Applicant claims priority under 35 U.S.C. ยง119 of European Application No. 14163092.1 filed Apr. 1, 2014, the disclosure of which is incorporated by reference.
1. Field of the Invention
The invention relates to an apparatus for pile-driving or drilling, particularly a foundation machine.
2. Description of the Related Art
Leader-guided vibration pile drivers as well as drilling devices and foundation machines in general are regularly operated hydraulically. In this connection, an open hydraulic circuit is used, because in this way, in contrast to a closed circuit, the operation of different work devices, such as, for example, vibrators, drilling drives, presses, etc., as well as a switch between different consumers such as a work device or a drive of a crawler track drive is made possible. The open hydraulic circuit has a control block or valve block, from which different consumers can be controlled.
The previously known solutions have the disadvantage that the control block represents a hydraulic resistance for the oil volume stream. For this reason the control block brings about a reduction in the power to be transferred. A reduction of this power loss can be achieved by means of using a larger block having a larger cross-section, but this larger block requires a lot of construction space and is furthermore very expensive.
The lost power of the control block is caused by the flow valves used in the control block. Flow valves correspond to throttle valves in terms of their construction, and allow control of the hydraulic volume stream by way of a changeable pressure loss. The valves of the control block are controlled directly by the operator, by way of a manual controller, for example by means of a joystick (hydraulic pre-controller), or also by way of auxiliary valves, also called pre-control valves, which in turn are activated electrically by the operator. If only one consumer is being operated, for example a vibration pile-driver during pile-driving operation, when a vibrator uses the full power as the sole consumer, the control block does not have any function; it merely serves to pass the oil volume stream through, but does hinder the passage of the oil volume stream as a consequence of the design-related flow resistance.
The invention wishes to provide a remedy for this situation. The invention is based on the task of making available an apparatus for pile-driving or drilling, particularly a foundation machine having a hydraulic drilling or vibration drive, in which the hydraulic power lost as the result of the flow resistance in the control block is reduced. According to the invention, this task is accomplished by means of an apparatus for pile-driving or drilling, particularly a foundation machine, including at least one hydraulic drilling or vibration drive, which is connected with a control block in an open hydraulic circuit. By way of the drive at least one further consumer can be operated. The drive is connected with a pump by way of a first feed line and with a tank by way of a first return line. The hydraulic drive is additionally connected directly with the pump by way of a second feed line, and directly with the tank by way of a second return line.
With the invention, an apparatus for pile-driving or drilling, particularly a foundation machine having a hydraulic drilling or vibration drive, is created, in which the hydraulic power lost as the result of the flow resistance in the control block is reduced. Because the drive is additionally connected directly with the pump, by way of a second feed line, and directly with the tank, by way of a second return line, the control block is disposed hydraulically parallel to the actual working lines that lead directly from the pump to the work device as the main consumer and from the work device to the tank. The control block is therefore switched as a bypass for the direct connections between pump and working device and between working device and tank. In this way, direct application of hydraulic oil to the work device is made possible.
In a further development of the invention, a valve, preferably a directional valve for blocking the line, is disposed, in each instance, in the second feed line as well as in the second return line, in such a manner that in the blocked state of the second feed line and of the second return line, the control block functions as the only connection between pump and drive. Consequently, unrestricted supply to the consumers connected with the control block is guaranteed. The main volume stream flows through the control block, as described in the state of the art.
In a further development of the invention, a valve, preferably a directional valve, is disposed in the first feed line for blocking this line. As a result, after this valve is closed, no division of the volume stream in accordance with the hydraulic resistances both by way of the block and by way of the direct connection takes place. Because of the separation of the control block from the hydraulic circuit, a greater pressure can be permitted also in the case that the pressure in the hydraulic circuit is limited by the design-related permissible pressure in the control block.
In a further embodiment of the invention, the drive is directly connected with the pump by way of a third return line. In this embodiment at least one valve, in each instance, preferably a directional valve, is provided for optional separation of the hydraulic drive with the tank and connection of the hydraulic drive and the pump, in such a manner that a closed circuit between pump and drive can be achieved. Via the valves provided, the suction line in the pump can be optionally connected with the tank or with the return line from the work device. In this way, priming losses of the pump can be avoided.
Furthermore, the pump can be impacted with an elevated input pressure in this manner. Last but not least, greater efficiency can be achieved by means of a closed hydraulic circuit.
Other objects and features of the invention will become apparent from the following detailed description considered in connection with the accompanying drawings. It is to be understood, however, that the drawings are designed as an illustration only and not as a definition of the limits of the invention.
In the drawings, wherein similar reference characters denote similar elements throughout the several views:
Referring now in detail to the drawings the apparatus according to the invention will be described using a vibration pile-driver, the essential components of which are shown in
The vibration generator 3 is structured as a vibrator gear mechanism (
The hydraulic circuit 5 is shown in a first embodiment in
The drive feed line 63 is directly connected with the pump 52 by way of a second feed line 62. Furthermore, the drive return line 64 is directly connected with the tank 51 by way of a second return line 66, by way of the cooler 54. A first directional valve 71 is disposed in the second feed line, and a second directional valve 72 is disposed in the second return line. Feed to the hydraulic drive 37 by way of the control block 53 takes place by means of blocking the directional valves 71, 72; further consumers can be supplied at further connectors A, B of this block. In the open state of the directional valves 71, 72, the volume stream flows past the control block 53 without hindrance, whereby the entire volume stream divides in accordance with the hydraulic resistances and flows both by way of the control block 53 and directly to the hydraulic motor 37.
In the exemplary embodiment according to
In the exemplary embodiments according to
In the exemplary embodiment according to
Because of the losses that occur in every hydraulic circuit, the hydraulic oil warms up and therefore must be cooled. Oil coolers are regularly permitted for low pressures up to approximately 20 bar. When the circuit is open (directional valves 75, 76 open, directional valve 74 closed), the hydraulic oil runs into the tank 51 essentially without pressure, which oil is passed, in usual manner, to the tank 51 by way of an oil cooler. When the circuit is closed (directional valve 74 open, directional valves 75, 76 closed), such cooling is not easily possible. In order to cool the hydraulic oil in a closed circuit, the leakage oil that occurs in any case is regularly cooled. If necessary, an additional amount of oil is dispensed and passed by way of a cooler. The cooled oil must be returned to the hydraulic circuit by way of a feed pump. (In
Although only a few embodiments of the present invention have been shown and described, it is to be understood that many changes and modifications may be made thereunto without departing from the spirit and scope of the invention.
Number | Date | Country | Kind |
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14163092 | Apr 2014 | EP | regional |
Number | Name | Date | Kind |
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5752571 | Sapozhnikov | May 1998 | A |
5894781 | Kuvshinov | Apr 1999 | A |
Number | Date | Country |
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197 34 966 | Feb 1998 | DE |
Entry |
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European Search Report dated Oct. 6, 2014 in European Application No. 14 16 3092 with English translation of the relevant parts. |
Number | Date | Country | |
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20150275459 A1 | Oct 2015 | US |