EP0377754A1 - Stroke-action device - Google Patents

Abstract

A stroke-action device comprising a casing (1) with a main support surface (6) and, mounted coaxially on it, a striker (2) with another main support surface (7), a drive for the striker (2), an elastic element (9) and a working instrument (4). The casing (1) and the striker (2) are provided with additional support surfaces (10, 11) located opposite to the main support surfaces (6, 7). The elastic element (9) is mounted with the possibility of interacting by one of its ends with the additional support surface (10) of the casing (1) and with the main support surface (11) of the striker (2), whereas its other end is mounted with the possibility of interacting with the additional support surface (11) of the striker (2) and with the main support surface (10) of the casing (1).

Description

Technical field

The invention relates to striking tools, in particular to a striking device.

The invention can be used to generate impact effects on a material to be processed and can be used in construction and assembly work as well as in mining and mechanical engineering.

State of the art

It is a striking device is known (GB, B, I248202), -enthaltend a housing, with a working plant _- connected to the firing pin and a convincing designed as an electromagnet drive firing pin, which are both arranged in the housing. The firing pin works together with an elastic element which is designed as a rubber spring unit.

The operation of the facility is as follows. Voltage pulses are periodically given to the electromagnet, as a result of which the firing pin, part of which belongs to the magnetic circuit of the electromagnet, oscillates and acts on the material to be machined via the working tool.

Known is a striking device (US, A, 3 177 386), comprising a housing having a main bearing surface and - arranged in alignment therein - a firing pin having another main bearing surface, a firing pin drive designed as a single-coil electromagnet, a biased and mounted between the main bearing surfaces of the housing and of the firing pin lying elastic device for maintaining the swinging movements of the firing pin.

A disadvantage of the known devices is a low efficiency, insofar as the natural frequency of the swinging movement of the firing pin does not match that Pulse repetition frequency of the electromagnetic force matches, which inevitably changes the firing pin tool rebound factor.

Disclosure of the invention

The invention has for its object to provide a striking device, the structure of which would make it possible to reduce the influence of changes in the firing pin tool impact factor on the functional stability of the device by flattening the amplitude-frequency characteristic.

The stated object is achieved in that, in the case of a striking device comprising a housing having a main bearing surface and arranged in alignment therein, a firing pin having a different main bearing surface, a periodically acting firing pin drive, a pretensioned and located between the main bearing surfaces of the housing and the firing pin Elastic device for maintaining the swinging movements of the firing pin and a working tool, according to the invention additional support surfaces are formed in the housing and on the firing pin opposite the main support surfaces and the elastic device consists of an elastic element, one end of which has the possibility of interacting with the additional support surface of the Housing and the main contact surface of the firing pin and its other end with the possibility of interacting with the additional contact surface of the firing pin and the Ha up support surface of the housing is arranged.

The design of the striking device as described above has the result that the influence of the change in the firing pin rebound factor on the functional stability of the device is reduced by flattening the amplitude-frequency characteristic.

The task is also solved in that in the case of a striking device, comprising a housing having a main bearing surface and - arranged in alignment therein - a firing pin having another main bearing surface, a periodically acting firing pin drive, an elastic device mounted under tension and located between the main bearing surfaces of the housing and the firing pin, for maintaining the swinging movements of the firing pin and a working tool, according to the invention the elastic device consists of two elastic elements, for each of which the main bearing surfaces are formed on the housing and on the firing pin, additional supporting surfaces being formed on each of them such that each elastic element has one end engages one of the main bearing surfaces and the other end of the element with the possibility for interaction with one of the Hauptauf _la g _ef lächen and one of said additional bearing surfaces is disposed.

It is also expedient that the elastic elements are arranged coaxially relative to one another in the device and that the additional bearing surfaces are formed on the housing, each elastic element engaging with one end on the main bearing surface of the housing and the other end of the element with the possibility is arranged to interact with one of the additional bearing surfaces of the housing and the main bearing surface of the firing pin.

It also makes sense that the elastic elements in the device are arranged coaxially relative to one another and that the additional contact surfaces are formed on the firing pin, each elastic element engaging with one end on the main contact surface of the firing pin and the other end of the element with the possibility is arranged to interact with one of the additional bearing surfaces of the housing.

It is also useful that the elastic elements are arranged coaxially relative to one another during the installation and that an additional bearing surface is formed on the housing and the other additional bearing surface is formed on the firing pin, the one elastic element engaging with one end on the main bearing surface of the housing and that the other end of the element with the possibility of interacting with the additional bearing surface of the housing and the main bearing surface of the firing pin is arranged, while the other elastic element engages with one end on the main bearing surface of the firing pin and the other end of the element with the possibility of interacting with the main bearing surface of the housing and the additional bearing surface of the firing pin is arranged.

It is also useful that the elastic elements are aligned with the device and that the additional bearing surfaces are formed on the housing, each elastic element engaging with one end on the main bearing surface of the housing and the other element with the possibility of interacting with one of the additional bearing surfaces of the housing and the main bearing surface of the firing pin is arranged.

It is also useful that the elastic elements are arranged in alignment with the device and that the additional contact surfaces are formed on the firing pin, each elastic element engaging with one end on the main contact surface of the firing pin and the other end of the element with the possibility of interaction is arranged with one of the additional contact surfaces of the firing pin and the main contact surface of the housing.

It also makes sense that the elastic elements are arranged in alignment with the device and that one of the additional contact surfaces on the housing and the Another additional contact surface is formed on the firing pin, wherein the one elastic element engages with one end on the main bearing surface of the housing and the other end of the element with the possibility of interacting with the additional bearing surface of the housing and the main bearing surface of the firing pin is arranged while that another elastic element engages with one end on the main bearing surface of the firing pin and the other end of the element is arranged with the possibility of interaction with the main bearing surface of the housing and the additional bearing surface of the firing pin.

The formation of the striking device with an elastic device, which consists of two elastic elements, allows, in addition to the reduced influence of the change in the firing pin tool impact factor on the functional stability of the device, to create more favorable working conditions for the elastic device, thereby increasing the reliability of the striking device.

In addition, the formation of the device with a coaxial arrangement of the elastic elements allows the working tool to be designed with a cross-section that approximates the cross-section of the firing pin, whereby the transmission of the impact pulse from the firing pin to the material to be processed is improved via the working tool and thus the work performance of the striking device is increased.

In addition, the design of the striking device with two elastic elements arranged in alignment makes it possible to reduce tilting of the firing pin in the electromagnet, which is caused by non-uniform pressing of the main contact surface of the firing pin by the elastic elements, as a result of which the frictional force during the movement of the firing pin is reduced and, consequently, the Efficiency is increased.

Brief description of the drawings

• Fig. 1, 2 eine Gesamtansicht einer erfindungsgemäßen Schlageeinrichtung mit einem elastischen Element, im Schnitt;
• Fig. 3 bis 5 eine Gesamtansicht derselben mit koaxialer Anordnung elastischer Elemente, gemäß der Erfindung im Schnitt;
• Fig. 6 bis 8 eine Gesamtansicht derselben mit fluchtend angeordneten elastischen Elementen, gemäß der Erfindung im Schnitt;
• Fig. 9 eine Gesamtansicht derselben mit koaxialer Anordnung elastischer Elemente und einem Spiel zwischen einem der elastischen Elemente und der Hauptauflagefläche des Gehäuses, gemäß der Erfindung im Schnitt.

In the following the invention will be explained with reference to the concrete embodiments with reference to annexed ^v tenZeichnungen; in these shows:

• Fig. 1, 2 is an overall view of a striking device according to the invention with an elastic element, in section;
• 3 to 5 an overall view of the same with coaxial arrangement of elastic elements, according to the invention in section;
• 6 to 8 an overall view of the same with aligned elastic elements, according to the invention in section;
• Fig. 9 is an overall view of the same with coaxial arrangement of elastic elements and a play between one of the elastic elements and the main bearing surface of the housing, according to the invention in section.

Best embodiment of the invention

The striking device contains a housing 1 (FIG. 1) and a firing pin 2 with a shaft, a working tool 4 and a drive of the firing pin 2, which are arranged in alignment in the housing.

Any known periodic drive can be used as the drive for the firing pin 2 of the striking device. In the given below to specific working examples, the drive of _S is 2 of a chlagbolzens Einspulenelektromagnet. 5

A main bearing surface 6 is formed in the housing 1 and another main bearing surface 7 is formed on the shaft 3 of the firing pin 2, between which an elastic device 8 for maintaining the oscillating movement of the firing pin 2 is arranged, which consists of an elastic element 9 mounted under pretension. As an elastic element 9, a cylindrical coil spring can be used as in the present invention the; a shaped profile spring or an elastic compressed air element can also be used.

In the housing 1 there is an additional contact surface 10 opposite the main contact surface 6 and on the firing pin 2 an additional contact surface 11 opposite the main contact surface 7 is formed such that the elastic element 9 with both the main contact surfaces 6 and 7 and also with the additional / contact surfaces IO and II is in operative connection via disks 12 and 13, respectively.

The arrangement of the elastic element 9 with the possibility of interaction with the bearing surfaces 6, 7, 10, 11 can possibly be carried out with the formation of a gap between the elastic element 9 and one of these surfaces. 2 shows an embodiment of the device in which the elastic element 9 is mounted to form a play 14.

The gap 14 is formed by such a design of the shaft 3 of the firing pin 2 that the main bearing surface 7 formed on the shaft 3 of the firing pin 2 protrudes beyond the additional bearing surface 10 of the housing 1, as a result of which the elastic element 9 has one end on the additional bearing surface 11 of the firing pin 2 and the disk 13 engages on the main bearing surface 6 of the housing 1, while the other end thereof is only in operative connection with the main bearing surface 7 of the firing pin 2 via the disk 12, with the disk 12 and the additional bearing surface 10 of the Housing 1 forms a gap 14 which is the same as the amount of displacement of the main bearing surface 7 of the firing pin 2 relative to the additional bearing surface 10 of the housing 1.

There are now considered other embodiments of the impact device (Fig. 3 to 9), in which the elastic device 8 consists of two elastic elements 15, 16, which are mounted under tension and in each of which the main bearing surface 6,7 each on the Ge Housing 1 and formed on firing pin 2 and are common to all embodiments of the device, wherein on one of the parts - housing 1 and firing pin 2 - or, are formed on the two additional contact surfaces.

On the housing 1 there are additional contact surfaces 10 (FIGS. 3, 5, 6, 8, 9) and 17 (FIGS. 3, 6) and on the firing pin 2 there are additional contact surfaces 11 (FIGS. 4, 5, 7, 8, 9). and 18 (FIGS. 4, 7) are designed such that each elastic element 15 or 16 engages with one end on one of the main bearing surfaces 6 or 7 and that the other end with the possibility of interaction with the main bearing surface 6 or 7 and one of the additional bearing surfaces 10, 17 on the housing 1 and 11, 18 on the firing pin 2 is arranged. The arrangement of the elastic elements 15 and 16 with the possibility of interaction with the above-mentioned main and additional bearing surfaces can possibly take place with the formation of a gap between these and the elastic elements 15 and (or) 16. The gap is formed by a design of the housing 1 or firing pin 2 such that the mentioned main and additional bearing surfaces of the housing 1 and firing pin 2, which are intended to be operatively connected to one of the ends of the elastic elements 15 and (or) 16, are offset from each other. The size of the gap is equal to the size of the displacement of the mentioned contact surfaces.

An embodiment of the device is now considered in which the elastic device 8 (FIG. 3) consists of two coaxially arranged elastic elements 16, 15. Thus, the elastic element 15 engages with one end on the main bearing surface 6 on the housing 1 and the other end is arranged with the possibility of interaction via a disk 19 with the main bearing surface 7 on the firing pin 2 and the additional bearing surface 10 on the housing 1. The other elastic Element 16 engages with one end on the main bearing surface 6 of the housing 1 and the other end is arranged with the possibility of interaction via a disk 20 with the additional bearing surface 17 on the housing 1 and the main bearing surface 7 on the firing pin 2. The elastic element 15 is arranged on the shaft 3 of the firing pin 2 in a space formed in the housing 1 and the elastic element 16 is arranged in another space of the housing 1 on an extension 21 of the housing on which the additional bearing surface 17 is formed.

According to an embodiment of the impact device shown in Fig. 4, the elastic device 8 also consists of two coaxially arranged elastic elements 15, 16 and the elastic element 15 engages with one end of the main bearing surface 7 on the impact bilge 2, while the other end with the additional contact surface 11 on the firing pin 2 and the main contact surface 6 on the housing 1 is operatively connected via a disk 19. The other elastic element 16 engages with one end on the main bearing surface 7 on the firing pin 2 and its other end is arranged with the possibility of interacting with the additional bearing surface 18 on the firing pin 2 and the main bearing surface 6 of the housing 1 via a disk 20. The elastic element 15 is arranged on the shaft 3 of the firing pin 2 between the main contact surface 7 and the additional contact surface 11 formed on the firing pin 2, and the elastic element 16 is accommodated in a space which is in the shaft 3 of the firing pin 2 between the main contact surface 7 and the additional bearing surface 18 is formed, which is carried out on the firing pin 2 in the space of the shaft 3.

According to an embodiment of the impact device shown in FIG. 5, the elastic device 8 consists of two coaxially arranged elastic elements 15, 16 and the elastic element 15 engages with one end on the main bearing surface 6 of the housing 1 and its other end is arranged with the possibility of interaction with the additional bearing surface 10 formed in the housing 1 and the main bearing surface 7 of the firing pin 2 via a disk 19 .

The other elastic element 16 engages with one end on the main contact surface 7 of the firing pin 2 and its other end is arranged with the possibility of interaction with the additional contact surface 11 formed on the firing pin 2 and the main contact surface 6 of the housing 1. The elastic elements 15, 16 are arranged in the device as in the embodiment described above.

According to an embodiment of the impact device shown in FIG. 6, the elastic device 8 consists of two elastic elements 15, 16 which are arranged in alignment. The additional contact surfaces 10 and 17 are formed on the housing 1. The elastic element 15 is accommodated in a space of the housing 1 between the main support surface 6 and the additional support surface 10 and the elastic element 16 is accommodated in a space of the housing 1 between the main support surface 6 and the additional support surface 17. The elastic element 15 engages with one end on the main bearing surface 6 of the housing 1 and its other end is arranged with the possibility of interaction with the additional bearing surface 10 of the housing 1 and the main bearing surface 7 of the firing pin 2 via a disk 19. The elastic element 16 engages with one end on the bearing surface 6 of the housing 1 and its other end is arranged with the possibility of interaction with the additional bearing surface 17 of the housing 1 and the main bearing surface 7 of the firing pin 2 via a disk 20.

According to an embodiment of FIG Percussion device, the elastic device 8 also consists of two elastic elements 15, 16 which are arranged in alignment. The elastic element 15 is accommodated in one space of the housing 1 on the shaft 3 of the firing pin 2 and the elastic element 16 is accommodated on a shaft 22 in another space of the housing 1. The additional contact surfaces 11 and 18 are formed on the firing pin 2. The elastic element 15 engages with one end on the main contact surface 7 of the firing pin 2 and its other end is arranged with the possibility of interaction with the additional contact surface 11 of the firing pin 2 and the main contact surface 6 of the housing 1 via a disk 19. The elastic element 16 engages with one end on the main contact surface 7 of the firing pin 2 and its other end is arranged with the possibility of interacting with the additional contact surface 18 of the firing pin 2 and the main contact surface 6 of the housing 1 via a disk 20.

According to an embodiment of the striking device shown in FIG. 8 with elastic elements 15, 16 arranged in alignment, the additional contact surface 10 is formed on the housing 1 and the additional contact surface 11 is formed on the firing pin 2. The elastic element 15 is accommodated in one space of the housing 1 and the elastic element 16 is accommodated on the shaft 3 of the firing pin 2 in another space of the housing 1.

The elastic element 15 engages with one end on the main bearing surface 6 of the housing 1 and its other end is arranged with the possibility of interaction with the additional bearing surface 10 of the housing 1 and the main bearing surface 7 of the firing pin 2 via a disk 19. The elastic element 16 engages with one end on the main bearing surface 7 of the firing pin 2 and its other end is able to interact with the additional bearing surface 11 of the firing pin 2 and the main bearing surface 6 of the housing 1 via a disc 20.

According to an embodiment of the striking device with coaxially arranged elastic elements 15, 16 shown in FIG. 9, the elastic element 15 engages with one end on the main bearing surface 6 of the housing 1 and its other end is able to interact with the additional bearing surface 10 of the housing and the main bearing surface 7 of the firing pin 2 via a disk 19. The elastic element 16 engages with one end on the main contact surface 7 of the firing pin 2 and its other end is arranged with the possibility of interacting with the additional contact surface 11 of the firing pin 2. The same end of the elastic element 16 is arranged to form a gap relative to the main bearing surface 6 of the housing 1 with the possibility of interacting with it via a disk 20.

In the embodiments of the impact device described above and shown in FIGS. 2 to 8, it is also possible to arrange the elastic elements 15, 16 to form a gap relative to the respective contact surfaces, both relative to the main contact surfaces and the additional contact surfaces .

The impact device works as follows.

A voltage pulse is applied to the electromagnet 5 (FIG. 1), and the firing pin 2 moves under the action of the electromagnetic force toward the working tool 4 (entrance) and compresses the elastic element 9. After _ä bprallen of the striker 2 from the working tool 4, the firing pin 2 moves from the Arbeitswerzeug 4 off (decrease) under the action of the expanding force of the elastic member 9 with first acceleration. On the return routes described above. the elastic element is supported to the left of the equilibrium position 9 with one end on the main bearing surface 6 of the housing 1 from the disk 13 and engages with the other end on the main bearing surface 7 of the firing pin 2 via the disk 12. At this moment there is no operative connection between the elastic element 9 and the additional contact surfaces 10, 11 of the housing 1 and the firing pin 2.

After passing the equilibrium position, the firing pin 2 moves under the action of the compressing elastic element 9 to a standstill with a delay. Then the firing pin 2 begins to move towards the working tool 4 under the action of the relaxing elastic element 9 with acceleration. On arrival, a voltage pulse is given to the single-coil electromagnet 5 each time and an electromagnetic force acts on the firing pin 2, which increases the speed of the latter. On these return and entrance routes, which lie to the right of the equilibrium position, the elastic element 9 is supported with the one end on the additional bearing surface 10 of the housing 1 via the disk 12 and engages with the other end on the additional bearing surface 11 of the firing pin 2 on the disc 13. There is no operative connection of the elastic element 9 with the main bearing surfaces 6, 7 of the housing 1 and the firing pin 2. Furthermore, the game is repeated again.

Increasing the rebound speed of the firing pin 2 from the working tool 4 reduces the proportion of the time in which the firing pin 2 moves from the working tool 4 to the equilibrium position shown in the figure. The remaining proportion of the fall time of the firing pin 2, in which the firing pin 2 moves from the equilibrium position to a standstill, increases.

The increase in the time in which the firing pin 2 passes through the drop section mentioned is through the installation of the elastic element 9 under prestress on the one hand between the main bearing surface 6 of the housing 1 and the additional bearing surface 11 of the firing pin 2 and on the other hand between the main bearing surface 7 of the firing pin 2 and the additional bearing surface 10 of the housing 1. Consequently, the total playing time of the swinging movements either does not change at all or only slightly, which is evidence of the leveling of the amplitude-frequency characteristic. The next following pulse of the electromagnetic force will therefore act on the firing pin 2 only when it is received, whereby the synchronous operation of the firing pin 2 and the firing pin 2 is maintained.

The device thus makes it possible to reduce the dependency of the efficiency and the impact energy on the conditions under which the interaction of the working tool 4 with the material to be processed takes place (precisely these conditions determine the impact factor of the firing pin 2 on the working tool 4), and thus the To increase mean value of efficiency and facility performance.

The operation of the striking device according to the other embodiment (FIG. 2) is similar to the work of the device shown in FIG. 1. A peculiarity of the operation of the device shown in Fig. 2 is that the firing pin 2 on the back and forth routes, which are at the equilibrium position and the size of the gap 14, does not experience any force on the part of the elastic element 9, since the elastic element 9 at this time is in the space of the shaft 3 of the firing pin 2 and moves together with it, one end of the elastic element 9 on the main bearing surface 7 of the firing pin 2 over the disk 12 and the other end on the additional Support surface 11 of the firing pin 2 is supported on the disc 13.

The presence of the gap 14 gives the device further positive properties, namely increases the stroke of the firing pin 2, which increases the impact energy and thus the performance of the striking device.

The impact device according to the following embodiments with coaxial and aligned elastic elements, as shown in Fig. 3, 6, works as follows. When a voltage pulse is applied to the electromagnet 5, the firing pin 2 moves towards the working tool 4 and compresses the elastic element 15 (hinge). After impact on the end face of the working tool 4, the firing pin 2 moves with acceleration under the action of the relaxing elastic element 15 (decrease).

On the reciprocating distances described in the description, which lie to the left of the equilibrium position, the elastic element 15 is supported with one end on the main bearing surface 6 of the housing 1 and engages with the other end on the main bearing surface 7 of the firing pin 2 over the disk 19 on. The other elastic element 16 does not move and is supported on the one side on the main bearing surface 6 and on the other side on the additional bearing surface 17 via the disk 20. At the point in time when the firing pin 2 passes through the equilibrium position, the disk 19 which is operatively connected to the elastic element 15 is supported on the additional contact surface 10 of the housing 1. The firing pin 2 continues its outward movement with a delay by compressing the elastic element 16 via the disk 20. Then the firing pin 2 comes to a standstill, whereby the decline is completed.

The firing pin 2 begins to accelerate under the action of the relaxing elastic element 16. On these return and entrance routes, which are to the right of the equilibrium position, the elastic element 16 is supported at one end on the main bearing surface 6 of the housing 1 and engages with the other end on the main bearing surface 7 of the firing pin 2 via the disk 20. During this time, the elastic element 15 is immovable and is supported with one end on the main bearing surface 6 and the other on the additional bearing surface 10 of the housing 1 via the disk 19. After passing the equilibrium position shown in the figures, the firing pin 2 is now braked by the elastic element 15 via the disk 19, while the elastic element 16 no longer has any effect on the firing pin 2 because the disk 20, via which the elastic element 16 is on Firing pin 2 attack, on the additional bearing surface 17 of the housing 1 has stopped. At the entrance, the next voltage pulse is given to the electromagnet 5, which increases the speed of the firing pin 2. Furthermore, the game is repeated again.

The impact device according to the following embodiments (Fig. 4, 7) works as follows. When a voltage pulse is applied to the electromagnet 5, the firing pin 2 moves towards the working tool 4 and compresses the elastic element 15. After the impact on the end face of the working tool 4, the firing pin 2 moves with acceleration under the action of the relaxing elastic element 15 (decrease) until the equilibrium position shown in the figures is reached. On the described back and forth routes, which are to the left of the equilibrium position, the elastic element 15 is supported with one end on the main bearing surface 6 of the housing 1 via the disk 19 and engages with the other end on the main bearing surface 7 of the firing pin 2 at. The elastic element 16 is located in the space of the shaft 3 of the firing pin 2 and moves with it Firing pin together, with one end of the elastic element 16 being supported on the main bearing surface 7 and the other end on the additional bearing surface 18 of the firing pin 2 via the disk 20. Furthermore, the firing pin 2 moves under the action of the compressing elastic element 16 with a delay to a standstill, while the elastic element 15 no longer exerts a force on the firing pin 2 by moving together with the firing pin 2.

After standstill, the firing pin 2 starts the working stroke and moves with acceleration under the action of the relaxing elastic element 16. On these return and entrance routes, which are to the right of the equilibrium position, the elastic element 16 is supported with one end the main bearing surface 6 of the housing 1 from the disc 20 and engages with the other end on the main bearing surface 7 of the firing pin 2. The elastic element 15 is located in the space of the shaft 3 of the firing pin 2 and moves with the firing pin 2, one end of the elastic element 15 being on the main bearing surface 7 and the other on the additional bearing surface 11 of the firing pin 2 via the Disk 19 is supported.

After passing the equilibrium position, the firing pin 2 is now braked by the compressing elastic element 15, while the elastic element 16 no longer has any effect on the firing pin because the disc 20, via which the elastic element 16 acted on the firing pin 2, by the Main bearing surface 6 of the housing 1 is detached. At the entrance the next voltage pulse is given to the electromagnet 5, whereby the speed of the firing pin 2 increases. Furthermore, the game repeats itself again.

The impact device according to the following execution shape (Fig. 5, 8, 9) works as follows.

When a voltage pulse is applied to the electromagnet 5, the firing pin 2 moves towards the working tool 4 and presses the elastic element 15 together via the disk 19 (impact). After the impact on the end face of the working tool 4, the firing pin 2 moves with acceleration under the action of the relaxing elastic element 15 (decline) to the equilibrium position shown in the figures.

On the mentioned back and forth routes, which are to the left of the equilibrium position, the elastic element 15 is supported at one end on the main bearing surface 6 of the housing 1 and engages with the other end on the main bearing surface 7 of the firing pin 2 via the disk 19 at. At this time, the elastic element 16 is in the space of the shaft 3 of the firing pin 2 and moves with the firing pin 2, one end of the elastic element 16 being on the main bearing surface 7 of the firing pin 2 and the other end on the additional bearing surface 11 of the firing pin 2 is supported via the disk 20.

Furthermore, the firing pin 2 moves with a delay under the action of the compressing elastic element 16 until it comes to a standstill, while the elastic element 15 no longer exerts any force on the firing pin 2, since the disk 19 remains on the additional contact surface 10 of the housing 1. After the standstill, the firing pin 2 begins to work and moves with acceleration under the action of the relaxing elastic element 16.

On these return and entrance routes, which are to the right of the equilibrium position, the elastic element 16 is supported with one end on the main bearing surface 6 of the housing 1 via the disk 20 and engages the other end to the main bearing surface 7 of the firing pin 2. The elastic element 15 is immovable and is supported at one end on the main bearing surface 6 of the housing 1 and at the other end on the additional bearing surface 10 of the housing 1 via the disk 19.

After passing the equilibrium position, the firing pin is now braked by the compressing elastic element 15, while the elastic element 16 no longer has any effect on the firing pin 2, since the disc 20, via which the elastic element 16 acted on the firing pin 2, by the Main bearing surface 6 of the housing 1 is detached. At the input the next voltage pulse is given to the electromagnet 5, whereby the speed of the firing pin 2 is increased. Furthermore, the game is repeated again.

A special feature of the mode of operation of the embodiment of the device shown in FIG. 9 is that the striking pin 2 does not exert any force on the elastic elements 15 and 16 on the back and forth sections which are at the equilibrium position and the size of the gap 23 experiences.

The mode of operation of the devices shown in FIGS. 3 to 9 is characterized by the following special features.

The rebound speed of the firing pin 2 on the working tool 4 depends on the conditions which change during the work and under which the working tool 4 interacts with the material to be processed. When the rebound speed of the firing pin 2 on the working tool 4 is increased (reduced), the proportion of the time in which the firing pin 2 moves from the working tool 4 to the equilibrium position decreases (increases). The rest of the fall time portion of the firing pin 2, in which the firing pin 2 of the equilibrium position is moved to a standstill and the elastic element 16 compresses, increases (decreases). The increase (decrease) in the time in which the said decline section is traversed is caused by the arrangement of the elastic element 16 under pretension between the respective additional contact surfaces and main contact surfaces.

As a result, the total time of the swinging stroke movements either does not change at all or only slightly.

Therefore, the next pulse of electromagnetic force on the firing pin 2 will only act synchronously with the movement of the firing pin 2 when it is received.

• a) die elastischen Elemente 15 und 16 koaxial (Fig. 3) oder fluchtend (Fig. 6) angeordnet sind, wobei die elastischen Elemente 15 und 16 mit dem einen Ende an der Hauptauflagefläche 6 des Gehäuses 1 angreifen und derart angeordnet sind, daß ihr anderes Ende mit den zusätzlichen Auflageflächen 10 und 17 des Gehäuses 1 und der Hauptauflagefläche 7 des Schlagbolzens in Wirkverbindung steht,
• b) die elastischen Elemente 15 und 16 koaxial (Fig. 4) oder fluchtend (Fig. 7) angeordnet sind, wobei die elastischen Elemente 15 und 16 mit dem einen Ende an der Hauptauflagefläche 7 des Schlagbolzens 2 angreifen und ihr anderes Ende mit der Möglichkeit zur Wechselwirkung mit den zusätzlichen Auflageflächen 11 und 18 des Schlagbolzens 2 und der Hauptauflagefläche 6 des Gehäuses 1 angeordnet sind,
• c) die elastischen Elemente 15 und 16 koaxial (Fig. 5, 9) oder fluchtend (Fig. 8) angeordnet sind, wobei das elastische Element 15 mit dem einen Ende an der Hauptauflagefläche 6 des Gehäuses 1 angreift und dessen anderes Ende mit der Möglichkeit zur Wechselwirkung mit der zusätzlichen Auflagefläche 10 des Gehäuses 1 und der Hauptauflagefläche 7 des Schlagbolzens 2 angeordnet ist, während das elastische Element 16 mit dem einen Ende an der Hauptauflagefläche 7 des Schlagbolzens 2 angreift und dessen anderes Ende mit der Möglichkeit zur Wechselwirkung mit der zusätzlichen Auflagefläche 11 des Schlagbolzens 2 und mit der Hauptauflagefläche 6 des Gehäuses 1 angeordnet ist,
  gestatten es, die Amplitudenfrequenzkennlinie der Schlageinrichtung zu ebnen, wodurch der Mittelwert des Wirkungsgrades der Einrichtung erhöht wird.

The embodiments of the elastic device 8 described above as elastic elements 15 and 16, in which

• a) the elastic elements 15 and 16 are arranged coaxially (FIG. 3) or in alignment (FIG. 6), the elastic elements 15 and 16 engaging at one end on the main bearing surface 6 of the housing 1 and being arranged such that their the other end is in operative connection with the additional contact surfaces 10 and 17 of the housing 1 and the main contact surface 7 of the firing pin,
• b) the elastic elements 15 and 16 are arranged coaxially (FIG. 4) or in alignment (FIG. 7), the elastic elements 15 and 16 engaging with one end on the main bearing surface 7 of the firing pin 2 and their other end with the possibility are arranged to interact with the additional contact surfaces 11 and 18 of the firing pin 2 and the main contact surface 6 of the housing 1,
• c) the elastic elements 15 and 16 are arranged coaxially (FIGS. 5, 9) or in alignment (FIG. 8), the elastic element 15 having one end on the main Contact surface 6 of the housing 1 and the other end with the possibility of interaction with the additional contact surface 10 of the housing 1 and the main contact surface 7 of the firing pin 2 is arranged, while the elastic element 16 engages with one end on the main contact surface 7 of the firing pin 2 and the other end of which is arranged to interact with the additional contact surface 11 of the firing pin 2 and with the main contact surface 6 of the housing 1,
  allow the amplitude-frequency characteristic of the impact device to be leveled, which increases the average efficiency of the device.

Commercial usability

The invention can be used to generate impact effects on a material to be processed and can be used in construction and assembly work as well as in mining and mechanical engineering.

Claims (8)

1. Impact device, comprising a main bearing surface (6) housing (1) and - arranged in alignment - another main bearing surface (7) having firing pin (2), a periodically acting drive of the firing pin (2), a preloaded and between the main bearing surfaces (6, 7) of the housing (1) and the firing pin (2) resilient device (8) for maintaining the swinging movements of the firing pin (2) and a working tool (4), characterized in that in the housing ( 1) and on the firing pin (2) opposite the main bearing surfaces (6, 7) additional bearing surfaces (10, 11) are formed and the elastic device (8) consists of an elastic element (9), one end of which has the possibility of interacting with the additional bearing surface (10) of the housing (1) and the main bearing surface (7) of the firing pin (2) and its other end with the possibility of interacting with the additional support surface (11) of the firing pin (2) and the main support surface (6) of the housing (1) is arranged. 2. Impact device, containing a main bearing surface (6) housing (1) and - arranged in alignment - another main bearing surface (7) having firing pin (2), a periodically acting drive of the firing pin (2), a preloaded and between the main bearing surfaces (6, 7) of the housing (1) and the firing pin (2) is an elastic device (8) for maintaining the swinging movements of the firing pin (2) and a working tool (4), characterized in that the elastic device (8) consists of two elastic elements (15, 16), for each of which the main bearing surfaces (6, 7) on the housing (1) and on the firing pin (2) are formed, with each of which additional support surfaces (10, 17 and 11, 18) are each designed such that each elastic element (15, 16) engages with one end on one of the main support surfaces (6, 7) and the other end of the element with the Possibility of interaction with one of the main bearing surfaces (6, 7) and one of the additional bearing surfaces (10, 17, 11, 18) is arranged. 3. Device according to claim 2, characterized in that the elastic elements (15, 16) are arranged coaxially relative to each other and that the additional bearing surfaces (10, 17) are formed on the housing (1), each elastic element (15 , 16) engages with one end on the main bearing surface (6) of the housing (1) and the other end of the element with the possibility of interacting with one of the additional bearing surfaces (10, 17) of the housing (1) and the main bearing surface (7 ) of the firing pin (2) is arranged. 4. Device according to claim 2, characterized in that the elastic elements (15, 16) are arranged coaxially relative to each other and that the additional contact surfaces (11, 18) are formed on the firing pin (2), each elastic element (15 , 16) engages with one end on the main contact surface (7) of the firing pin (2) and the other end of the element with the possibility of interacting with one of the additional contact surfaces (11, 18) of the firing pin (2) and the main contact surface (6 ) of the housing (1) is arranged. 5. Device according to claim 2, characterized in that the elastic elements (15, 16) are arranged coaxially relative to one another and that an additional bearing surface (10) on the housing (1) and another additional bearing surface (11) on the firing pin ( 2) is formed, the one elastic element (15) engages with one end on the main bearing surface (6) of the housing (1) and the other end of the element with the possibility of interacting with the additional bearing surface (10) of the housing (1) and the main bearing surface (7) of the firing pin is disposed (2) while the other resilient member (16) with which is engaged one end to the main supporting surface (7) of the _S chlagbolzens (2) and the other end of the element with the possibility for interaction with the main support surface (6) of the housing (1) and the additional bearing surface (11) of the firing pin (2) is arranged. 6. Device according to claim 2, characterized in that the elastic elements (15, 16) are arranged in alignment and that the additional contact surfaces (10, 17) are formed on the housing (1), each elastic element (15, 16 ) engages with one end on the main bearing surface (6) of the housing (1) and the other end of the element with the possibility of interacting with one of the additional bearing surfaces (10, 11) of the housing (1) and the main bearing surface (7) of the Firing pin (2) is arranged. 7. Device according to claim 2, characterized in that the elastic elements (15, 16) are arranged in alignment and that the additional contact surfaces (11, 18) are formed on the firing pin (2), each elastic element (15, 16 ) engages with one end on the main contact surface (7) of the firing pin (2) and the other end of the element with the possibility of interacting with one of the additional contact surfaces (11, 18) of the firing pin (2) and the main contact surface (6) of the Housing (1) is arranged. 8. Device according to claim 2, characterized in that the elastic elements (15, 16) are arranged in alignment and that one of the additional Contact surfaces (10) on the housing (1) and the other additional contact surface (11) on the firing pin (2) is formed, the one elastic element (15) engaging with one end on the main contact surface (6) of the housing (1) and the other end of the element with the possibility of interacting with the additional bearing surface (10) of the housing (1) and the main bearing surface (7) of the firing pin (2) is arranged, while the other elastic element (16) with one end at the Main bearing surface (7) of the firing pin (2) attacks and the other end of the element is arranged with the possibility of interaction with the main bearing surface (6) of the housing (1) and the additional bearing surface (11) of the firing pin (2).

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