DE102020003296A1 - Heavy-duty drive vehicle, in particular a heavy-duty towing vehicle or a heavy-duty push vehicle - Google Patents

Abstract

The invention relates to a heavy-duty drive vehicle to which at least one towed or pushed vehicle (20) can be mechanically coupled, the heavy-duty drive vehicle (10) having a drive motor (13) which is driven via a transmission (14) with at least one driven wheel arrangement (12a-12c) of the heavy-duty drive vehicle (10), a portion of the drive power of the drive motor (13) being supplied to at least one wheel arrangement (12a-12c) of the heavy-duty drive vehicle (10) via a drive gear (15) it is provided that the drive motor (13) of the heavy-duty drive vehicle (10) drives a generator (30; 30 ') to generate a further portion of a drive power, and that this further drive power to at least one wheel arrangement (22b, 22c) of the with the heavy-duty drive vehicle (10) mechanically connected further vehicle (20) can be guided.

Description

The invention relates to a heavy-duty drive vehicle, in particular a heavy-duty towing vehicle or a heavy-duty push vehicle, to which at least one towed or pushed vehicle can be mechanically coupled, the heavy-duty drive vehicle having a drive motor which is driven by a transmission with at least one driven wheel arrangement Heavy-duty drive vehicle is connected. The invention further relates to a towed or pushed vehicle that is particularly suitable for the aforementioned heavy-duty drive vehicle and a vehicle combination consisting of the heavy-duty drive vehicle and the aforementioned vehicle.

Such a heavy-duty towing vehicle and a vehicle assembly formed from this heavy-duty towing vehicle and a towed vehicle, in particular a trailer, are known and are used to transport heavy and / or large-volume loads. For reasons of transport safety and in order to be able to safely overcome inclines at a sufficiently high transport speed, the drive motors used in such heavy-duty drive vehicles are generally generously dimensioned with regard to their drive power. Despite a sufficiently large available drive power, however, it is possible that the vehicle group consisting of the known heavy-duty drive vehicle and at least one other non-driven vehicle, in particular on routes with inadequate underground properties, in particular on an incline that does not have a gravel road owns, on unpaved, slippery floors such. B. on construction sites, or generally in poor traction conditions, such. B. on a snow-covered road or a slippery surface, such. B. in a cold-related smoothness of the road, gets stuck or at least moves inadequately forward because the drive power can no longer be converted into a forward movement due to the lack of appropriate traction of the driven wheel assemblies.

From the EP 2 397 354 B1 a heavy-duty transport vehicle with a drive motor for a drive of the known heavy-duty transport vehicle and with a flywheel storage drive for a maneuvering operation of the same is known, the heavy-duty vehicle having, in addition to the drive motor driving the wheel assemblies, an internal combustion engine that drives a generator that exclusively drives the Charging the flywheel accumulator generates the required electrical energy. This has the advantage that the internal combustion engine can always be operated in its optimal map area, since it is only used to charge the flywheel mass storage device, but not for the actual drive of the heavy-duty vehicle known from the aforementioned publication.

It is therefore the object of the present invention to develop a heavy-duty drive vehicle of the type mentioned at the beginning in such a way that improved traction is provided. A vehicle group consisting of the heavy-duty drive vehicle according to the invention and at least one further vehicle mechanically coupled to it is also to be proposed.

To achieve this object, the invention proposes a heavy-duty drive vehicle according to one of Claims 1 to 4.

According to the invention, the vehicle driven by the aforementioned heavy-duty drive vehicle is designed according to one of claims 6 or 7.

The inventive, consisting of at least one heavy-duty drive vehicle and / or at least one further vehicle coupled to this vehicle assembly provides that the heavy-duty drive vehicle according to one of claims 1 to 4 and / or the vehicle driven by it according to one of the claims 6 or 7 is formed.

The measures according to the invention advantageously create a heavy-duty drive vehicle that is particularly suitable for the vehicle assembly according to the invention, which is characterized in that free drive power of the drive motor, i.e. drive power that is currently due to lack of traction of the wheel assemblies of the heavy-duty drive vehicle cannot be used to propel the heavy-duty drive vehicle, can be used to drive at least one wheel arrangement of the additional vehicle connected to and driven by the heavy-duty drive vehicle. The measures according to the invention therefore advantageously improve the overall traction of the vehicle assembly according to the invention.

An advantageous development of the invention provides that the transmission connected to the drive motor has a power take-off which drives the generator. Such a measure has the advantage that it enables the drive power of the drive motor of the heavy-duty drive vehicle to be split up in a simple manner into the drive power required to drive the wheel assemblies of the heavy-duty drive vehicle and in which the drive power required to drive the at least one wheel arrangement of the further vehicle coupled to the heavy-duty drive vehicle is made possible.

Another advantageous development of the invention provides that the generator, which is preferably provided via the power take-off of the transmission, is designed as an electrical generator. Such a measure has the advantage that it allows the electrical drive energy generated by the electrical generator to be conducted in a simple manner to the further vehicle driven, that is, pulled or pushed, by the heavy-duty drive vehicle according to the invention.

A further advantageous development of the invention provides that the generator, which is preferably driven by the power take-off of the transmission of the heavy-duty drive vehicle according to the invention, is designed as a hydraulic generator, that is to say a hydraulic pump. The pressurized pressure medium generated by the hydraulic pump is conveyed from the heavy-duty drive vehicle to the further vehicle driven by it and drives at least one wheel arrangement of this pulled or pushed further vehicle via at least one hydraulic motor. Such a measure has the advantage that at least one wheel arrangement of the towed or following vehicle can be driven by means of at least one conventional hydraulic motor.

Another advantageous development of the invention provides that the transmission of the heavy-duty drive vehicle according to the invention has a retarder unit. Such a measure has the advantage that it creates an additional, wear-free braking effect for the heavy-duty drive vehicle according to the invention and for the vehicle assembly using it.

A further advantageous development of the invention provides that the heavy-duty drive vehicle according to the invention or the further vehicle coupled to it has a control by means of which the drive power output to the at least one wheel arrangement of the further vehicle can be controlled. Such a measure has the advantage that it prevents too high a load on the drive motor and / or too great a drive power of the at least one wheel arrangement of the further vehicle or at least reduces the risk of such a constellation.

A further advantageous development of the invention provides that the heavy-duty drive vehicle according to the invention and / or the additional vehicle coupled to it has an energy store in which the recuperation energy obtained from the generator of the heavy-duty drive vehicle and / or during braking operation of the vehicle assembly according to the invention can be stored .

Further advantageous developments of the invention are the subject of the subclaims.

• 1 ein erstes Ausführungsbeispiel eines Schwerlast-Antriebsfahrzeugs zusammen mit einer ersten Ausführungsform eines gezogenen Schwerlast-Anhängers,
• 2 eine schematische Darstellung einer Ausführungsform einer beim beschriebenen Schwerlast-Antriebsfahrzeug eingesetzten Getriebeanordnung,
• 3 ein zweites Ausführungsbeispiel eines Schwerlast-Antriebsfahrzeugs zusammen mit einer zweiten Ausführungsform eines gezogenen Schwerlast-Anhängers,
• 4 ein drittes Ausführungsbeispiel eines Schwerlast-Antriebsfahrzeugs zusammen mit einer Ausführungsform eines geschobenen Fahrzeugs, und
• 5 ein viertes Ausführungsbeispiel eines Schwerlast-Antriebsfahrzeugs zusammen mit einer Ausführungsform eines gezogenen Fahrzeugs.

Further details and advantages of the invention can be found in the exemplary embodiments which are described below with reference to the figures. Show it:

• 1 a first embodiment of a heavy-duty drive vehicle together with a first embodiment of a towed heavy-duty trailer,
• 2 a schematic representation of an embodiment of a transmission arrangement used in the heavy-duty drive vehicle described,
• 3 a second embodiment of a heavy-duty drive vehicle together with a second embodiment of a towed heavy-duty trailer,
• 4th a third embodiment of a heavy-duty drive vehicle together with an embodiment of a pushed vehicle, and
• 5 a fourth embodiment of a heavy-duty drive vehicle together with an embodiment of a towed vehicle.

In 1 a vehicle assembly, generally designated 1, is shown, which is a heavy-duty drive vehicle 10 which here as a heavy-duty towing vehicle 10 ' is formed, and a trailing vehicle 20th which here as a heavy-duty towing vehicle 10 ' pulled heavy-duty trailer is formed, has. The person skilled in the art can see from the following description that the case described here is that of the heavy-duty towing vehicle 10 ' only one trailing vehicle 20th is coupled, has only exemplary character. Of course, it is possible that the heavy-duty towing vehicle 10 ' to drive two or more vehicles following behind 20th can be used.

The basic structure of such a heavy-duty drive vehicle 10 is known to the person skilled in the art and therefore does not have to be described in detail either. The heavy-duty drive vehicle 10 exhibits a chassis 11th , on the wheel assemblies in the embodiment described here 12a-12c are provided, of which at least one, but preferably all of the wheel assemblies 12a-12c are driven. These wheel assemblies 12a-12c can be used as axle lines with two wheel arrangements each connected via a rigid axle, with single and double wheels 12a-12c or be designed as a single wheel arrangement with one wheel or a double wheel. The person skilled in the art is clear from the following description that it is in the manner of the wheel assemblies 12a-12c are trained, does not matter.

The heavy-duty drive vehicle 10 shows - as in particular 2 can be seen - a drive motor 13th on which a gearbox 14th is coupled. The gear 14th has a drive gear 15th which is used to drive the wheel assemblies 12a-12c serves. In the exemplary embodiment described here, it is provided that all three wheel assemblies 12a-12c are driven. It is therefore an over a gear shaft 15a with the drive gear 15th coupled transfer case 16 provided which the drive motor 13th of the heavy-duty towing vehicle 10 ' Drive power generated via cardan shafts 17th on the individual wheel arrangements 12a-12c distributed. The gear 14th also has a power take-off 18th whose function will be explained below. Such a power take-off 18th is basically known and therefore does not need to be described any more.

It is preferably provided that the transmission 14th a retarder unit 14a has, which is also known per se and is therefore no longer described in more detail. The structure and function of such a retarder unit is z. B. in the German patent DE 10 2016 011 630 B4 by the applicant, to which reference is made to avoid repetition and the disclosure of which is made the subject of this application by this reference.

The vehicle following in the exemplary embodiment described here 20th also has a chassis in a known manner 21 with multiple wheel arrangements 22a-22c and is via a gooseneck that is known per se and therefore also not described in any more detail 23 with the heavy-duty towing vehicle 10 ' coupled. In the exemplary embodiment described here, it is provided that two of the wheel assemblies shown here 22a-22c , namely the wheel assemblies 22b and 22c , can be driven electrically. The one about the wheel arrangements 12a-12c of the heavy-duty drive vehicle 10 The statements made apply here accordingly.

To now the traction of the heavy-duty towing vehicle 10 ' and the following vehicle 20th formed vehicle network 1 to improve, it is provided that a constant or variable portion of the drive power of the drive motor 13th not to the driven wheel assemblies 12a-12c of the heavy-duty towing vehicle 10 ' , but to at least one of the driven wheel assemblies 22b , 22c of the following vehicle 20th is directed. The drive power of the drive motor 13th is thus on multiple wheel assemblies 12b , 12c and 22b , 22c of the heavy-duty drive vehicle 10 and the vehicle 20th distributed, resulting in improved traction of the vehicle group 1 has the consequence.

In the first exemplary embodiment described here, it is provided for this purpose that the drive motor 13th of the heavy-duty towing vehicle 10 ' an electric generator 30th drives, which generates electrical energy, which is then used to drive at least one wheel assembly 22a , 22b of the following vehicle 20th is used. For this purpose it is provided that the driven wheel assemblies 22b , 22c of the vehicle 20th each have a corresponding electric motor (not shown). Electrical supply lines are used to supply these electric motors with energy 32a - 32c which the electric motor (s) with the generator 30th associate. The electric motor (s) can be designed as wheel hub motors. However, it is also possible - which is particularly preferred in the case of rigid axles - for each such axle line to have a central electric motor which drives the wheel arrangements assigned to this axle line.

In the first embodiment it is provided that to drive the generator 30th the power take-off 18th of the transmission 14th is used. This is here between the drive motor 13th and the drive gear 15th of the heavy-duty towing vehicle 10 ' arranged.

Such a power take-off 18th can either be gear-dependent or engine-dependent. A gearbox-dependent power take-off 18th is together with a coupling of the heavy-duty towing vehicle 10 ' Can be switched on and off, an engine-dependent power take-off 18th is power shiftable and can be operated without a drive clutch. The person skilled in the art can see the type of power take-off 18th it depends on the purpose of the heavy-duty towing vehicle 10 ' has to use or wants to use.

It is preferred that the power take-off 18th Via a - preferably non-switchable - connection coupling 19th or an additional belt drive or a cardan shaft or a shaft offset gear with the generator 30th connected is.

It is preferred that between the generator 30th and the electric motors of the wheel assemblies 22b , 22c a controller 35 which is connected to the wheel assemblies 22b , 22c of the vehicle 20th The amount of power to be delivered is regulated and also the power consumption of the Generator 30th limited so that the risk of the drive motor 13th is overloaded, switched off or at least reduced. In the case shown here, the controller is 35 - like from the 1 visible - on the second vehicle 20th arranged. But it is also possible to use this control 35 on the heavy-duty towing vehicle 10 ' to arrange.

An energy store can preferably 36 be provided by the generator 30th to buffer generated electrical energy and / or from the driven wheel assemblies 12b , 12c and or 22b , 22c to store recuperation energy generated during braking.

It is preferably provided that the generator 30th is designed as a cooled generator. In the embodiment described here, it is provided that in a heavy-duty tower 5 behind a cab 6th of the heavy-duty towing vehicle 10 ' a corresponding coolant circuit is present, which has a coolant tank 37 and a coolant circulation pump 38 having, the coolant circulating in this coolant circuit, preferably water, to a corresponding cooler 39 is directed.

In 3 is a second embodiment of the by the heavy-duty drive vehicle 10 and another vehicle 20th formed vehicle network 1 shown. Components that correspond to one another are provided with the same reference numerals and their structure and function are no longer explained again. The main difference between the first and the second exemplary embodiment is that the vehicle is following 20th and the heavy-duty towing vehicle 10 ' via a rigid mechanical coupling like a pull rod 24a or a drawbar are coupled.

In 4th Fig. 13 is a third embodiment of a heavy-duty drive vehicle made by the above-described 10 and another vehicle 20th formed vehicle network 1 shown. Components that correspond to one another are provided with the same reference numerals and are therefore no longer explained in more detail with regard to their structure and mode of operation. How out 3 can be seen is the in 3 illustrated third embodiment provided that the heavy-duty drive vehicle 10 not as a heavy-duty towing vehicle 10 ' , rather than a heavy-duty push vehicle 10 " is trained. The other vehicle 20th is consequently a heavy-duty push vehicle 10 " Pushed vehicle formed. Between the heavy-duty push vehicle 10 " and the pushed vehicle 20th is a push rod 24b arranged. The further construction of the heavy-duty push vehicle 10 " agrees with that of the heavy-duty towing vehicle 10 ' so that reference can be made to the explanations above. The same also applies to the design of the vehicle following behind 20th .

The three aforementioned exemplary embodiments assume that the generator 30th is an electrical generator and that of that electrical generator 30th generated electrical energy via the electrical supply lines 32a - 32c to at least one wheel assembly 22b , 22c of the heavy-duty drive vehicle described by 10 driven further vehicle 20th is directed. But it is also possible to have at least one wheel arrangement 22b , 22c of the vehicle 20th to be driven hydraulically.

the 5 now shows a fourth embodiment of the heavy-duty drive vehicle 10 , whereby corresponding components are provided with the same reference numerals and are no longer described in more detail with regard to their structure and function. The main difference between the first three exemplary embodiments and the fourth exemplary embodiment is that the generator is not an electrical generator 30th , rather than a hydraulic generator 30th namely as a hydraulic pump 30 ' is trained. This hydraulic pump 30 ' serves to compress a medium supplied to it. The pressurized medium generated in this way is supplied via the electrical supply lines 32a and 32b appropriate hydraulic supply lines 32a ' , 32b ' to the wheel arrangements 22b , 22c of the vehicle 20th and then flows through a reflux line 32c ' return. It goes without saying for a person skilled in the art that in this case the wheel assemblies 22b , 22c Driving motors are not designed as electric motors, but as hydraulic motors, which are known per se. In the heavy-duty tower 5 of the heavy-duty drive vehicle 10 is a pressure medium container 37 ' arranged, which with the hydraulic pump 30 ' is connected via a corresponding line. That via the return line 32c ' Returning pressure medium reaches a cooler 39 ' and to a filter 38 ' and is then in the pressure medium tank 37 ' passed, so that a closed circuit is formed for the hydraulic pressure medium.

In summary, it can be stated that the measures described in a simple manner increase the traction of a heavy-duty drive vehicle 10 and at least one further vehicle mechanically coupled to this 20th existing vehicle network 1 can be improved. By now it is provided that part of the drive motor 13th of the heavy-duty drive vehicle 10 generated drive power to drive at least one wheel assembly 22b , 22c the one with the heavy-duty drive vehicle 10 connected further vehicle 20th is used the traction of the vehicle group 1 improved because the drive power of the drive motor 13th if necessary on the wheel arrangements 12a-12c of the heavy-duty drive vehicle 10 and the wheel assemblies 22b , 22c of the vehicle 20th is distributed. It is preferred that the one for driving the wheel assembly or assemblies 22b , 22c of the vehicle 20th Required drive energy is generated by the fact that the drive motor 13th connected gears 14th a power take-off 18th has, from which the generator 30th respectively. 30 ' is driven. The measures described above advantageously provide free drive power for the drive motor 13th in particular due to the no longer sufficiently large traction of the heavy-duty drive vehicle 10 no longer for a propulsion of the vehicle group 1 is usable, is used, one or more wheel assemblies 22b , 22c the one with the heavy-duty drive vehicle 10 connected further vehicle 20th to create.

QUOTES INCLUDED IN THE DESCRIPTION

This list of the documents listed by the applicant was generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Patent literature cited

• EP 2397354 B1 [0003]
• DE 102016011630 B4 [0020]

Claims (12)

Heavy-duty drive vehicle to which at least one towed or pushed vehicle (20) can be mechanically coupled, the heavy-duty drive vehicle (10) having a drive motor (13) which is driven via a transmission (14) with at least one driven wheel arrangement (12a-12c ) of the heavy-duty drive vehicle (10) is connected, with a portion of the drive power of the drive motor (13) being fed to at least one wheel arrangement (12a-12c) of the heavy-duty drive vehicle (10) via a drive gear (15), characterized in that the Drive motor (13) of the heavy-duty drive vehicle (10) drives a generator (30; 30 ') for generating a further portion of a drive power, and that this further drive power to at least one wheel arrangement (22b, 22c) of the heavy-duty drive vehicle ( 10) mechanically connected further vehicle (20) can be guided. Heavy-duty drive vehicle after Claim 1 , characterized in that the transmission (14) of the heavy-duty drive vehicle (10) has a power take-off (18) which drives the generator (30; 30 '), the power take-off (18) being gear-dependent or engine-dependent. Heavy-duty drive vehicle according to one of the preceding claims, characterized in that the power take-off (18) can be switched on. Heavy-duty drive vehicle according to one of the preceding claims, characterized in that the generator is an electric generator (30) or a hydraulic pump (30 '). Powered vehicle, in particular for a heavy-duty drive vehicle (10) according to one of the Claims 1 until 4th , characterized in that at least one wheel arrangement (22b, 22c) of the vehicle (20) can be supplied with drive energy generated by the generator (30; 30 '). Vehicle after Claim 5 , characterized in that at least one driven wheel arrangement (22b, 22c) of the vehicle (20) has an electric motor or a hydraulic motor to which the drive energy generated by the generator (30; 30 ') can be fed. Vehicle combination containing at least one heavy-duty drive vehicle (10) and at least one further vehicle (20) coupled to it, characterized in that the heavy-duty drive vehicle (10) according to one of the Claims 1 until 4th and / or the further vehicle according to one of the Claims 6 or 7th is trained. Vehicle network according to Claim 5 , characterized in that the at least one further vehicle (20) coupled to the heavy-duty drive vehicle (10) has at least one driven wheel arrangement (22b, 22c), and that this at least one driven wheel arrangement (22b, 22c) via at least one supply line ( 32a-32c; 32a ', 32b') is connected to the generator (30; 30 '). Vehicle assembly according to one of the preceding claims, characterized in that the or at least one of the driven wheel arrangements (22b, 22c) of the vehicle (20) has an electric motor or a hydraulic drive. Vehicle assembly according to one of the preceding claims, characterized in that the vehicle assembly (1) has a controller (35) for driving at least one wheel arrangement (22b, 22c) of the further vehicle (20). Vehicle assembly according to one of the preceding claims, characterized in that the vehicle assembly (1) has an energy store (36) in which the recuperation energy generated by the electric generator (30) and / or obtained during braking of the vehicle assembly (1) is storable. Vehicle combination according to one of the preceding claims, characterized in that the heavy-duty drive vehicle (10) is a heavy-duty towing vehicle (10 ') or a heavy-duty push vehicle (10 ").

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