12 - Land, air and water vehicles; parts of land vehicles
37 - Construction and mining; installation and repair services
42 - Scientific, technological and industrial services, research and design
Goods & Services
Locomotives; railbound vehicles; mobile railcar movers. Repair, maintenance and refurbishment of railbound vehicles
and locomotives; construction of railways. Engineering and design of railbound vehicles and
locomotives.
12 - Land, air and water vehicles; parts of land vehicles
37 - Construction and mining; installation and repair services
42 - Scientific, technological and industrial services, research and design
Goods & Services
Locomotives; railbound vehicles; mobile railcar movers. Repair, maintenance and refurbishment of railbound vehicles
and locomotives; construction of railways. Engineering and design of railbound vehicles and
locomotives.
12 - Land, air and water vehicles; parts of land vehicles
37 - Construction and mining; installation and repair services
42 - Scientific, technological and industrial services, research and design
Goods & Services
(1) Locomotives; Railbound vehicles, namely, internal combustion locomotives, diesel locomotives, accumulator powered locomotives, electric locomotives, rail cars; mobile railcar movers (1) Repair, maintenance and refurbishment of railbound vehicles and locomotives; construction of railways; engineering and design of railbound vehicles and locomotives
The invention relates to a harvesting machine (1) for harvesting sugarcane, comprising a plurality of functional units. At least one defoliating device (2) for defoliating cane stalks and a cutting device (3) for separating cane stalks are provided as functional units. The aim of the invention is to ensure a simple structural design and to achieve good harvesting results. This is achieved in that a portal structure (4) is provided with at least two portals (5, 6) which lie one behind the other, which are designed in a U-shaped manner, and which are open at the bottom. A portal structure (4) is provided with at least two portals (5, 6) which lie one behind the other, said portals (5, 6) being connected to each other by braces (7), and at least two running wheels (8) are provided on each face of the portal structure.
The invention relates to a harvesting machine (19) for harvesting plants such as sugar beet row by row, comprising a harvesting unit that has at least one harvesting device and a chassis (20). Said harvesting unit has at least one pair (1) of brush cylinders comprising two brush cylinders (2) lying adjacent to one another and standing obliquely vertically, used as a harvesting unit for stripping the leaves of the stalks (3) of the plants to be harvested, said stalks (3) being fed between the rotating brush cylinders (2) during the leaf-stripping process and having at least part of the leaves removed by the interacting brush cylinders (2). According to the invention, the brush cylinders (2) can be adjusted transversally to the harvesting direction (Yl) in order to adjust the degree of leaf-stripping during the leaf-stripping process as required, by altering the distance (ΔΧ) of the brush cylinders (2) in relation to one another.
The invention relates to a method for harvesting sugarcane by means of a harvesting machine (20), wherein leaves (15) of at least one sugarcane plant (10) are mechanically separated from at least one stalk (12), preferably from a plurality of stalks (12), of the sugarcane plant (10) by means of at least one defoliating unit (23), wherein the stalk (12) is separated from the root stock (17a) by means of at least one stalk separating unit (25) and the frond (13) at the end of the stalk (12) is separated from the stalk (12) by means of at least one stalk-cutting unit (21). According to the invention, the frond (13) is separated from the stalk (12) before defoliating the stalk (12) and is discarded and/or transported away.
Illustrated and described is a diesel-electric locomotive with an assembly comprising a diesel engine (1) and generator (2), wherein the generator (2) is connected to a drive unit (3), and wherein at least one particle filter (5) is positioned in an exhaust-gas flow (4) of the diesel engine (1). It is provided according to the invention that at least one electrical resistance heater (7) is arranged in and/or on an exhaust line (6) of the diesel engine (1) upstream of the particle filter (5).
F01N 3/027 - Exhaust or silencing apparatus having means for purifying, rendering innocuous, or otherwise treating exhaust for cooling, or for removing solid constituents of, exhaust by means of filters using means for regenerating the filters, e.g. by burning trapped particles using electric or magnetic heating
F01N 9/00 - Electrical control of exhaust gas treating apparatus
The invention relates to a locomotive (1), preferably a shunting locomotive and/or a main-line locomotive, especially a locomotive with a central driver's cab. Said locomotive comprises a locomotive frame (2), a leading front part (3) arranged on the locomotive frame (2) and/or a rear front part (4), and a driver's cab (5) which is adjacent to the leading front part (3) and/or the rear front part (4), preferably a central driver's cab arranged between the leading front part (3) and the rear front part (4). A roof of the driver's cab (5) has a roof overhang (7, 8) on at least one side of the driver's desk, and the roof overhang (7, 8) projects over a front window of the driver's cab (5). According to the invention, at least one flow passage (9, 10) is provided in the roof overhang (7, 8).
B61C 17/04 - Arrangement or disposition of driving cabins, footplates, or engine roomsVentilation thereof
B61D 17/02 - Construction details of vehicle bodies reducing air resistance by modifying contour
B61J 3/00 - Shunting or short-distance haulage devicesSimilar devices for hauling trains on steep gradients or as starting aidsCar-propelling devices therefor
The invention relates to a rail-bound tractive unit (1), with an internal combustion engine (2), an engine-cooling circuit (4), connected to an engine radiator for cooling the internal combustion engine (2) and means for braking the tractive unit. A coolant is circulated in the engine-cooling circuit (4). The braking means comprise at least one electrical resistance brake with at least one brake resistance (6). A brake-cooling circuit (7), carrying a coolant, is provided for cooling the brake resistance (6). According to the invention, the size of the heat transfer surface of the engine radiator (3), over which and/or through which the coolant flows when cooling, can be controlled and regulated automatically as a function of the temperature of the coolant in the internal combustion engine (2).
The invention relates to a method for harvesting green sugarcane in an automated fashion by means of a harvesting machine (10a, 10b), wherein leaves (20) of the sugarcane plant are mechanically separated from the stalk (15) of the sugarcane plant and wherein the stalk (15) is separated from the rootstock only after the leaves (20) have been removed.
The invention relates to a coke oven operating machine (9), particularly a coke discharge machine or a coke transfer machine, of a coke oven having a plurality of coking chambers that are disposed next to each other, having a coke oven operating device that is configured to collect and remove residual coke in or from the region of a primary duct of the coke oven, and having a suctioning device (10) for suctioning off emissions released in the region of a coke scoop (11) of the coke oven operating unit, wherein the coke oven operating machine (9) can be moved along the longitudinal direction of a primary duct of the coke oven, wherein the coke scoop (11) can be moved during the movement of the coke oven operating machine (9) from a base position into a collecting position for collecting the residual coke below an oven door of the coke chamber in proximity of the base of the primary duct, and wherein the suctioning device (10) has at least one suctioning element (12) having a suction opening (13) for suctioning off the released emissions. According to the invention, the suctioning element (12) is connected to the coke oven operating machine (9) separately from the coke scoop (11), and that the coke scoop (11) is disposed opposite the suctioning element (12) in a manner movable from the base position into the collecting position.
The present invention relates to a cleaning apparatus (1) for a stone stopper (2) of an oven door of a coke oven retort, having a cleaning device (3) designed for cleaning at least the stone stopper (2). It is proposed that a cleaning trough (4) be provided for the stone stopper (2) and that the cleaning device (3) be sited inside the cleaning trough (4), with the stone stopper (2), for cleaning purposes, being insertable from above into an opening (5) in the cleaning trough (4) and, in the course of cleaning, being sited substantially completely within the cleaning trough (4).
Shown and described is a method for the positional monitoring of a coke discharging device of a coke discharging machine (1), which has a pressure rod (3) and a pressure head (4) and is disposed in front of an opened coke oven chamber (6) of a coke oven (2) that is to be discharged, and possibly for the positioning of the pressure rod (4) in front of the coke oven chamber (6), wherein the thermal and/or infrared radiation emanating from an edge region of the pressure head (4) and from an edge region of a door frame (7) of the coke oven chamber (6) that is adjacent to the edge region of the pressure head (4) and also the thermal or infrared radiation possibly emanating from an internal region of the coke oven chamber (6) are detected, wherein the width (b1, b2) of at least one edge spacing between an edge of the pressure head (4) and an edge of a door frame (7) is determined on the basis of the detected radiation and wherein, preferably, at least one item of control information for a positioning device of the coke discharging machine (1) and/or a warning message is automatically generated on the basis of the determined width (b1, b2) of the edge spacing. According to the invention, it is provided that a skewed or inclined position of the pressure head (4) in relation to the door frame (7) and/or a lowering of the pressure head (4) in relation to the door frame (7) is determined on the basis of the determined width (b1, b2).
The invention relates to a cleaning device (1) for cleaning an oven door (2) of a coking chamber of a coke oven, the oven door (2) having a door plug (3) and at least one outer peripheral knife-edge seal (4), with a mechanical abrasive device (5) for the abrasive cleaning of a door-plug region and a high-pressure cleaning device (7), having nozzles (6), for the high-pressure cleaning of at least the knife-edge seal region (10). In order to provide simple and low-cost cleaning in which the knife-edge seal region is stressed as little as possible, it is provided according to the invention that the high-pressure cleaning device (7) has rotating nozzles for cleaning the knife-edge seal region (10).
The invention relates to a coke oven operating device (1) which is used to clean, by means of at least one milling device (5), the door stop (2) of an oven door (3) of a coking chamber of a coke oven (4) which comprises a plurality of coking chambers which are arranged adjacent to each other. Said milling device (5) is arranged on at least one carrier frame (6) which can be displaced along a guide. According to the invention, a stationary maintaining frame (7) for the displaceable carrier frame (6) is provided, such that the guide is formed by a plurality of guide elements of the maintaining frame (7) and that the maintaining frame (7) comprises means (11) for centering the door and/or for fixing the oven door (3) to the maintaining frame (7), such that the milling device (5) can be displaced along a lateral surface of the door stop (2) of a oven door (3) which is lodged in or fixed to the maintaining frame (7).
Disclosed is a machine (1) for manipulating a coke oven (2) encompassing a plurality of adjacent coking chambers. Said machine (1) comprises a sucking device (3) for withdrawing emissions discharged from an open coking chamber, a door lifting mechanism (4), and other optional coke oven manipulating devices. In order to manipulate the coking chambers, the coke oven manipulating machine (1) is arranged so as to be movable relative to the coking chambers along a coke oven (2) gallery (5). In order to shield the gallery (5) from wind in the zone of a coking chamber that is to be operated, at least two adjacent windshield walls (9) which extend substantially transversal to the gallery (5) in the direction of the coking chamber in at least some areas are provided to form a shielded zone (10). Furthermore, the sucking device (3), the door lifting mechanism (4), and other coke oven manipulating devices are positioned between the adjacent windshield walls (9) while the windshield walls (9) are placed at a distance from each other such that the door lifting mechanism (4) and the optional other coke oven manipulating devices can be operated within the shielded zone (10).
The invention relates to a coke oven operating unit (1) of a coke pushing machine and/or a coke transfer machine of a coke oven comprising a large number of neighbouring coking chambers (3), said unit being designed to catch residual coke and remove it from the area of the primary duct (2) of the coke oven. The unit comprises a scoop unit (4) with at least one coke scoop (5), the latter (5) adopting a catching position below an oven door of the coking chamber (3) in the vicinity of the base of the primary duct (2), in order to catch the residual coke and the residues that are cleaned from the oven. According to the invention, at least one suction unit (12) is situated on and/or in the coke scoop (5) to siphon off the emissions that are released in the vicinity of the coke scoop (5).
The invention relates to a method of filling a furnace chamber (1) of a coke furnace with coal via at least one filling hole (6). According to the invention, it is provided that at least one vibrator (13) having a vibratory drive with an unbalance mass as an active vibration element of a vibrating means (12) for compacting the coal before or during the introduction of the coal as such is introduced completely into the furnace chamber (1) via a filling hole (6) or a further opening (18) alongside the filling hole (6) in the furnace roof (3), that the vibrator compacts the coal introduced into the furnace chamber (1) and that the vibrator (13) is withdrawn from the furnace chamber (1) before the coking process begins.
12 - Land, air and water vehicles; parts of land vehicles
37 - Construction and mining; installation and repair services
Goods & Services
Mining machines, Parts for the aforesaid machines, Included in class 7. Vehicles; Rail vehicles, Parts for the aforesaid vehicles, as far as included in class 12. Installation, servicing, maintenance and repair of machines and vehicles, other than installation, servicing, maintenance and repair of coking plant machines and coke oven machines; Mining machines, vehicles and rail vehicles.
