EP2060375A1 - Construction machine - Google Patents

Abstract

Construction machine comprises a milling roller (10) provided on its surface with a number of tool holders (23). A tool (30), especially a straight shank tool, is exchangeably arranged in a tool-receiving element (24) of the tool holder. The milling roller is associated with a tool-changing device that removes the tool from the holder and/or mounts the tool in the holder. Preferred Features: The tool-changing device is a mechanical tool device arranged inside or outside the milling roller.

Description

The invention relates to a construction machine for processing ground surfaces, with a milling drum, on the surface of a plurality of chisel holders are arranged, wherein in a bit holder of the chisel holder a chisel, in particular a round shank chisel, interchangeable added, wherein the milling drum is associated with a tool changer, and wherein the tool changer disassembled the bit or bits from the bit holder and / or mounted therein.

A trained as a road milling machine construction machine is from the DE 39 03 482 A1 known. With road milling machines, road surfaces can be milled off. In the course of machine use, the chisels wear out continuously. If the chisels have reached a certain state of wear, they must be replaced. For this purpose, it is necessary that a worker goes into the area of the milling drum and drives out the chisels from the chisel holders there. When removing the chisel, the worker uses a special Austreibdornes and a hammer. This can lead to injuries.

The handling in the restricted milling drum area is extremely cumbersome and requires great care in order to minimize the risk of danger. After a chisel has been removed from its chisel holder, new unworn chisels must be inserted into the chisel holder. The exchange of the chisel is a very tedious and time-consuming job.

From the DE 32 23 761 C2 and the US 3,342,531 are manually operable change tools known. They have an approach that engages positively in a circumferential groove in the bit. The chisels can then be levered out of the associated bit holder. Although the replacement process is made easier, but the work on the milling drum is still dangerous and tedious.

It is an object of the invention to provide a road milling machine of the type mentioned, in which the replacement of the bit is simplified.

This object is achieved in that the tool changing device introduces at least one dynamic pulse into the milling drum, a part of the milling drum, the bit holder or a group of bit holders, and that the momentum introduces an expelling force into the bit due to the inertia of the bit.

According to the invention, an exchange tool is thus proposed, which automatically dismantles the worn chisel. In this way, the manual labor required to change the bits can be significantly reduced. The fact that the change process is at least partially automated, this can also be done faster, so that fewer machine downtime arise. Furthermore, with the arrangement according to the invention, the health hazard and the physical strain on the operator are reduced.

According to the invention, it is provided that, contrary to the disassembly direction of the bit, the tool changing device introduces at least one dynamic pulse into the milling drum, a part of the milling drum, the bit holder or a group of chisel holders. Accordingly, a pulse is generated by the tool changing device, which introduces an expelling force into the bit due to the inertia of the bit. The pulse can be built up, for example, by a vibration generated in the milling drum. It is also conceivable that one or more vibration devices are provided. Another possibility is that a pulse shaper is inserted on the milling drum. For this purpose, it can be provided, for example, that the milling drum is assigned a stop which is provided with a pointing into the working movement means stop surface, and that a pulse shaper applies a counter to the working movement direction force acting on the stop surface. In this case, the pulse shaper may be a mallet, which acts with its weight on this stop surface.

It can be provided according to the invention that the tool changing device has at least one tool changer, which can be assigned to the individual bit holders or groups of bit holders by means of an actuating unit. It is also conceivable that all chisels or chisel holders together is assigned a single tool changer. This then dismantles or assembles the chisel at the same time. In an alternative embodiment of the invention, it can also be provided that each tool holder is associated with a respective tool changer of the tool changing device and that the tool changer is firmly connected to the bit holder. The tool changers can be connected to each other via a common control. By means of this control, for example, a machine operator can change individual chisels, groups of chisels or all chisels at the same time.

As already described above, the design of the tool changing device may be such that the bit is positioned to the tool changer. The positioning of the bit can be done for example with an adjustment that positions the milling drum to the tool changer.

This can be done according to a possible variant of the invention such that the milling drum is coupled via a drive train to a drive motor of the construction machine, wherein the adjusting device has an auxiliary drive which can be coupled to the drive train, which rotates the milling drum in the raised state by a predetermined or selectable angle of rotation in which the torque of the auxiliary drive is higher than the moment of inertia of the milling drum and of the part of the drive train which is moved along with the milling drum when the drive motor is switched off or decoupled. Here you can take advantage of the given position pattern of the chisel and deposit it in a controller. It can also be provided that the setting unit and / or the adjusting device has a position measuring system and that the setting unit and / or the adjusting device is equipped with a numerical control.

The tool design can be such that the actuator positioned the at least one tool changer relative to the milling drum. In this case, the tool changer and the milling drum are then brought into position to each other.

It is also conceivable that tool changer are fixed on the machine side. The bits are then assigned to them as a result of a rotation of the milling drum.

The tool change can be further automated if it is provided that the tool changing device conveys the dismantled bit directly or via a conveyor into a container or that the tool changing device is associated with a separating device, and that the singulator feeds bits from a storage unit of the tool changing device.

Optimal utilization of the tool life can be achieved if it is provided that the milling drum is associated with a detection device, which continuously, at intervals or on default, the state of wear of the chisel or a portion of the chisel or a single bit, and that the detection device initiates or signals a tool change upon reaching a predetermined state of wear.

In this case, the wear detection can be designed, for example, such that at least one signal acquisition unit of the recognition device is assigned to at least one machine component directly or indirectly involved in the work process, that the signal acquisition unit detects an operating state of the machine component, and that the signal acquisition unit determines the state of wear via a signal processing arrangement ,

Figur 1

in Seitenansicht eine Fräswalze mit einer Werkzeugwechseleinrichtung im Fräswalzeninnenraum und

Figur 2

die Darstellung gemäß Fig. 1 in einer veränderten Arbeitsstellung.

The invention is illustrated below with reference to drawings. Show it:

FIG. 1

in side view a milling drum with a tool changing device in the milling drum interior and

FIG. 2

the representation according to Fig. 1 in a changed working position.

In the Fig. 1 is a rotary body of a road milling machine, namely a milling drum 10 is shown. On the roll surface 11 of the milling drum 10, base parts or directly chisel holders 23 can be arranged at a systematic spacing from each other. The base parts or the bit holder 23 are connected to the roller surface 11, preferably welded. If base parts are used, they have a plug-in receptacle. In turn, an insertion projection of a chisel holder 23 can be inserted into the plug-in receptacle. The fixing of the bit holder 23 to the base part via a pressure screw. The bit holder 23 has a bit receptacle 24, which is formed here as a bore. In the bore, a bit 30, in this case a round shank bit, are used. The bit 30 has a chisel head 31 to which a chisel tip 32 made of cemented carbide or a ceramic material is attached at the front.

At the chisel head 31, a shaft connects, on which a clamping sleeve is mounted. The clamping sleeve is not axially displaceable, but rotatably connected in the circumferential direction with the shaft.

The chisel head 31 lies with the interposition of a wear protection disc on a mating surface of the chisel holder.

As the FIGS. 1 and 2 can recognize, the milling drum 10 is associated with a tool changing device. The tool changing device has a tool changer 40, which is accommodated in the interior of the milling drum 10. The milling drum 10 has integrally formed bit holder 23. Of course, any differently shaped bit holder 23 may be used here.

The tool changer 40 has two articulated arms 47, 49, which are interconnected by means of a rotary joint 48. The articulated arm 47 is fixed in place by a rotary joint 46. At the free end of the second articulated arm 49, a pulse shaper 50 is arranged in the form of a weight. The milling drum 10 carries on its inner periphery a stop 51 with a stop surface 52. On the side facing away from the stop surface 52, the stop 51 has a deflection bevel 53rd

During normal milling operation insert, the tool changer 40 is in the Fig. 2 shown position held. If a chisel change is pending, he will be in the Fig. 1 shown position offset. Then the milling drum 10 is rotated in the circumferential direction until the pulse shaper 50 strikes the stop surface 52 of the stop 51. As a result, a pulse is generated, which counteracts the disassembly direction of the bit 30 acts. Due to this pulse, a force is introduced into the bit 30 which pushes it out of the bit receptacles 24.

After the pulse shaper 50 has impacted on the stop surface 52, it is deflected on the stop 51 and brought over the deflection bevel 53 back into its extended starting position.

The process for impulse can be repeated as needed. After completion of the expulsion, the tool changer 40 is returned to the in Fig. 2 brought back position.

Of course, a reversal of the principle of action is possible. In this case, the pulse shaper can be rotated.

It is conceivable that the milling drum 10 can be rotated via an auxiliary drive of an adjusting device. The auxiliary drive can be used when the milling drum 10 is lifted off the ground. Then it can be adjusted for tool change by means of the auxiliary drive. Advantageously, the auxiliary drive is also assigned a control unit. This rotates the milling drum 10 according to a predetermined program sequence, so that the chisel 30 or a part of the chisel 30 can be successively aligned with the tool changer 40.

Claims (17)

Construction machine for working floor surfaces, comprising a milling drum (10), on the surface of which a plurality of tool holders (23) are arranged, wherein a chisel (24) of the chisel holder (23) removably receives a chisel (30), in particular a round shank chisel wherein the milling drum is associated with a tool changer, and wherein the tool changer disassembles and / or mounts the bit (s) (30) of the bit holder (23),
characterized,
in that the tool change device introduces at least one dynamic pulse into the milling drum (10), a part of the milling drum (10), the bit holder (23) or a group of bit holders (23), and that the momentum due to the inertia of the bit (30) is an expelling force into the chisel (30). Construction machine according to claim 1,
characterized,
that the tool changing device is a mechanical tool device. Construction machine according to claim 1 or 2,
characterized,
that the tool changing device is disposed in the interior of the milling drum (10). Construction machine according to claim 1 or 2,
characterized,
that the tool changing device is arranged outside the milling drum (10). Construction machine according to one of claims 1 to 4,
characterized,
in that the tool changing device has at least one tool changer (40) which can be assigned to the individual bit holders (23) or groups of bit holders by means of an actuating unit. Construction machine according to one of claims 1 to 4,
characterized,
in that the tool changing device has a tool changer (40) which is assigned to all bit holders (23) at the same time. Construction machine according to one of claims 1 to 4,
characterized,
in that each toolholder (23) is assigned in each case a tool changer (40) to the tool changing device. Construction machine according to claim 7,
characterized,
in that the tool changer (40) is firmly connected to the bit holder (23). Construction machine according to one of claims 1 to 8,
characterized,
that the dynamic pulse is generated by means of a vibration device. Construction machine according to one of claims 1 to 9,
characterized,
in that the milling drum (10) is assigned at least one stop (51) which is provided with a stop surface (52) pointing in the working direction of movement, and
in that a pulse shaper (50) applies a force acting counter to the working direction of movement onto the stop surface (52). Construction machine according to claim 10,
characterized,
that the pulse shaper (50) is a mallet, which acts with a weight on the stop surface (52). Construction machine according to one of the preceding claims,
characterized,
that the milling drum (10) is coupled via a drive train with a drive motor of the construction machine,
wherein the adjusting unit has an auxiliary drive, which can be coupled to the drive train, which rotates the milling drum (10) in the raised state,
wherein the torque of the auxiliary drive is higher than the moment of inertia of the milling drum (10) and of the milling drum (10) co-moving part of the drive train with the drive motor switched off or decoupled. Construction machine according to one of claims 5 to 12,
characterized,
that the setting unit and / or the adjusting device has a position measuring system and
that the setting unit and / or the adjusting device is equipped with a numerical control. Construction machine according to one of claims 1 to 13,
characterized,
in that the tool changer conveys the dismantled bit (30) directly or via a conveyor into a container. Construction machine according to one of claims 1 to 14,
characterized,
that the tool changing device is associated with a separating device, and
in that the separating device conveys chisels (30) out of a storage unit of the tool changer. Construction machine according to one of claims 1 to 14,
characterized,
in that the milling drum (10) is associated with a detection device which continuously checks, at intervals or on specification, the state of wear of the bits (30) or a part of the bit (30) or of a single bit (30), and in that the detection device reaches upon reaching a predetermined state of wear initiates or signals a tool change. Construction machine according to claim 16,
characterized,
in that at least one signal pickup unit of the recognition device is associated with at least one machine component directly or indirectly involved in the work process, that the signal pickup unit detects an operating state of the machine component, and that the signal pickup unit determines the state of wear via a signal processing arrangement.

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