 directly. The associated Ildii cogwheels have the same design, i.e., we have the same wings, diameters and cogwheels. In the preferred embodiment shown, the drive shaft 21 drives the drive shaft 2 through a direct connection. pin out the pinion 51 of the output shaft 5 and close it 90 degrees. The tapered x 21.31 tapered gears have the same design. As shown in Figure 3b, the pinion 12 of the drive shaft I drives the pinion pin 31,41 of the drive shaft 3.4 through a direct connection. which are in the same axis with each other, the conical gear wheels 31, 41, 12 are identical in design. In the illustrated embodiment, the conical gears 31,41 of each of the output shafts 3,4 are connected to the conical gear 32 of the output tcngdv 5. The conical gears 31,41.51 are the same in diameter. The output shaft 5 closes 90 degrees with the 2,3,4 shafts,

Figure 3 illustrates the five outlets 1,2,3,4,5 axle according to the invention in the 8 directions of Figure 1, leaving the bearings 23,32,42 for visibility. The figure illustrates the connection of the .31, 41 bevel gears of the drive shaft 3,4 with the bevel gear 12 of the drive shaft 1.

Using the angular drive module of the present invention, which is primarily, but not exclusively, used for harvesting auger augers, the term vane protrusion is performed against up to two discharge augers according to the prior art, pk with two other discharge augers directly driven by the drive shaft 2 without additional motors gear would be needed.

Claims (3)

Free name 1 genypom L is a skin-killer. a. housing, drive shaft mounted in the housing (1). and the hazlvo tap to drink, eehaao aagehte u? the usg ehendez-Gt has kthugo axes {2,3,4}, and each axle {i, 2,3,4} has bevel gears {i 1,21,31,41} and the drive shaft (1) the pinion gear wheel (11) in at least one pinion gear wheel (21) in direct drive coupling vau, «££«? // e / head to the bahnian english ti} knpkgashueke 0 Π <U to get one knpt gear wheel (2Π identical kits) and the gears are easier.en 111 tv'Gbbi knptogaskzrek G2t un ug ntu, which k.-gahthb hu, each kJuite e ngdwken t b4t wheeze, with the other conical gear (12) with instant design gear wheel is in a direct six-way switch. 2. V 1 tguupunt \? Eunp smgbapten'.j, a'dü / e // emeeu \ is the exit axis (2,3,4} perpendicular to the plane, the exit axis (2,3,4). ve G, 3.4> meíulegxs 3 The engine of b'2, any of the claims, Je / Zemezm M&T nnabbi. axial axes (2,3,41) perpendicular to the plane of the outgoing shaft, the housing having a bearing shaft (5) on which the outlet shaft (2} is secured by at least one trigger basket (21) in direct drive engagement with the pinion gear (21). a.'oroskmiakstSxti kunit'gvuhe'.G pH and rz-gzstu