EA029740B1 - Impact reciprocating module for a mining machine - Google Patents

Abstract

The invention relates to an impact reciprocating module for a mining machine, comprising a drive block and a reciprocating component, and further comprising a water line, a pipeline, a telescopic water supply mechanism and a nozzle, where the telescopic water supply mechanism is disposed inside or outside the drive block; the nozzle is disposed on an impact head and is connected to the water line; the telescopic water supply mechanism comprises a connecting rod and an adapter sleeve; the connecting rod is disposed within the adapter sleeve; when the adapter sleeve is secured to the drive block, the connecting rod mating with the adapter sleeve and reciprocating relative thereto is connected to the reciprocating component, or when the connecting rod is secured to the drive block, the adapter sleeve mating with the connecting rod and reciprocating relative thereto is connected to the reciprocating component; a water outlet of the pipeline is connected to the adapter sleeve or the connecting rod; the water line is connected to the water outlet of the adapter sleeve or the water outlet of the connecting rod; and the connecting rod or adapter sleeve is driven by the reciprocating component to reciprocate, thus realizing water supply with the impact module. The apparatus is easy to maintain and replace, and is safe and reliable.

Description

The invention relates to a reciprocating impact module for a mining machine, comprising a drive unit and a reciprocating element, and further comprising a water channel, a pipeline, a telescopic water supply mechanism and a nozzle, where the telescopic water supply mechanism is located inside or outside the drive unit ; the nozzle is located on the shock head and is connected to the water channel; a telescopic water supply mechanism includes a connecting rod and a connecting sleeve; the connecting rod is located in the connecting sleeve; if the connecting sleeve is attached to the drive unit, the connecting rod corresponding to this connecting sleeve and reciprocating relative to it is connected to the reciprocating element, or if the connecting rod is attached to the driving unit, the connecting sleeve corresponding to this connecting rod and reciprocating relative to it; the water outlet of the pipeline is connected to the connecting sleeve or connecting rod; the water channel is connected to the water outlet of the connecting sleeve or to the water outlet of the connecting rod; and the connecting rod or connecting sleeve is driven in reciprocating motion by a reciprocating element, due to which water is supplied by the impact module. The device is easy to maintain, easy to replace, reliable and safe.

029740 Β1

029740

Technical field

The present invention relates to the field of machinery, in particular, relates to equipment for mining, and in particular relates to a shock module of reciprocating action for a mining machine, designed for a mining machine of reciprocating action.

Background of the invention

The currently used equipment for mining includes mainly cantilever-type cutting machines and drum mining machines; at the same time, internal sprinklers are installed both in the cantilever-cutting machines of the cantilever type and in the drum-type mining machines. In the cutting part of both console-type cutting machines and drum-type mining machines, a spiral arrangement of incisors on the crown body is used, therefore the pipeline for supplying water on such machines must extend from the middle part of the rotating drum; when the drum rotates and the water coming from the middle of the drum falls on the outer surface of the drum, it is difficult to provide the necessary sealing, therefore water leaks often occur, resulting in damage to the bearings and driving elements; and since drilling coal miners have a number of disadvantages, including a high level of dust generation, low yield of lump coal, low efficiency, etc., mining machines of reciprocating action are increasingly used, however, such machines are not equipped with suitable internal irrigation systems. According to the present invention, a practical feasible telescopic water supply device of a reciprocating action for a mining mining machine is proposed, which allows to overcome the drawbacks of the internal irrigation systems of drilling mining machines and fill a niche of watering systems for impact mining mining machines of reciprocating action.

Brief description of the invention

The present invention is implemented through the use of the following technical solution: a telescopic water supply device of reciprocating action for a mining mining machine, comprising a power unit, a reciprocating element, etc., while the reciprocating element comprises a impacting head, a shock guide rod, a reciprocating the element further comprises a channel for water, etc .; while the water channel is located on the shock head or on the shock head and the shock guide rod; at the same time, the telescopic water supply unit of reciprocating action for the impact mining machine also contains a pipeline, a telescopic water supply mechanism, a nozzle, etc .; while the telescopic water supply mechanism is located inside or outside the power unit; the nozzle is located on the shock head and is connected to the water channel; while the telescopic water supply mechanism contains a connecting rod, a connecting sleeve, etc .; at the same time the connecting rod is located in the connecting plug; if the connecting sleeve is attached to the power unit, the connecting rod corresponding to this connecting sleeve and making a reciprocating motion relative to it is connected to the reciprocating element, or if the connecting rod is attached to the power unit, the connecting sleeve corresponding to this connecting rod and reciprocating relative to it - the access movement, is connected to a reciprocating element; the water outlet of the pipeline is connected to the connecting sleeve or the connecting rod, and the water inlet end of the pipeline is connected to a water source; the water channel is connected to the water outlet of the connecting sleeve or to the water outlet of the connecting rod; and at the same time the connecting rod or connecting sleeve is driven in reciprocating motion by a reciprocating element, due to which water is supplied by a telescopic device.

The impact guide rod contains the cavity of the impact guide rod, etc .; the cavity of the shock guide rod is connected to the water channel, etc .; the water source in the pipeline enters the cavity of the shock guide rod through the connecting sleeve, connecting rod, etc. and enters the nozzle, etc. together with the water channel of the impacting head; and at the same time the connecting rod makes a reciprocating motion in the connecting sleeve, due to which water is supplied by a telescopic device.

A sealing element is located between the connecting rod and the connecting sleeve.

etc.

The pipeline may be an open pipeline or a circulation pipe or the like.

The pipeline contains a bypass valve and / or filter, etc. The pipeline contains a pressure gauge and / or auxiliary compressor, etc.

The impact head contains a shock tooth, a stiffening element, and the like, and the nozzle is located on the impact tooth and / or the stiffening element and other similar elements, etc.

The water channel is located along the surface of the stiffening element or inside it, and the nozzle is located at the very end of the water channel, etc.

The nozzle includes a nozzle holder, a nozzle head, and the like; the angle of the nozzle head is made with

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possibility of regulation.

The nozzle contains a spray gun and / or a protective cover and the like.

A notch is provided on the impact tooth and / or the stiffener to fix the nozzle holder.

etc.

The sealing element and other similar elements are located at the point of attachment of the nozzle head and the nozzle holder.

The pipeline contains a groove, etc., made on the body of the block or impact head.

The water channel and the stiffening element are connected separately or form a single whole.

Between the connecting rod or connecting sleeve and the shock guide rod, there is a quick-release coupling, etc., and a quick-release joint is provided on the quick-release joint, etc., so as to facilitate disassembly and replacement in the field without sacrificing the work schedule.

At the junction of the connecting rod or the connecting sleeve and the body of the block there is a protective adjusting device, etc.

The advantageous effect of the present invention is that the telescopic water supply device of the reciprocating action for the impact mining machine has the following advantages.

1. The water channel is located on the impact head or on the impact head and impact guide rod, the telescopic water supply mechanism is located inside or outside the power unit, the nozzle is located on the impact head and connected to the water channel, while the connecting rod is located in the coupling sleeve, the outlet for the water of the pipeline is connected to the connecting sleeve or the connecting rod, the inlet for the water of the pipeline is connected to the water source, the water channel is connected to the outlet for water sleeve or with an output end for the water of the connecting rod, and the connecting rod or connecting sleeve is reciprocated by a reciprocating element, thereby providing water with a telescopic device, which allows to solve the problem reciprocating, impact coal combine reciprocating action requires internal sprinkler to reduce dust formation and cooling Darnay head that satisfies practical purposes reduce impact head abrasion and protect from damage the pipeline water supply when the water supply conduit under the influence of the reciprocating motion of the striking head is stretched and reduced together with the shock head, reciprocating movement.

2. The cavity of the shock guide rod is connected to the water channel, and the water source in the pipeline enters the cavity of the shock guide rod through the connecting sleeve and the connecting rod and enters the nozzle together with the water channel of the shock head, so that the advantages of coupling and reciprocating motion shock guide rod and impact heads are used sufficiently; the water needed for the impacting head is supplied to the impacting head, so that the number of elements necessary for creating the internal irrigation system of the impacting head and connected to the impacting head is reduced, and the number of easily damaged parts outside the body of the block is also reduced; the connection and the connecting sleeve are located in the block body, which allows to avoid damage to materials upon impact and makes the design simple and effective; the shock guide rod is made in the form of a thick-walled water supply pipeline, so that water has a good cooling effect on the shock guide rod and the service life of the shock guide rod increases; the connecting rod or connecting sleeve is connected to the impact guide rod to reduce the mounting dimensions and reciprocate along with the impact guide rod so that the mounting space is small, the design is compact, and the installation location can be easily adapted and adjusted.

3. The sealing element is located between the connecting rod and the connecting sleeve to prevent water from leaking through the gap between the connecting rod and the connecting sleeve.

4. To ensure a stable water pressure, an overflow valve is provided, and a filter mounted at the water inlet reduces contamination and damage to pipelines, connections, connecting bushings, nozzles, etc., with foreign bodies.

5. To ensure a stable water pressure, a pressure gauge is provided, and an auxiliary compressor is provided to avoid installation failure, since water supply to the nozzle is difficult due to insufficient water pressure.

6. The nozzle on the impact tooth provides effective cooling of the impact tooth and prolongs the service life of the impact tooth; and the nozzle is located on the stiffener, and the stiffener is not rotated outward to feed materials, therefore, compared with the nozzle of a drum mining machine, it is unlikely that the nozzle will get clogged or be damaged.

7. The angle of inclination of the nozzle head is adjustable; so that the efficiency

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the nozzle increases and idle nozzle operation is prevented.

8. Thanks to the use of a sprayer, the efficiency of dust precipitation of a water source is increased and the working medium is cleaned; by providing a nozzle shield, damage such as a blow to the nozzle is prevented; and since the stiffening element does not rotate outwardly to feed materials, it is possible to increase the size of the nozzle shield; however, a larger nozzle guard will not interfere with unloading.

9. A recess is provided on the stiffener to secure the nozzle holder, which effectively protects the nozzle holder from damage from impact.

10. The sealing element is placed at the point of attachment of the nozzle head and the nozzle holder in order to reduce water losses and improve irrigation efficiency.

11. A groove is made on the block body and impact head, and the block body and impact head form a pipeline so as to easily reduce the risk of damage to external pipelines and increase the utilization rate of the block body and impact head.

12. A quick release coupling is located between the connecting rod or connecting sleeve and the impact guide rod, and a sealing element is located on the quick coupling, so that disassembly and replacement in the field is facilitated without affecting the work schedule.

13. At the junction of the connecting rod or the connecting sleeve and the body of the unit there is a protective regulating device to prevent damage to the connecting rod and the connecting sleeve as a result of impact in the transverse direction, which occurs during reciprocating movement of the impact head.

14. The connecting rod is located in the body of the unit, the oil mist is sprayed in the body of the unit, and the sprayed oil mist has a protective lubricating effect on the connecting rod.

15. The water channel of the internal and external irrigation mechanism does not pass through the drive shaft, so that rusting of the drive and transmission elements caused by water leakage is prevented, while the water irrigation system is characterized by a simple, rigid and reliable design and a longer service life compared to the water system irrigation drum mining machine.

16. The irrigation system has only a few points requiring compaction, and has a low sealing complexity, so that the manufacturing complexity is significantly reduced; between the connecting rod and the connecting sleeve can be located several small sealing elements, so that the tightness of the structure is significantly improved, while the drum mining machine is characterized by a large number of sealing points of rotating joints, high complexity of sealing rotating joints, complexity of sealing elements of rotating joints and high sealing strength rotating joints, resulting in increased resistance to rotary drilling; the connecting rod and connecting sleeve are sealed easily, the number of sealing points is small, and the sealing elements are simple, therefore the complexity of the sealing is low, the resistance of the sealing element is low and the power consumption is reduced.

17. Compared with the water channel system of the cutting part of the drum-type mining machine, the proposed construction is very simple; in case of water leakage, clogging of the water channel or other problems of servicing the drum mining machine, it is possible only after dismantling large-sized elements, such as a cutting drum, a rotating disk, etc., therefore the maintenance process is complicated, time consuming and time consuming; when servicing the reciprocating water supply system, dismantling the cutting part is not necessary, and maintenance can be performed through a common maintenance window on the body of the block or directly outside the impact power unit; and the telescopic water supply system of the reciprocating action of the mining machine has only a few structural elements, and has good applicability among such components, is highly versatile among such elements, is easy to maintain and replaceable, safe, reliable and has a long service life.

Brief description of graphic materials

FIG. 1 is a structural schematic drawing of a telescopic reciprocating water supply device for an impact mining machine according to Embodiment 1 of the invention.

FIG. 2 is a structural schematic drawing of a telescopic water supply mechanism according to embodiment 1 of the invention.

FIG. 3 is a schematic drawing of a shock guide rod with a cavity of a shock guide rod according to Embodiment 2 of the invention.

FIG. 4 is a structural schematic drawing of a telescopic water supply mechanism located inside the power unit according to embodiment 3 of the invention.

FIG. 5 is a constructive schematic drawing of the telescopic mechanism- 3 029740

giving water located outside the power unit according to embodiment 3 of the invention.

FIG. 6 is a structural schematic drawing of a bypass valve, etc. According to embodiment 4 of the invention.

FIG. 7 is a structural schematic drawing of the arrangement of nozzles on impact teeth according to Embodiment 5 of the invention.

FIG. 8 is an enlarged structural schematic drawing of the location of the nozzle of FIG. 7

FIG. 9 is a structural schematic drawing of the location of the protective cover on the impact teeth according to Embodiment 5 of the invention.

FIG. 10 is a structural schematic drawing of the location of the water channel according to embodiment 6 of the invention.

Reference positions in graphic materials: 1 - nozzle; 2 - shock head; 3 - shock guide rod; 4 - pipeline; 5 - water channel; 6 - power unit; 7 - telescopic water supply mechanism; 8 - connecting sleeve; 9 - sealing element; 10 - quick coupling; 11 connecting rod; 12 - cavity shock guide rod; 13 - protective regulating device; 14 - manometer; 15 - bypass valve; 16 - nozzle holder; 17 - impact tooth; 18 - a recess for fastening the nozzle holder; 19 - nozzle head; 20 - protective casing; 21 - stiffening element.

DETAILED DESCRIPTION OF EMBODIMENTS

A more detailed description of the present invention with reference to the accompanying graphic materials is given below.

Option 1.

FIG. 1 and 2 depict a telescopic reciprocating water supply device for an impact mining machine in accordance with Embodiment 1 of the invention. A telescopic water supply device for reciprocating action for a rock mining machine contains a power unit 6 and a reciprocating element, etc .; while the reciprocating element contains a shock head 2, a shock guide rod 3, the channel 5 for water, etc .; water channel 5 is located on the impacting head 2 or on the impacting head 2 and the impacting guide rod 3; while the telescopic device of the water supply of the reciprocating action also contains a pipeline 4, a telescopic mechanism 7 for supplying water, a nozzle 1, etc .; telescopic water supply mechanism 7 is located inside the power unit 6; the nozzle 1 is located on the shock head 2 and is connected to the channel 5 for water; telescopic water supply mechanism includes a connecting rod 11, a connecting sleeve 8, etc .; the connecting rod 11 is located in the connecting sleeve 8; the connecting sleeve 8 is attached to the power unit 6, and the connecting rod 11, corresponding to this connecting sleeve and performing a reciprocating motion relative to it, is connected to the reciprocating element, or the connecting rod 11 is attached to the power unit 6, and to the reciprocating element a connecting sleeve 8 is connected, which corresponds to this connecting rod and reciprocates relative to it; the water outlet end of the pipe 4 is connected to the connecting sleeve 8 or the connecting rod 11, and the water inlet end of the pipe 4 is connected to a water source; the water channel 5 is connected to the water outlet of the connecting sleeve 8 or to the water outlet of the connecting rod 11; and the connecting rod 11 or the connecting sleeve 8 are brought into reciprocating motion by a reciprocating element, due to which water is supplied by a telescopic device.

As shown in FIG. 1, the pipeline is an open pipeline, but may also be a circulation pipeline.

If the telescopic water supply mechanism is installed outside the power unit, the pipeline may be a groove made on the body of the unit or the impact head.

As shown in FIG. 2, there is a quick coupler 10 between the connecting rod or the connecting sleeve and the impact guide rod, and a sealing element 9 is located on the quick connector 10, so that disassembly and replacement in the field is facilitated without affecting the work schedule.

The water channel 5 may also be located on the percussion head 2; the corresponding pipeline 4 is located outside the power unit 6 and the telescopic water supply mechanism 7 is also usually installed outside the power unit 6.

Option 2.

FIG. 3 shows a telescopic water supply device of reciprocating action for a mining mining machine according to embodiment 2 of the invention, different from Embodiment 1 in that the impact guide rod 3 comprises a cavity 12 of the impact guide rod; the cavity 12 of the shock guide rod is connected to the water channel 5; water from the water source in the pipe 4 enters the cavity 12 of the shock guide rod through the connecting sleeve 8 and the connecting rod 11 and enters the nozzle with water from the water channel of the impact head; the connecting rod 11 reciprocates in the connecting sleeve

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8, due to which water is supplied by a telescopic device.

To prevent water leakage during the reciprocating movement of the connecting rod 11 and the connecting sleeve 8 between the connecting rod 11 and the connecting sleeve 8 is the sealing element 9.

Otherwise, this design does not differ from option 1 implementation.

Option 3.

FIG. 4 and 5 depict a telescopic reciprocating water supply device for an impact mining machine according to Embodiment 3 of the invention, different from Embodiment 1 in that, as shown in FIG. 4, the telescopic water supply mechanism 7 is installed inside the power unit 6, and the pipe 4 connected to the telescopic water supply mechanism 7 is attached to the power unit 6.

As shown in FIG. 5, the telescopic water supply mechanism 7 may also be located outside the power unit 6. In this case, the pipeline 4 connected to the telescopic water supply mechanism 7 is a groove formed on the body of the unit or the impact head.

As shown in FIG. 5, in order to prevent leakage caused by a seal failure between the connecting rod and the connecting sleeve of the telescopic water supply mechanism 7, when rotating and tilting the impact head 2 relative to the power unit during an impact with a reciprocating motion, the connection point of the connecting rod or connecting sleeve and the body of the unit can be installed protective regulating device 13.

Otherwise, this design does not differ from option 1 implementation.

Option 4.

FIG. 6 depicts a telescopic water supply unit of a reciprocating action for a mining mining machine according to embodiment 4 of the invention, different from option 1 in that: a pipe 4 connected to the telescopic water supply mechanism 7 has a bypass valve 15 to ensure that the operating water pressure does not exceed the maximum allowed value. To improve the working pressure of the system, an auxiliary compressor can be additionally provided to ensure a minimum working pressure of water.

In order to ensure that the water does not contain foreign bodies, a filter can additionally be placed in the pipeline. For on-line measurement and display of data, a manometer 14 can be additionally provided for monitoring the pressure in the system in order to increase the automation level of the water supply device.

Otherwise, this design does not differ from option 1 implementation.

Option 5.

FIG. 7 to 9 illustrate a telescopic reciprocating water supply device for an impact mining machine according to Embodiment 5 of the invention, different from Embodiment 1 in that, as shown in FIG. 7 and 8, the nozzle 1 comprises a nozzle holder 15 and a nozzle head 19, and the angle of the nozzle head can be adjusted to adjust the part of the nozzle 1 that is responsible for the irrigation water.

As shown in FIG. 9, to protect the nozzle from damage by materials around the nozzle 1, a protective casing 20 is placed. To increase the efficiency of dust removal and cooling, a special sprayer can be made.

For additional protection of the nozzle 1 from damage to the impact tooth and / or the stiffener, a recess 18 may be formed to secure the nozzle holder.

The water channel and the stiffening element are interconnected as separate elements or form a single whole.

To maintain the required pressure in the system, etc. in place of attachment of the head 19 of the nozzle and the holder 16 of the nozzle is installed sealing element 9.

Otherwise, this design does not differ from option 1 implementation.

Option 6.

FIG. 10 depicts a telescopic water supply device of reciprocating action for a mining mining machine according to Embodiment 6 of the invention, different from Embodiment 1 in that the impacting head 2 comprises an impact tooth 17 and a stiffening element 21, and the nozzle 1 is located on the impact tooth 17 and or element stiffness 21. Channel 5 for water is formed on the surface of element stiffness 21 or inside it, and the nozzle 1 is located at the very end of the channel 5 for water.

Otherwise, this design does not differ from option 1 implementation.

Claims (16)

CLAIM 1. A reciprocating impact module for a mining machine that contains a drive unit (6) and a reciprocating element, while the reciprocating element contains a shock head (2) and a shock guide rod (3), the reciprocating element of an additional 5 029740 contains a water channel (5), which is located on the impact head (2) or on the impact head (2) and impact guide rod (3), while the reciprocating impact module also contains a pipeline (4), a telescopic mechanism ( 7) water supply and nozzle (1); the telescopic mechanism (7) of water supply is located inside or outside the drive unit (6); the nozzle (1) is located on the impacting head (2) and is connected to the channel (5) for water; the telescopic mechanism (7) of the water supply contains a connecting rod (11) and a connecting sleeve (8); wherein the connecting rod (11) is located in the connecting sleeve (8); if the connecting sleeve (8) is attached to the drive unit (6), the connecting rod (11) corresponding to this connecting sleeve (8) and reciprocating relative to it, is connected to a reciprocating element, or, if to the drive unit (6) the connecting rod (11) is attached, the connecting sleeve (8) corresponding to this connecting rod (11) and reciprocating relative to it is connected to the reciprocating element; the water outlet of the pipeline (4) is connected to the connecting sleeve (8) or the connecting rod (11) and the water inlet end of the pipeline (4) is connected to a water source; the water channel (5) is connected to the water outlet end of the connecting sleeve (8) or to the water outlet end of the connecting rod (11); and at the same time the connecting rod (11) or the connecting sleeve (8) is brought into reciprocation by the reciprocating element, due to which the water is supplied by the impact module. 2. Impact module of reciprocating action according to claim 1, characterized in that the impact guide rod (3) contains a cavity (12) of the impact guide rod (3), which is connected to the water channel (5); water from the water source in the pipeline (4) enters the cavity (12) of the impacting guide rod (3) through the connecting sleeve (8) and the connecting rod (11) and enters the nozzle (1) with water from the channel (5) for water impact head (2); and at the same time, the connecting rod (11) reciprocates in the connecting sleeve (8), due to which water is supplied by the impact module. 3. Impact reciprocating module according to claim 1, characterized in that a sealing element (9) is located between the connecting rod (11) and the connecting sleeve (8). 4. Impact module reciprocating action according to claim 1, characterized in that the pipeline (4) is an open pipeline or a circulation pipeline. 5. Impact module reciprocating action according to claim 1, characterized in that the pipeline (4) contains a bypass valve (15) and / or a filter. 6. Impact module reciprocating action according to claim 1, characterized in that the pipeline (4) contains a pressure gauge (14) and / or an auxiliary compressor. 7. Impact module of reciprocating action according to claim 1, characterized in that the impact head (2) contains a impact tooth (17) and a stiffening element (21) and wherein the nozzle (1) is located on the impact tooth (17) and / or element (21) stiffness. 8. Impact module reciprocating action according to claim 1, characterized in that the channel (5) for water is located along or inside the surface of the stiffness element (21) and the nozzle (1) is located at the very end of the channel (5) for water. 9. Impact module reciprocating action according to claim 1, characterized in that the nozzle (1) contains the holder (16) of the nozzle and the head (19) of the nozzle; however, the head (19) of the nozzle is configured to adjust the angle of inclination. 10. Impact module reciprocating action according to claim 1, characterized in that the nozzle (1) contains a spray gun and / or a protective cover (20). 11. Impact module of reciprocating action according to claim 7 or 8, characterized in that a notch (18) for attaching the nozzle holder (16) is provided on the impact tooth (17) and / or the stiffness element (21). 12. Impact module reciprocating action according to claim 9, characterized in that the sealing element (9) is located at the place of attachment of the nozzle head (19) and the nozzle holder (16). 13. Impact module of reciprocating action according to claim 1, characterized in that the pipeline (4) contains a groove made on the housing of the wire unit (6) or the impact head (2). 14. Impact module reciprocating action on PP.1, 7 or 8, characterized in that the channel (5) for water and the element (21) stiffness are connected separately or form a single unit. 15. Impact reciprocating module according to claim 1, characterized in that a quick release coupling (10) is located between the connecting rod (11) or the connecting sleeve (8) and the impact guide rod (3) and at the same time on the quick coupling (10 ) the sealing element (9) is located, so that disassembly and replacement in field conditions is facilitated without affecting the work schedule. 16. Impact module reciprocating action according to claim 1, characterized in that at the junction of the connecting rod (11) or the connecting sleeve (8) and the housing of the drive unit (6) there is a protective regulating device (13). - 6 029740