US20150129271A1 - Diesel hammer pile driver - Google Patents
Diesel hammer pile driver Download PDFInfo
- Publication number
- US20150129271A1 US20150129271A1 US14/533,165 US201414533165A US2015129271A1 US 20150129271 A1 US20150129271 A1 US 20150129271A1 US 201414533165 A US201414533165 A US 201414533165A US 2015129271 A1 US2015129271 A1 US 2015129271A1
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- United States
- Prior art keywords
- pile driver
- cylinder
- diesel hammer
- striker
- disposed
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- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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- E—FIXED CONSTRUCTIONS
- E02—HYDRAULIC ENGINEERING; FOUNDATIONS; SOIL SHIFTING
- E02D—FOUNDATIONS; EXCAVATIONS; EMBANKMENTS; UNDERGROUND OR UNDERWATER STRUCTURES
- E02D7/00—Methods or apparatus for placing sheet pile bulkheads, piles, mouldpipes, or other moulds
- E02D7/02—Placing by driving
- E02D7/06—Power-driven drivers
- E02D7/12—Drivers with explosion chambers
- E02D7/125—Diesel drivers
Definitions
- the invention relates to a diesel hammer pile driver, having a cylinder, a piston displaceably guided in the cylinder, and a striker displaceably guided in the cylinder.
- Diesel hammer pile drivers also called diesel hammers or diesel pile drivers, are particularly used in foundation work in the construction industry.
- the diesel hammer pile drivers are used for driving posts of all kinds, such as concrete pillars, iron beams, sheet pile wall elements or the like into a construction ground.
- the piston is pulled upward within the cylinder, using a disengagement apparatus, and disengaged at a specific height, thereby dropping downward onto the striker, under the effect of gravity.
- the piston activates a fuel pump, by way of which feed of fuel, particularly diesel oil, takes place.
- the air situated in the combustion chamber of the cylinder is compressed by the dropping piston, and thereby heated so that the fuel/air mixture present in the combustion chamber is ignited, whereupon it combusts in the manner of an explosion.
- Diesel hammer pile drivers of the aforementioned type as it is described in EP 1 828 488 B1, for example, have proven themselves in practice because of their simple structure and their resulting reliability. In operation, however, such diesel hammer pile drivers are very loud and can cause a noise level of 100 decibels (A) and more.
- a diesel hammer pile driver of the aforementioned type is created, in which the noise emission is reduced.
- this task is accomplished by means of a diesel hammer pile driver having a cylinder, a piston displaceably guided in the cylinder and a striker displaceably guided in the cylinder.
- the striker is disposed underneath the piston in the operating position of the diesel hammer pile driver, and a combination chamber is provided.
- the combination chamber is delimited axially by a face surface of the striker that lies in the interior of the cylinder, and by a face surface of the piston, and opens into a fuel feed device.
- a predetermined amount of fuel can be introduced into the combustion chamber during each working cycle.
- At least two working connectors are disposed to pass through the circumference wall of the cylinder.
- At least one working cylinder is provided with a muffler device.
- a diesel hammer pile driver of the aforementioned type is made available, the noise emission of which is reduced. Because at least one working connector is provided with a muffler device, the noise emissions initiated by the expansion of the combustion gases are clearly reduced.
- the at least two working connectors are disposed on two imaginary horizontal planes, vertically spaced apart from one another, so that at least one working connector is disposed vertically offset relative to a second working connector, whereby the at least one lower working connector disposed on the lower plane is provided with a muffler device.
- the piston When the piston is accelerated upward, it first releases the lower working connector, after which the exhaust gases escape through the muffler. Subsequently, the vertically offset second working connector is released, thereby making it possible to draw fresh air into the combustion chamber.
- the at least one upper working connector disposed on the upper plane does not have a muffler apparatus.
- a muffler apparatus In this way, unhindered flow of fresh air into the combustion chamber is achieved. In this way, entrainment of dirt particles possibly adhering in a muffler that might be provided, into the combustion chamber, is prevented.
- the two planes are spaced apart from one another by between 80 millimeters and 120 millimeters, preferably between 95 millimeters and 115 millimeters. It has been shown that in this way, an optimal displacement distance of the upwardly moving piston is achieved, in which the combustion gases escape from the lower working connector, provided with a muffler device, before the upper working connectors are released, thereby causing fresh air to be drawn into the combustion chamber.
- the muffler device is formed by a mantled perforated pipe. In this way, a simple and, at the same time, effective absorber muffler is formed, which is not susceptible to contamination by combustion gases.
- the muffler device is attached to the cylinder, elastically mounted by way of vibration elements.
- the vibration elements are configured as elastomer components or rubber components.
- a strike hood for accommodating the material to be pile-driven is disposed below the striker. The striker is disposed, at least in certain regions, so as to surround a sound absorption element. In this way, damping of the noise emissions that occur when the striker impacts the strike hood is brought about.
- the sound absorption element is formed from at least one perforated sheet-metal cassette filled with an absorber material.
- the absorber material is preferably formed from mineral insulation wool, melanin resin foam or another suitable porous material.
- FIG. 1 is a schematic representation of a diesel hammer pile driver
- FIG. 2 is a representation, as a detail, of the diesel hammer pile driver with a muffler device disposed on a working connector;
- FIG. 3 is a detailed representation of the muffler device in FIG. 2
- FIG. 4 is a schematic representation of the lower section of a diesel hammer pile driver with strike hood disposed to accommodate material to be pile-driven.
- the diesel hammer pile driver shown in FIG. 1 selected as an exemplary embodiment comprises a cylinder 1 that is open on both sides, and regularly can have a length of 3 to 8 meters and a diameter of 0.2 to 1.5 meters.
- a piston 2 is displaceably disposed in the cylinder 1 .
- a striker 3 coaxial to the piston 2 engages into the open lower end of the cylinder 1 , in displaceable manner.
- a ring-shaped bearing unit 9 is attached at the lower end of the cylinder 1 , in which unit a central shaft section 31 of the striker 3 is guided in tight and displaceable manner.
- Central shaft section 31 has an outside diameter that is reduced as compared with the inside diameter of the cylinder 1 .
- the diesel hammer pile driver is mounted so as to be vertically displaceable along a leader 8 , by way of guide jaws 13 disposed on the cylinder 1 .
- a strike plate 32 is formed onto the lower end of the shaft section 31 , lying underneath the cylinder 1 , the lower convex delimitation surface 33 of which plate, directed outward, interacts with the upper end of a material to be pile-driven, during operation.
- a combustion chamber 12 is delimited by the top of the piston section 34 of the striker 3 , together with the underside of the piston 2 , as well as the inner mantle surface 11 of the cylinder 1 .
- the face surface of the striker 3 that faces the combustion chamber 12 of the cylinder 1 is ground to be level with a flat fuel bowl.
- a damping ring 91 is disposed between the strike plate 32 of the striker 3 and the bearing unit 9 of the cylinder 1 .
- a further damping ring 92 is disposed adjacent to the bearing unit 9 , between the top of the bearing unit 9 and the underside of the piston section 34 of the striker 3 .
- a lower working end 23 of the piston 2 provided with circumferential sealing rings 93 that are axially spaced apart from one another, runs in the interior of the cylinder 1 , above the striker 3 .
- the lower, free face surface 21 of the piston 2 is set off by a circumferential step that lies radially on the outside.
- a mass section 22 that extends into the upper section of the cylinder 1 is formed onto the lower working end 23 of the piston 2 .
- An injection apparatus 4 is disposed on the circumference wall of the cylinder 1 , which apparatus comprises a fuel pump 41 that is connected with the injection nozzle 42 by way of a line 43 .
- the inlet of the fuel pump 41 is supplied with diesel oil by way of a fuel tank 45 .
- the fuel pump 41 has a biased pump lever 44 that projects into the interior of the cylinder 1 , by way of which the pump is driven when the dropping piston 2 goes past.
- the injection nozzle 42 is configured and oriented in such a manner that the fuel emitted is sprayed approximately in the center of the face surface of the striker 3 , in an essentially cohesive jet.
- a lubricant pump 7 is disposed on the cylinder 1 , which pump is connected with lubricant nozzles distributed in the circumference direction of the cylinder 1 . Lubricant is dispensed between the piston 2 and the inner mantle surface 11 of the cylinder 1 by the lubricant nozzles.
- the circumference wall of the cylinder 1 has two working connectors 16 , 17 shown in FIG. 2 passing through it at a slant, upward, approximately at the level of the injection apparatus 4 ; the combustion air is drawn in and combustion gases are emitted by way of these connectors.
- the working connectors 16 , 17 are disposed on two imaginary horizontal planes E u and E o disposed vertically at a distance from one another, whereby the lower working connector 16 , disposed on the lower plane E u , is disposed on the opposite side of the upper working connector 17 , disposed on the upper plane E o , passing through the cylinder 1 .
- the lower working connector 16 is provided with a muffler device 5 .
- the muffler device 5 is essentially formed by a perforated pipe 51 provided with a connector pipe piece 52 , which pipe is disposed centered in a cylindrically configured mantling 53 . See FIGS. 3 a and 3 b .
- the mantling 53 is provided, on both sides, with an accommodation flange 54 , in each instance, which accommodates the perforated pipe 51 and which is provided with holes 55 on the radial circumference.
- the muffler device 5 is attached to the cylinder 1 by way of two holding arms 56 disposed at a distance from one another. Vibration elements 57 are disposed between the holding arms 56 and the mantling 53 of the muffler device 5 , thereby bringing about uncoupling of the muffler device 5 from the cylinder 1 , to a great extent.
- the connector pipe piece 52 of the muffler device 5 opens into the lower working connector 16 of the cylinder 1 .
- the lower working connector 16 is disposed vertically offset from the upper working connector 17 by 105 millimeters.
- the mass section 22 of the piston 2 has an undercut that forms an entrainment shoulder—not shown—for engagement of a driver of a disengagement apparatus—not shown.
- a strike hood 6 for accommodating a material 81 to be pile-driven is disposed underneath the striker 3 of the diesel hammer pile driver. See FIG. 4 .
- the strike hood 6 is essentially formed by a mounting 61 that engages around the material 81 to be pile-driven, which mounting has a strike plate 62 on its side facing the striker 3 .
- the mounting 61 is enclosed by a hood part 63 that projects beyond the mounting 61 in the direction of the striker 3 . In this way, a frame is formed above the mounting 61 , on which sound absorption elements 64 are disposed, surrounding the striker, which elements lie on the mounting 61 .
- the sound absorption elements 64 are configured in such a manner that a collision of the striker 3 with the sound absorption elements 64 is prevented, but at the same time, the strike plate 32 of the striker 3 is more or less completely enclosed, thereby bringing about significant damping of the noise emissions generated by the impacts of the striker 3 on the strike plate 62 of the strike hood 6 .
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- Engineering & Computer Science (AREA)
- Life Sciences & Earth Sciences (AREA)
- General Life Sciences & Earth Sciences (AREA)
- Mining & Mineral Resources (AREA)
- Paleontology (AREA)
- Civil Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Structural Engineering (AREA)
- Placing Or Removing Of Piles Or Sheet Piles, Or Accessories Thereof (AREA)
- Portable Nailing Machines And Staplers (AREA)
Abstract
A diesel hammer pile driver has a cylinder, a piston displaceably guided in the cylinder and a striker displaceably guided in the cylinder. The striker is disposed underneath the piston in the operating position of the diesel hammer pile driver. A combustion chamber is delimited axially by a face surface of the striker that lies in the interior of the cylinder and by a face surface of the piston, and opens into a fuel feed device. Using the fuel feed device a predetermined amount of fuel can be introduced into the combustion chamber during each working cycle. At least two working connectors are disposed to pass through the circumference wall of the cylinder at the level of the fuel feed device, wherein at least one working connector is provided with a muffler device.
Description
- Applicant claims priority under 35 U.S.C. §119 of European Application No. 13 192 600.8 filed Nov. 12, 2013, the disclosure of which is incorporated by reference.
- 1. Field of the Invention
- The invention relates to a diesel hammer pile driver, having a cylinder, a piston displaceably guided in the cylinder, and a striker displaceably guided in the cylinder.
- 2. Description of the Related Art
- Diesel hammer pile drivers, also called diesel hammers or diesel pile drivers, are particularly used in foundation work in the construction industry. The diesel hammer pile drivers are used for driving posts of all kinds, such as concrete pillars, iron beams, sheet pile wall elements or the like into a construction ground.
- To start such a diesel hammer pile driver, the piston is pulled upward within the cylinder, using a disengagement apparatus, and disengaged at a specific height, thereby dropping downward onto the striker, under the effect of gravity. As it drops, the piston activates a fuel pump, by way of which feed of fuel, particularly diesel oil, takes place. The air situated in the combustion chamber of the cylinder is compressed by the dropping piston, and thereby heated so that the fuel/air mixture present in the combustion chamber is ignited, whereupon it combusts in the manner of an explosion. As a result of the explosion energy released during this process, for one thing the piston is accelerated back upward for a new work cycle, whereby the expanding combustion gases flow out of the working connectors and subsequently fresh air is drawn into the combustion chamber by means of the piston, which continues to rise upward. At the same time, the material being pile-driven is driven into the ground by way of the striker.
- Diesel hammer pile drivers of the aforementioned type, as it is described in
EP 1 828 488 B1, for example, have proven themselves in practice because of their simple structure and their resulting reliability. In operation, however, such diesel hammer pile drivers are very loud and can cause a noise level of 100 decibels (A) and more. - The invention wishes to provide a remedy for this situation. With the invention, a diesel hammer pile driver of the aforementioned type is created, in which the noise emission is reduced. According to the invention, this task is accomplished by means of a diesel hammer pile driver having a cylinder, a piston displaceably guided in the cylinder and a striker displaceably guided in the cylinder. The striker is disposed underneath the piston in the operating position of the diesel hammer pile driver, and a combination chamber is provided. The combination chamber is delimited axially by a face surface of the striker that lies in the interior of the cylinder, and by a face surface of the piston, and opens into a fuel feed device. By means of this device, a predetermined amount of fuel can be introduced into the combustion chamber during each working cycle. At least two working connectors are disposed to pass through the circumference wall of the cylinder. At least one working cylinder is provided with a muffler device.
- With the invention, a diesel hammer pile driver of the aforementioned type is made available, the noise emission of which is reduced. Because at least one working connector is provided with a muffler device, the noise emissions initiated by the expansion of the combustion gases are clearly reduced.
- In a further development of the invention, the at least two working connectors are disposed on two imaginary horizontal planes, vertically spaced apart from one another, so that at least one working connector is disposed vertically offset relative to a second working connector, whereby the at least one lower working connector disposed on the lower plane is provided with a muffler device. When the piston is accelerated upward, it first releases the lower working connector, after which the exhaust gases escape through the muffler. Subsequently, the vertically offset second working connector is released, thereby making it possible to draw fresh air into the combustion chamber.
- Preferably, the at least one upper working connector disposed on the upper plane does not have a muffler apparatus. In this way, unhindered flow of fresh air into the combustion chamber is achieved. In this way, entrainment of dirt particles possibly adhering in a muffler that might be provided, into the combustion chamber, is prevented.
- In a further embodiment of the invention, the two planes are spaced apart from one another by between 80 millimeters and 120 millimeters, preferably between 95 millimeters and 115 millimeters. It has been shown that in this way, an optimal displacement distance of the upwardly moving piston is achieved, in which the combustion gases escape from the lower working connector, provided with a muffler device, before the upper working connectors are released, thereby causing fresh air to be drawn into the combustion chamber.
- In a further development of the invention, the muffler device is formed by a mantled perforated pipe. In this way, a simple and, at the same time, effective absorber muffler is formed, which is not susceptible to contamination by combustion gases.
- In a further embodiment of the invention, the muffler device is attached to the cylinder, elastically mounted by way of vibration elements. In this way, uncoupling of the muffler device relative to the cylinder is achieved, thereby further reducing noise emissions. Preferably, the vibration elements are configured as elastomer components or rubber components. In a further embodiment, a strike hood for accommodating the material to be pile-driven is disposed below the striker. The striker is disposed, at least in certain regions, so as to surround a sound absorption element. In this way, damping of the noise emissions that occur when the striker impacts the strike hood is brought about.
- In a further development of the invention, the sound absorption element is formed from at least one perforated sheet-metal cassette filled with an absorber material. In this way, a robust and shock-resistant sound absorption element is brought about. In this connection, the absorber material is preferably formed from mineral insulation wool, melanin resin foam or another suitable porous material.
- 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:
-
FIG. 1 is a schematic representation of a diesel hammer pile driver; -
FIG. 2 is a representation, as a detail, of the diesel hammer pile driver with a muffler device disposed on a working connector; -
FIG. 3 is a detailed representation of the muffler device inFIG. 2 -
- a) in a spatial representation;
- b) in longitudinal sectional;
-
FIG. 4 is a schematic representation of the lower section of a diesel hammer pile driver with strike hood disposed to accommodate material to be pile-driven. - Referring now in detail to the drawings the diesel hammer pile driver shown in
FIG. 1 selected as an exemplary embodiment comprises acylinder 1 that is open on both sides, and regularly can have a length of 3 to 8 meters and a diameter of 0.2 to 1.5 meters. Apiston 2 is displaceably disposed in thecylinder 1. Astriker 3 coaxial to thepiston 2 engages into the open lower end of thecylinder 1, in displaceable manner. A ring-shaped bearing unit 9 is attached at the lower end of thecylinder 1, in which unit acentral shaft section 31 of thestriker 3 is guided in tight and displaceable manner.Central shaft section 31 has an outside diameter that is reduced as compared with the inside diameter of thecylinder 1. The diesel hammer pile driver is mounted so as to be vertically displaceable along aleader 8, by way ofguide jaws 13 disposed on thecylinder 1. - A
strike plate 32 is formed onto the lower end of theshaft section 31, lying underneath thecylinder 1, the lowerconvex delimitation surface 33 of which plate, directed outward, interacts with the upper end of a material to be pile-driven, during operation. - A
piston section 34 having multiple circumferential sealing rings, axially at a distance from one another, which run on theinner mantle surface 11 of thecylinder 1, is formed on at the upper end of theshaft section 31 of thestriker 3. Acombustion chamber 12 is delimited by the top of thepiston section 34 of thestriker 3, together with the underside of thepiston 2, as well as theinner mantle surface 11 of thecylinder 1. The face surface of thestriker 3 that faces thecombustion chamber 12 of thecylinder 1 is ground to be level with a flat fuel bowl. - A damping
ring 91 is disposed between thestrike plate 32 of thestriker 3 and thebearing unit 9 of thecylinder 1. A further dampingring 92 is disposed adjacent to thebearing unit 9, between the top of thebearing unit 9 and the underside of thepiston section 34 of thestriker 3. - A lower working
end 23 of thepiston 2, provided with circumferential sealing rings 93 that are axially spaced apart from one another, runs in the interior of thecylinder 1, above thestriker 3. The lower,free face surface 21 of thepiston 2, ground to be planar, is set off by a circumferential step that lies radially on the outside. - A
mass section 22 that extends into the upper section of thecylinder 1 is formed onto the lower workingend 23 of thepiston 2. Aninjection apparatus 4 is disposed on the circumference wall of thecylinder 1, which apparatus comprises afuel pump 41 that is connected with theinjection nozzle 42 by way of aline 43. The inlet of thefuel pump 41 is supplied with diesel oil by way of afuel tank 45. - The
fuel pump 41 has a biasedpump lever 44 that projects into the interior of thecylinder 1, by way of which the pump is driven when thedropping piston 2 goes past. Theinjection nozzle 42 is configured and oriented in such a manner that the fuel emitted is sprayed approximately in the center of the face surface of thestriker 3, in an essentially cohesive jet. - Furthermore, a
lubricant pump 7 is disposed on thecylinder 1, which pump is connected with lubricant nozzles distributed in the circumference direction of thecylinder 1. Lubricant is dispensed between thepiston 2 and theinner mantle surface 11 of thecylinder 1 by the lubricant nozzles. - The circumference wall of the
cylinder 1 has two workingconnectors FIG. 2 passing through it at a slant, upward, approximately at the level of theinjection apparatus 4; the combustion air is drawn in and combustion gases are emitted by way of these connectors. - In this connection, the working
connectors connector 16, disposed on the lower plane Eu, is disposed on the opposite side of the upper workingconnector 17, disposed on the upper plane Eo, passing through thecylinder 1. Thelower working connector 16 is provided with amuffler device 5. - The
muffler device 5 is essentially formed by aperforated pipe 51 provided with aconnector pipe piece 52, which pipe is disposed centered in a cylindrically configuredmantling 53. SeeFIGS. 3 a and 3 b. The mantling 53 is provided, on both sides, with anaccommodation flange 54, in each instance, which accommodates theperforated pipe 51 and which is provided withholes 55 on the radial circumference. - The
muffler device 5 is attached to thecylinder 1 by way of two holdingarms 56 disposed at a distance from one another.Vibration elements 57 are disposed between the holdingarms 56 and the mantling 53 of themuffler device 5, thereby bringing about uncoupling of themuffler device 5 from thecylinder 1, to a great extent. Theconnector pipe piece 52 of themuffler device 5 opens into the lower workingconnector 16 of thecylinder 1. In the exemplary embodiment, the lower workingconnector 16 is disposed vertically offset from the upper workingconnector 17 by 105 millimeters. - In order to raise the
piston 2 for the first time, to start the diesel hammer pile driver, themass section 22 of thepiston 2 has an undercut that forms an entrainment shoulder—not shown—for engagement of a driver of a disengagement apparatus—not shown. - In the exemplary embodiment, a
strike hood 6 for accommodating a material 81 to be pile-driven is disposed underneath thestriker 3 of the diesel hammer pile driver. SeeFIG. 4 . Thestrike hood 6 is essentially formed by a mounting 61 that engages around thematerial 81 to be pile-driven, which mounting has astrike plate 62 on its side facing thestriker 3. The mounting 61 is enclosed by ahood part 63 that projects beyond the mounting 61 in the direction of thestriker 3. In this way, a frame is formed above the mounting 61, on whichsound absorption elements 64 are disposed, surrounding the striker, which elements lie on the mounting 61. In this connection, thesound absorption elements 64 are configured in such a manner that a collision of thestriker 3 with thesound absorption elements 64 is prevented, but at the same time, thestrike plate 32 of thestriker 3 is more or less completely enclosed, thereby bringing about significant damping of the noise emissions generated by the impacts of thestriker 3 on thestrike plate 62 of thestrike hood 6. - With the impacts of the
piston 2 on thestriker 3, a force directed downward is exerted on thestriker 3 and, by way of thestriker 3, onto thestrike hood 6 that accommodates the material 81 to be pile-driven, which force drives the material to be pile-driven further into the ground. During the subsequent upward movement of thepiston 2, triggered by the explosion-like combustion of the fuel, the piston first releases the lower workingconnector 16, thereby causing the combustion gases to relax and to escape from the workingconnector 16 by way of themuffler device 5. After the upper workingconnector 17 is released, fresh air is drawn in by thepiston 2 that is further accelerated upward, until thepiston 2 has reached its upper end position and the work cycle, as described, is repeated. Because the fresh air can flow in through the upper workingconnector 17, which is not provided with a muffler device, without hindrance, only very slight suction through the lower workingconnector 16 that is provided with themuffler device 5 takes place, thereby preventing renewed introduction of dirt particles from the escaping combustion gases. - 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.
Claims (11)
1. A diesel hammer pile driver comprising:
(a) a cylinder having an interior and a circumferential wall;
(b) at least first and second working connectors extending through the circumferential wall;
(c) a fuel feed device;
(d) a piston displaceably guided in the cylinder and having a piston face surface;
(e) a striker displaceably guided in the cylinder and disposed underneath the piston in an operating position, said striker having a striker face surface lying in the interior of the cylinder;
(f) a combustion chamber delimited axially by the striker face surface and by the piston face surface and opening into the fuel feed device for introduction of a predetermined amount of fuel into the combustion chamber during each working cycle; and
(g) a muffler device provided on at least the first working connector.
2. The diesel hammer pile driver according to claim 1 , wherein the first and second working connectors are disposed on lower and upper imaginary horizontal planes, vertically spaced apart from one another, so that at least the first working connector is disposed vertically offset relative to the second working connector, wherein the first working connector provided with the muffler device is disposed on the lower imaginary horizontal plane.
3. The diesel hammer pile driver according to claim 2 , wherein the second working connector is disposed on the upper imaginary horizontal plane and does not have a muffler device.
4. The diesel hammer pile driver according to claim 2 , wherein the lower and upper imaginary horizontal planes are spaced apart from one another by between 80 mm and 120 mm.
5. The diesel hammer pile driver according to claim 2 , wherein the lower and upper imaginary horizontal planes are spaced apart from one another by between 95 mm and 115 mm.
6. The diesel hammer pile driver according to claim 1 , wherein the muffler device is formed by a mantled perforated pipe.
7. The diesel hammer pile driver according to claim 1 , wherein the muffler device is attached to the cylinder, by way of vibration elements, so as to be elastically mounted.
8. The diesel hammer pile driver according to claim 7 , wherein the vibration elements comprise elastomer components or rubber components.
9. The diesel hammer pile driver according to claim 1 , further comprising a strike hood for accommodating a material to be pile-driven disposed below the striker, wherein the striker is disposed, at least in certain regions, so as to surround a sound absorption element.
10. A diesel hammer pile driver according to claim 9 , wherein the sound absorption element is formed from at least one perforated sheet-metal cassette filled with an absorber material.
11. The diesel hammer pile driver according to claim 10 , wherein the absorber material is formed from mineral insulation wool, melanin resin foam or another porous material.
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
EP13192600.8A EP2871287B1 (en) | 2013-11-12 | 2013-11-12 | Diesel pile driver |
EP13192600.8 | 2013-11-12 |
Publications (1)
Publication Number | Publication Date |
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US20150129271A1 true US20150129271A1 (en) | 2015-05-14 |
Family
ID=49582593
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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US14/533,165 Abandoned US20150129271A1 (en) | 2013-11-12 | 2014-11-05 | Diesel hammer pile driver |
Country Status (3)
Country | Link |
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US (1) | US20150129271A1 (en) |
EP (1) | EP2871287B1 (en) |
CN (1) | CN104631455A (en) |
Families Citing this family (1)
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CN110468839B (en) * | 2019-08-26 | 2022-05-13 | 成都青舟特机环境技术有限公司 | Diesel pile driver tail gas treatment facility |
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- 2013-11-12 EP EP13192600.8A patent/EP2871287B1/en not_active Not-in-force
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2014
- 2014-11-05 US US14/533,165 patent/US20150129271A1/en not_active Abandoned
- 2014-11-12 CN CN201410633628.5A patent/CN104631455A/en active Pending
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Also Published As
Publication number | Publication date |
---|---|
EP2871287B1 (en) | 2016-06-08 |
CN104631455A (en) | 2015-05-20 |
EP2871287A1 (en) | 2015-05-13 |
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
AS | Assignment |
Owner name: DELMAG GMBH & CO. KG, GERMANY Free format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNORS:JERCH, LEOPOLD;HEICHEL, MATTHIAS;REEL/FRAME:034105/0503 Effective date: 20141024 |
|
STCB | Information on status: application discontinuation |
Free format text: ABANDONED -- FAILURE TO RESPOND TO AN OFFICE ACTION |