TRANSMISSION AND DRIVE DEVICE EQUIPPED WITH THE SAME

专利摘要:
Transmission for a device for driving a machine providing work and for driving it at a variable, adjustable speed of rotation, comprising a first set of satellites (3) to which is coupled a first drive group (18) a second set of satellites (5) to which the work machine (19) is coupled, the first set of satellites (3) and the second set of satellites (5) each having satellites (3a, 3b, 5a, 5b) installed on at least two satellite shafts (11a, 11b), common, mounted in a planet carrier (3). The planet carrier (3) is rotatably mounted in a transmission housing (9) and driven by a second drive unit (10).
公开号:FR3035944A1
申请号:FR1654026
申请日:2016-05-04
公开日:2016-11-11
发明作者:Peter Boiger；Pinnekamp Burkhard Dr
申请人:Renk GmbH；
IPC主号:

专利说明:

[0001] FIELD OF THE INVENTION The present invention relates to a transmission of a driving device of a machine providing work, to drive it at a variable variable speed of rotation. The invention also relates to a drive device equipped with such a transmission for driving a machine providing work at a variable speed of rotation, adjustable.
[0002] State of the art It is known, in practice, applications in which a machine providing work such as for example a compressor or a pump must be driven at a variable speed of rotation, adjustable. For this, in practice, the drive unit used electric motors equipped with a frequency converter or a transmission with a combination branch driven by a hydraulic or electrical means, and which thus achieves the variable reduction in the range. necessary. These two known practical solutions for driving a machine providing work at a variable, adjustable rotational speed are complicated and costly solutions because of the medium voltage frequency converters required for the high powers used to power the machine. 'training. OBJECT OF THE INVENTION Starting from this situation, the present invention aims to develop a transmission and a drive device to solve this problem by a simple and economical solution. SUMMARY OF THE INVENTION AND ADVANTAGES OF THE INVENTION To this end, the present invention relates to a transmission of a drive device of a machine providing work and to drive this machine at a variable, adjustable rotational speed comprising a first set of satellites to which is coupled a first driving group, a second set of satellites to which is coupled the machine providing a job, the first and second set of satellites each having satellites installed on at least two shafts. satellites, 5 common, mounted in a planet carrier, the planet carrier being rotatably mounted in a transmission housing and driven by a second drive unit. In other words, the transmission according to the invention comprises a first set of satellites on which a first driving group can be coupled. The transmission also has a second set of satellites that can be connected to the machine providing the work. The first set and the second set have satellites carried by at least two satellite trees, common, themselves mounted in a planet carrier. The planet carrier is itself rotatably mounted in a housing to be driven by the second drive unit. The transmission according to the invention thus allows to drive the machine providing work at a variable speed of rotation, adjustable, and this with simple and economical means.
[0003] The rotational speeds of the device according to the invention are between about 4,000 and about 15,000 rpm while the driving rotational speeds are between about 1,500 and 3,600 rpm. The principle of the combination using a planetary transmission has hitherto used elements such as an internal gear, a planet carrier and a sun gear for driving or combining and exiting the movement. . The power of the known devices is limited because of the technical limits of the diameters of the internal gear wheels; Inner wheels with large diameters would suffer unacceptable tangential stresses. Preferably, the first set of satellites comprises a sun gear to which the first drive unit can be coupled; the sun wheel of the first set is in mesh with the satellites of the first set installed on the satellite shafts.
[0004] Alternatively, the first driving group is coupled to an internal gear of the first set of satellites, this wheel being in engagement with the satellites of the first set, installed on the satellite shafts. The second set of satellites also has a sun wheel which is coupled to the machine providing the work and this sun wheel of the second set is engaged with the satellites of the second set installed on the satellite shafts. This realization of the transmission is simple and allows to drive a machine providing work at a variable speed of rotation, adjustable. The torque to be supplied by the combination (second drive unit) corresponds only to the difference between the input torque and the output torque. The invention also relates to a drive device comprising a transmission as defined above, comprising: a first drive unit coupled to the first set of satellites of the transmission, a machine providing work coupled to the second set transmission satellites, a second drive unit coupled to the planet carrier of the transmission and whose rotational speed is combined with a speed of rotation dependent on the speed of rotation of the first drive unit, the first drive unit and / or the second drive unit being driven at a variable, adjustable rotational speed. This drive device thus comprises a transmission according to the invention, a first drive unit coupled to the first set of satellites of the transmission, a machine providing work, coupled to the second set of satellites of the transmission, a second group drive coupled to the planet carrier of the transmission and whose rotational speed is combined as a function of the rotational speed of the first drive unit, the latter and / or the second drive unit being driven (s) to a variable speed of rotation, adjustable. Such a drive device which consists of the two drive units, the transmission and the machine providing work enables the machine to be driven at a variable, adjustable speed of rotation with simple means. and economic. The second drive unit may be a low voltage powered motor with a rectifier which is only a fraction of the power of the first drive unit. Preferably, the first group operates at a constant speed of rotation and the second group at a variable speed of rotation. This embodiment is particularly advantageous for driving a machine providing work at a variable, adjustable rotational speed. Drawings The present invention will be described hereinafter in more detail with the aid of exemplary transmission and drive apparatus according to the invention shown in the accompanying drawings, in which: FIG. 1 is a simplified schematic diagram of FIG. a first transmission according to the invention and the driving device equipped with such a transmission, FIG. 2 is a simplified diagram of a second embodiment of a transmission according to the invention and a device for 3 is a simplified block diagram of a third transmission according to the invention and a corresponding drive, and FIG. 4 is a very simplified diagram of another transmission according to FIG. the invention and a driving device equipped with such a transmission. DESCRIPTION OF EMBODIMENTS OF THE INVENTION The subject of the invention is a transmission for a driving device of a machine providing work, serving to drive this machine at a variable, adjustable rotational speed. Reciprocally, the invention also relates to a drive device for a machine providing work which must be driven at a variable, adjustable speed of rotation.
[0005] FIG. 1 shows a preferred embodiment of a transmission or a driving device of a machine providing work, for driving this machine at a variable, adjustable rotation speed.
[0006] The transmission of FIG. 1 comprises a first set of satellites 3; on which is directly coupled a shaft 1 of the transmission. The shaft 1 which is coupled to the first set of satellites 3 is connected directly to a first drive unit 18, in particular via the flange 1a of this shaft 1.
[0007] The transmission 1 of FIG. 1 also comprises a second set of satellites 5. This second set 5 is coupled directly to another shaft 7 of the transmission 1. The machine providing work 19 and which must be driven at a rotational speed variable, adjustable, is coupled directly to this shaft 7, in particular by the flange 7a of the shaft 7. The first set of satellites 3 and the second set of satellites 5 each have satellites 3a, 3b or 5a, 5b installed on at least two satellite shafts 11a, 1b, common. Thus, Figure 1 shows two planet shafts 11a, 1b; the shaft 1 carries it the satellites 3a, 5a of the assemblies 3 and 5; the tree 1 lb carries the satellites 3b, 5b of the sets 3 and S. It is noted that one can have more than two satellites trees 11a, 1 lb carrying satellites; thus, one can have three or four satellite trees with corresponding satellites.
[0008] The planet shafts 11a, 11b are rotatably mounted in a planet carrier 4. The planet carrier 4 is not integrally connected to the housing but is rotatably mounted in the transmission housing 9; Figure 1 shows the rolling bearings 8a, 8b through which the planet carrier 4 is rotatably mounted in the housing 9 of the planetary device 30. The planet carrier 4 is driven by a second drive unit 10. In the embodiment of FIG. 1, the first drive unit 18 connected directly to the shaft 1 of the transmission via the flange , is thus coupled directly by the shaft 1 to the solar wheel 2 of the first set of satellites 3, this first training group 18 and drives the satellites 3a, 3b of the first set 3, installed on the satellite shafts 3 11a, 1 lb. The planet shafts 11a, 1b, and thus also the satellites 5a, 5b of the second set 5 are driven; the second set of satellites 5 comprises a sun gear 6 driven by the satellites 5a, 5b of the second set 5. This sun gear 6 of the second set 5 is coupled to the shaft 7 and via it, to the machine 19 providing the work, to drive this machine at a variable speed of rotation, adjustable.
[0009] According to FIG. 1, the satellites 3a, 3b of the first set 3 are in engagement with the sun gear 2 of this first set 3 while the satellites 5a, 5b of the second set 5 are in engagement with the sun gear 6 of the second set of satellites S. A drive device using the transmission of FIG. 1, thus has the first drive unit 18 connected to the shaft 1, the second drive unit 10 connected to the planet carrier 4 which acts on the shaft 7 to drive the machine 19 at a variable speed of rotation, adjustable. The first drive unit 18 connected to the shaft 1 is preferably a drive unit operating at constant rotational speed. The second drive unit 10 which drives the planet carrier 4 is preferably a variable speed drive unit. Part of the power driving the machine providing the work 19 is thus provided by the first drive unit 18 connected by the flange 1a to the shaft 1, and which preferably rotates at a constant rotational speed. In FIG. 1, this first drive unit 18 drives, by the sun gear 2 of the first set 3, the satellites 3a, 3b and thus the satellite shafts 11a, 1b, to which the satellites 3a, 3b are connected in a single connection. In the same way, the satellites 5a, 5b of the second set 5 rotate in rotation with the planet shafts 11a, 11b; these satellites 5a, 5b in turn drive the sun gear 6 of the second set 5 to finally provide the portion of the drive power of the first drive unit 18 to the machine 19 to drive at variable speed.
[0010] As already indicated, the planet shafts 11a, 1b are rotatably mounted in the planet carrier 4. The planet carrier 4 is itself rotatably mounted in the transmission case 9 by rolling bearings 8a, 8b, which allows it to rotate.
[0011] The planet carrier 4 is driven via the second drive unit 10 whose rotational speed or drive power is combined with the rotational speed or drive power of the first group. As already indicated, the first drive unit 18 connected to the shaft 10 1 is preferably driven at a constant speed of rotation while the second drive unit 10 is connected. to the planet carrier 4 is preferably driven at variable speed. The two drive units 18, 10 are preferably electric motors.
[0012] In the embodiment of FIG. 1, the second drive unit 10 is a motor whose hollow shaft carries the planet carrier 4 directly. It is also possible to interpose a reduction stage between the second drive unit. 10 and the planet carrier 4.
[0013] Thus, Fig. 2 shows a variant of the transmission or drive of Fig. 1; in this variant, the second driving unit 10 is coupled to the planet carrier 4 of the transmission 1 via a tapered wheel stage 12; this stage 12 comprises a conical wheel 14 and a conical wheel shaft 13.
[0014] Figure 3 shows another variant of the transmission or drive. In this variant, the second drive unit 10 is coupled by a gear stage to the right gear with the spur gear 17 and the pinion shaft 16 of the planet carrier 4 of the transmission to drive it.
[0015] As already indicated, the rotational speed of the planet carrier 4 is variably adjustable by the second drive unit 10, which makes it possible to achieve a variable, adjustable output speed range of the shaft 7 to drive the machine providing the work 19; this is done by the combination of the rotational speed or drive power of the second drive group 10 with the rotational speed or drive power supplied by the first group shaft 1 The second drive unit can thus function as a motor or generator or as a combination of both.
[0016] Figure 4 shows another variant of a transmission according to the invention; the embodiment of FIG. 4 differs from the embodiment of FIG. 1 in that the drive power supplied to the shaft 1 by the first drive unit 18 drives the satellites 3a, 3b of the first 3 together not by means of a sun wheel but by a gear with internal teeth 2a. For the other characteristics, this exemplary embodiment of FIG. 4 corresponds to the exemplary embodiment of FIG. 1. Although this is not shown, in the example of FIG. 4, it is also possible to have a multiplication stage. between the second drive unit 10 and the planet carrier 4 as in the embodiments of Figures 2 and 3; this reduction stage may be in the form of a conical wheel stage 12 or a spur gear stage 15. The transmissions according to the invention are combinational transmissions. The presented transmissions are differential transmissions with two sets of satellites 3, 5; the transmission is switched between the two drive units 18, 10 and the machine providing the work 19 to drive it at a variable, adjustable rotational speed. One of the drive units rotates at a constant speed of rotation and the other at variable speed. Although this is not a preferred choice, it is also possible to make the two drive units as rotating units with variable and adjustable speed. In the exemplary embodiments presented, the first drive unit 18 drives the first planetary stage 3 by a sun gear 2 or an internal gear 2a in engagement with the satellites 3a, 3b. The second drive unit 10 drives a planet carrier 4 rotatably mounted in the housing 9. The output of the motion is through the second set of satellites 5 of the transmission to the machine providing a work 19.
[0017] 3035944 9 NOMENCLATURE OF THE MAIN COMPONENTS 1 Shaft Flange 5 2 Solar wheel 2a Internal gear wheel 3 Satellite set 3a Satellite 3b Satellite 10 4 Satellite carriers 5 Satellite set 5a Satellite 5b Satellite 6 Solar wheel 15 7 Shaft 7a Clamp 8a Bearing 8b Bearing 9 Housing 20 10 Drive unit 1 Satellite shaft 1 lb Shaft of satellites 12 Conical wheel stage 13 Conical bevel shaft 25 14 Conical wheel 15 Stepped wheel stage 16 Pinion shaft 17 Spur gear 18 Training group 30 19 Machine producing work

权利要求:
Claims (10)
[0001]
CLAIMS 1 °) Transmission for a drive device of a machine providing work and for driving this machine with a variable variable speed of rotation, comprising: a first set of satellites (3) which is coupled a first drive group (18), a second set of satellites (5) to which is coupled the work-providing machine (19), the first set of satellites (3) and the second set of satellites (5) each having satellites (3a, 3b, 5a, 5b) installed on at least two common planet shafts (11a, 1b), mounted in a planet carrier (4), the planet carrier (4) being rotatably mounted in a transmission housing ( 9) and driven by a second drive unit (10).
[0002]
Transmission according to Claim 1, characterized in that the first set of satellites (3) comprises a sun gear (2) to which the first drive unit (18), the sun gear ( 2) of the first set of satellites (3) being in engagement with the satellites (3a, 3b) of the first set (3), installed on the planet shafts (11a, 1b).
[0003]
Transmission according to Claim 1, characterized in that the first set of satellites (3) comprises an internal gear (2a) to which the first drive unit (18) can be coupled, the gear wheel. interior (2a) of the first set of satellites (3) being in engagement with the satellites (3a, 3b) of the first set (3), installed on the planet shafts (11a, 1b).
[0004]
4 °) Transmission according to one of claims 1 to 3, characterized in that the 3035944 11 the second set of satellites (5) comprises a sun gear (6) on which can be coupled the machine providing work (19), * the sun gear (6) of the second set of satellites (5) being in engagement with the satellites (5a, 5b) of the second set (5) installed on the planet shafts (11a, 1b).
[0005]
5) A driving device of a machine providing work, intended to be driven at a variable variable speed of rotation, comprising a transmission according to one of claims 1 to 4, a first driving unit (18). ) coupled to the first set of satellites (3) of the transmission, a work-providing machine (19) coupled to the second set of satellites (5) of the transmission, a second drive unit (10) coupled to the carrier (4) of the transmission and whose rotational speed is combined with a rotational speed dependent on the rotational speed of the first drive unit (18), the first drive unit (18) and / or the second group 20 (10) being driven at a variable, adjustable rotational speed.
[0006]
The driving device according to claim 5, characterized in that the first drive unit (18) is driven at a constant rotational speed and the second drive unit (10) is driven at a constant speed. variable speed of rotation.
[0007]
7 °) Drive device according to claim 5 or 6, characterized in that the second drive unit (10) is a hollow shaft motor, coupled directly to the planet carrier (4) driving it.
[0008]
Drive device according to claim 5 or 6, characterized in that the second drive unit (10) is coupled by a conical wheel stage (12) to the planet carrier (4) and drives this one.
[0009]
Drive device according to Claim 5 or 6, characterized in that the second drive unit (10) is coupled to the carrier (14) by a straight gear stage (15) and drives the gear unit (15). -this.
[0010]
10 °) Drive device according to one of claims 5 to 9, characterized in that the first drive unit (18) and the second drive unit (10) are electric motors. 15

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GB2539559B|2018-05-30|

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法律状态:
2017-05-23| PLFP| Fee payment|Year of fee payment: 2 |

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2018-05-22| PLFP| Fee payment|Year of fee payment: 3 |

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2019-05-23| PLFP| Fee payment|Year of fee payment: 4 |

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2020-01-31| PLSC| Publication of the preliminary search report|Effective date: 20200131 |

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2020-05-22| PLFP| Fee payment|Year of fee payment: 5 |

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2021-03-26| RX| Complete rejection|Effective date: 20210215 |

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2021-05-20| PLFP| Fee payment|Year of fee payment: 6 |

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2021-10-22| RN| Application for restoration|Effective date: 20210916 |

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2021-11-26| CD| Change of name or company name|Owner name: RENK GMBH, DE Effective date: 20211019 |

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2021-11-26| CJ| Change in legal form|Effective date: 20211019 |

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2021-11-26| FC| Decision of inpi director general to approve request for restoration|Effective date: 20211021 |

优先权:

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申请号 | 申请日 | 专利标题

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DE102015006084.8A|DE102015006084A1|2015-05-09|2015-05-09|Transmission and drive assembly with a transmission|

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