SE456595B - WORKING COMPRESSION VACUUM MACHINE WORKING - Google Patents

Description

456 595. Another percussion machine operating with a gas spring is also known (Compare, for example, U.S. Pat 1 402 727, published 1922-01-03), which includes partly a house, partly a drive device arranged in the house, partly one tools, as well as a cylinder provided with a compensating hole, containing a piston connected to the drive device and a percussion member cooperating with the tool, which is connected with the piston by means of an air cushion, and on the one hand a cylinder giving sleeve, which can move relative to the cylinder and is provided with an element, which is intended to be selective open the cylinder compensating hole, while the sleeve is moving O sig. --- In order for this known machine to be able to regulate energy, the sleeve is movable in the longitudinal direction 1 ratio to the cylinder and spring-loaded against it. Sleeve element, which is intended to selectively open the compensation holes of the cylinder, consists of a series of holes, which are accommodated in the sleeve in its center axis direction.

A force applied to the machine housing overcomes the acting, by the spring generated.the force, why the sleeve moves axially relative to the cylinder, the axial of the sleeve movement 1 in relation to the cylinder is followed by the holes in the sleeve is successively brought to lie in the middle of the compensating the holes, which are occupied in different positions at the height of the cylinder.

The impact energy of the percussion member becomes maximum when the gas spring or the air cushion is connected to the atmosphere through the upper the compensation hole, which is below the working end surface of the piston, when the piston is in its lower dead center. Slagorganets impact energy is reduced by connecting the airbag to the atmosphere. clean through the upper compensation hole and the other, in the cylinder occupied compensating hole, which is at the height of the cylinder shot relative to the upper compensation hole. Hereby the total flow area of the compensation holes is increased, which reduces the vacuum occurring in the airbag (ie decreases the negative pressure in the airbag), when the piston moves away from -456 595 the percussion means, whereby the lifting height of the percussion means decreases. When the piston moves in the direction of the percussion member, the air loss from the airbag, resulting in a reduction of , the speed of movement of the percussion means, when the percussion means moves in direction of the tool. The lower movement speed of the percussion member leads to a reduction of the percussion energy per stroke.

A continued increase in the force to be applied to machinery the housing contributes to the air cushion being connected to atmosphere through another compensation hole, which is also shot in the height of the cylinder in relation to the upper the pension hole. This leads = Eïll to compensation halens total flow area is further increased, so that the impactor nets impact energy becomes even lower. In addition, this provides famous machine a narrow control range for the impact energy of the percussion device.

Conditions arise during the operation of this known percussion machine to the open compensation hole, which is offset in the height of the cylinder in relation to the upper compensation the hole, is prematurely closed by the piston, if this open pension hole is located above the upper compensation hole, or of the percussion member, if the open compensation hole is below the upper compensation hole. The period of time during which the air the cushion is connected to the atmosphere through this compensation hole during the time interval between two consecutive, strokes performed by the percussion means are reduced, so that this pension holdings cannot be fully used for reduction of the impact energy of the impactor. In this connection, it can be stated that the further in the height of the cylinder this compensation hole is separated from the upper compensation hole, the less effective used in time with respect to this compensation hole for connection of the airbag with the atmosphere during the time interval the choice between two consecutive strokes and the less this hole affects the reduction of the impact energy. Every circumstances make it impossible to regulate the impact energy within a wide range borders. 456 595 The main object of the present invention is to provide a gas spring impact machine, wherein they in the compensation holes accommodated in the cylinder are arranged on a in such a way that they can be used as much as possible during the time interval between two consecutive strokes, which makes it possible to increase the regulatory area for the body's impact energy. v This object is achieved according to the present invention by a percussion machine operating with a gas spring comprising partly a house, partly a drive device arranged in the house, partly a tool, on the one hand, a cylinder equipped with a compensating hole, which contains one piston connected to the drive device and one to the tool cooperating percussion means, which is connected to the piston by means of an air cushion, and partly relative which is intended a cylinder surrounding the sleeve, which can move to the cylinder and is provided with a element, that during the movement of the sleeve selectively open the compensation holes accommodated in the cylinder, wherein the machine according to the present invention is characterized in that The compensation holder is in one line with the center line of the cylinder perpendicular plane.

By making the compensation holes in the present invention finning proposed, with gas spring working percussion machine cylinder are arranged at an angle to the center axis of the cylinder the correct plane, each of the compensation holes can be used below the desired working time interval, resulting in a greater reduction of the impact energy of the percussion member within a further area.

It is suitable that the sleeve is arranged so that it can be rotated in relation to the cylinder, and that the element, which is intended to selectively open the compensation holes, consists of parts of sleeve wall. This makes it possible to reduce the machine dimensions and weight.

It is furthermore suitable that the sleeve is arranged immobile in holding to the housing and that the cylinder is arranged so that f ~ \ 456 595 it can be rotated about its axis, while the element, which is intended to selectively open the compensation holes of parts of the wall of the sleeve, which makes it possible to increase the functional safety of the machine.

In addition, the sleeve can be formed in one piece with the housing, below that the element, which is intended to selectively open the sation holes, may have the shape of the part of the wall of the house, which is located between tracks occupied in the house. Such a design of the sleeve helps to simplify the manufacture of the machine according to the invention. '' .In addition, the sleeve may be longitudinally movable in relation to the cylinder, while the element, which is intended to selectively open the compensation holes, can get the shape of an oblique portion of the sleeve wall.

According to yet another embodiment of the machine according to the invention the sleeve can be movable in the longitudinal direction in relation .to the cylinder, while the element, which is intended to valhart expose the compensation holes, may have the shape of a row of round Perimeter lying holes with gradually increasing dimension in it in relation to the longitudinal direction of the center axis of the sleeve.

The sleeve so designed is easy to manufacture, because it during manufacture can be provided with an annular groove, with with the aid of which the sleeve can be made to co-operate with a displacement leverage.

The gas spring working percussion machine according to the present invention ensures a wider control area for the impact energy of the percussion device, which makes it possible to for example in rock drilling machines increase the drilling capacity depending on the hardness of the material to be drilled, and to increase the functional safety of the impactor.

The invention is described in more detail below with reference to attached drawing, in which Fig. 1 shows a longitudinal section through the gas spring impact machine according to the present invention invention, wherein the sleeve is arranged so that it can be rotated in 456 595 i relation to the cylinder, Fig. 2 shows a cross section along line II-II through the gas spring shown in Fig. 1, operating with a gas spring the percussion machine with an open compensation hole, Fig. 3 shows a cross section through an embodiment of the machine according to the finding in the plane in which the compensation holes are located, the machine being shown with two compensation holes open, Fig. 4 -shows a cross-section along the plane in which the compensation holes lies, by yet another embodiment of the percussion machine according to the present invention, wherein the sleeve is arranged immobile in relation to the housing, while the cylinder is arranged so that it can be rotated about its axis, Fig. 5 shows a transverse section along the plane in which the compensation hole is located, through a further embodiment of the percussion machine according to the present invention, wherein the sleeve is made in one piece with the housing, Fig. 6 shows the portion of yet another embodiment of it with gas spring operating percussion machine according to the invention, which comprises a cylinder with compensation holes and a sleeve with an element, which is intended to optionally open the compensation holes and has the shape of an oblique section of the sleeve wall, Fig. 7 shows the portion of a further embodiment of the gas spring actuator according to the invention which comprises a cylinder with compensation holes and a sleeve with an element, which is intended to be selectively open the compensation holes and have the shape of a row of around the circumference occupied holes with gradually increasing dimension in it in relation to the center line of the sleeve in the longitudinal direction, and Fig. 8 shows diagrams which clarify the mode of action of the gas spring working percussion machine with adjustable percussion energy.

The gas spring working percussion machine according to the present invention comprises a housing 1 (fig. 1), one arranged in the housing 1 drive device 2, a tool 3 and a cylinder 4, wherein one with the drive device 2 is connected piston S and a percussion member 6 is arranged. The piston 5 and the percussion member 6 are provided with sealing devices 7 and 8, respectively. The striking member 6 is connected to the piston 5 by means of a gas spring or air cushion 9 and arranged 456 595 to periodically, synchronously with the movement of the piston 5 cooperate with tool 3. The cylinder 4 is below the 5-working end surface of the piston 10, which are in the lower dead center position, occupied compensation holes 11, 12, 13 (Fig. 2) and 14 (Fig. 1), which is in one and the same, towards the center line of the cylinder 4 perpendicular plane. The cylinder 4 is also provided with an I hole 15, which is received above an end surface 16 of the percussion member 6, which is in a working position in which the percussion means 6 is in contact with the tool 3. At the point where the compensating the holes 11, 12, 13 (Fig. 2) and 14 (Fig. 1) are occupied, is arranged a sleeve 17 surrounding the cylinder 4 with a groove 18, which is intended to cooperate with an eccentric lever 19 into one in the housing 1 arranged handle 20. The sleeve 17 is arranged so that it can be rotated relative to the cylinder 4.

In Fig. 1, 1 denotes the distance from the compensation hole 11 to the end surface 16 of the percussion member 6, which is located in one such position, in which it is in contact with the tool 3.

~ The sleeve 17 (fig. 2) is provided with holes 21, 22, 23, 24 and so on an element which is intended to selectively open the cylinder 4 compensation holes 11, 12, 13, 14 and have the shape of parts 25, 26, 27, 28 of the wall 17 of the sleeve 17, which are separate from each other by means of the holes 21, 22, 23 accommodated in the sleeve 17 respectively 24. The compensation hole 11 is open. In the one in Fig. 3 shown the embodiment of the machine according to the present invention. finding, the compensation holes 11 and 12 are open.

If the sleeve 17 (Fig. 4) is arranged immobile in relation to the housing 1, the cylinder is 4 - ñ fl 'a fi; it must be possible to turn it around its center axis fi hsa fi with one with the eccentric 20 of the handle- lever 19 cooperating grooves 29. In this embodiment of the machine according to the invention has the element which is intended to selectively open the compensation holes 11, 12, 13, 14 as well the shape of the parts 25, 26, 27, 28 of the wall 17 of the sleeve. In a / '\ '45e 595 embodiment of the machine according to the invention, wherein the sleeve 17 made in one piece with the housing 1 (fig. 5), the hose 1 is provided with grooves 30, 31, 32, 33, the position of which is similar to the position of the holes 21 (Fig. 2), 22, 23 and 24, respectively, in the sleeve 17, which is arranged rotatable relative to the cylinder 4. The cylinder 4 is seen with a groove 34 (Fig. 5) for co-operation with the handle The element, which is intended to selectively tively open the compensation holes 11, 12, 13, 14 are constituted by it part of the wall 1 of the house, which lies between those occupied in the house 1 tracks 30, 31, 32, 33. ' If the sleeve 17 (Fig. 6) is arranged so that it can move in the longitudinal direction relative to the cylinder 4, it is seen with an annular shape, with the eccentric lever 19 cooperating groove 35. In this embodiment, the element, which is intended to selectively open the compensation holes 11, 12, 13, 14, the mold of an obliquely cut section 36 of the wall of the sleeve 17. Alternatively this element may consist of a series of circumferential taken holes 37 (fig. 7), 38, 39, 40 with successive increase dimension in relation to the center line of the sleeve 17 longitudinal direction, these holes being occupied at it place where the compensating holes 11, 12, 13, 14 of the cylinder 4 is located.

Fig. 8 shows diagrams which clarify it according to the invention proposed working principle of the machine and on which to use the following reference symbols: S1 is the path of movement of the piston, S2 is the trajectory of the percussion member, provided that the airbag are connected to the atmosphere by one of the compensatory the holes, which lie in it towards the center line of the cylinder perpendicular plane, ' S21 is the path of movement of the percussion member, when two compensating holes, located in one, towards the center line of the cylinder perpendicular plane, are open, 22 23 456 595 is the path of movement of the percussion means, when the compensating holes, which are displaced in the longitudinal axis direction of the cylinder in relation to the first compensation hole towards the percussion member, is open, is the path of movement of the percussion means, when the compensating holes, which are offset in the longitudinal axis direction of the cylinder in relation to the first compensation hole towards the piston, is closed, is the distance from the end face of the percussion member to the displacement holes displaced in the longitudinal axis of the cylinder direction in relation to the first compensation the hole in the direction of the percussion member, whereby 11 <1, is the distance from the end face of the percussion member to the component displacement holes displaced in the longitudinal axis of the cylinder direction in relation to the first compensatory the hole towards the piston, whereby 12> 11, is the fi unique on the path of movement S22, in which the percussion member closes the compensation 11 located at the distance 11 the hole, is the point on the path of movement S22 in which the percussion means opens the compensating hole located at the distance 1, 1 is the point on the path of movement S1 at which the piston opens at the distance 12 the compensating hole, is the point on the path of movement S1 at which the piston closes the compensation hole located at the distance 12, is the time interval during which the percussion device - early as it moves along the path S22 - closes the compensation hole located at the distance 11, is the time interval during which the piston during its movement closes the spacer 12 the pension hole, is the angle of rotation of the drive device. '456 595 10 The gas spring impact machine according to the invention works as follows. ' When the percussion member 6 (Fig. 1) operates in an operating state with impact, ie in an operating condition in which it strikes the fabric 3, the percussion member 6 moves forwards and backwards in the cylinder 4 under the influence of the similar forward and backward movement of the piston 5, which is connected to the percussion means 6 by means of the air cushion 9. In this case, the percussion member 6 periodically strikes the fabric 3. Any behavior during the operation of the machine air leakage from the air cushion 9 is compensated by means of compensating tionshalen 11, 12, 13 (fig. íï, '14 (fig. 1).

The air cushion 9 is intended to be connected to the atmosphere through the one compensation hole 11 accommodated in the cylinder 4 and through the hole 21 received in the sleeve 17 (Fig. 2).

.To prevent the sealing device 7 of the piston 5 (Fig. 1) and the sealing device 8 of the percussion member 6 is worn quickly .the diameter of the compensation hole 11 as small as possible. In order to the gas spring impact machine according to the invention must be able to be operated stably when the trajectory of the percussion member 6 changed during drilling work with materials with varying hardness, the compensation hole 11 is suitably received at a distance it 1 from the end surface 16 of the percussion member 6, which distance is finally should be chosen so that the percussion member 6 can produce it maximum impact energy, when moving along the path of motion S2 (Fig. 8).

At the same time the piston S (Fig. 1) moves away from the percussion member 6, a rather strong vacuum (low) is generated in the air cushion 9 pressure), which acts so that the percussion member 6 is raised to the largest possible height.

When the piston 5 moves in the direction of the percussion member 6, i the air cushion 9 a high pressure, which contributes to - \ 456 595 11 the member 6 moves in the direction of the tool 3 with a high impact velocity with this (compare the trajectory S2 in Fig. 8).

The hole 15 (Fig. 1), which is occupied in the vicinity of the percussion member 6 end surface 16, has little effect on the operation of the machine in the operating condition with impact, since the time interval during which the hole 15 during the operation of the machine connects the air cushion 9 with the atmosphere, is very short. The hole 15 is intended to ensure that the machine from idle operation without type functionally transfers to work in the operating condition -'"IN with impact effect.A By turning the handle 20 by means of the one with the groove 18 cooperating the eccentric lever 19, it is rotated on the cylinder 4, the sleeve 17 is rotatably arranged at an angle which is sufficient so that the hole 22 (fig. 2) of the sleeve 17 can be adjusted in the middle for the compensation hole 12. Such a setting position of the sleeve 17 rotatably arranged on the cylinder 4 is determined by that the compensation holes 11-14 lie in a single one towards the cylinder 4 center axis perpendicular plane and helps to compensate sation holes 11-14 open. In this case, it opens in the opposite direction the center line of the cylinder 4 perpendicular to the plane lying sation hole 12, so that the air cushion 9 is connected to the atmosphere through two compensation holes, namely 11 and 12.

When the piston 5 (Fig. 1) in this case moves in the direction away from the percussion member 6, a smaller one is provided in the air cushion 9 strong vacuum, which causes the percussion member 6 to be lifted to a less height compared to what is the case, when one the pension hole 11 is open. At the same time as the piston S moves in the direction of the percussion member 6, the movement of the percussion member 6 is reduced. speed, when the percussion member 6 moves in the direction of fabric 3, In this case, the impact energy is reduced by a value, which is determined of the steepness of the path of movement S21 of the percussion member 6 (Fig. 1) (Fig. 8). With the compensation hole 12 in the position described above nn hi. -s ~ _ 45ep59s 12 a reduction of the impact energy of the percussion member 6 is achieved. A choice- free other position of the compensation hole 12 results in a less reduction of the impact energy of the percussion member 6 If the compensation the hole is located, for example, at the distance 11 (Fig. 8), which is less than 1, this compensation hole is closed when the the member 6 (Fig. 1) was raised to a height equal to the distance 11.

During the continued movement of the percussion member 6 along the path of movement S22 (Fig. 8) from point a to point b is only one the compensating hole 11 (Fig. 1), which is at a distance 1 from the end surface 16 of the percussion member 6, open. Movement of the percussion member 6 along the path of movement S22 (Fig. 8) during a time interval t1 followed by a higher pressure appearing in the airbag 9, why the direction of movement of the percussion member 6 is reversed faster, which in other words means that the percussion member 6 obtains a higher one impact velocity with tool 3 and consequently generates higher impact energy. - When you open another compensation hole, which is located on one distance from the percussion member 6 which is less than 11 (Fig. 8) this compensation hole acts on the reduction of the percussion member 6 (Fig. 1) impact energy to an even lower degree than that at the distance 11 (Fig. 8) located the compensation hole.

If the compensation hole is located at a distance 12, that is greater than 1 (Fig. 1), it will be in a zone for movement of the piston 5 along the path of movement S1 (Fig. 8) from point d to point c during a time interval t2. During time inter- the wall tz does not leak air from the air cushion 9 (fig. 1) through said compensation hole (compare the path of movement S23 in Fig. 8), why the percussion member 6 (Fig. 1) was lifted to a greater height and thereby generating higher impact energy.

The greater the distance 12 (Fig. 8), the less it affects at this distance located the compensation hole on the reduction of the impact energy of the percussion member 6.

Because the compensation holes are located on the cylinder 4 (fig. 1) center line, one can thus not reduce the impact energy to it n). ..- \ 456 595 13 desired limit, for example to zero, which reduces the the range of the impact energy of the percussion member 6.

The continued rotation of the handle 20 leads to the sleeve 17 rotated so that its hole 23 is brought to lie in the middle of the the pension hole 13 (Fig. 2), at the same time as the two going compensation holes 11 and 12 remain open. This is ensured by the holes 21-24 accommodated in the sleeve 17 different position and different shape and partly the position of the element, which is intended to selectively open the combs accommodated in the cylinder 4 pension holes 11, 12, 13, 14 and which have the shape of the parts 25, 26, 27 and 28 respectively of Éylsans 17 wall. the opening of the compensation hole-13, which is located on the the stand 1 (Fig. 1) from the end surface 16 of the percussion member 6, participates to increase the air leakage from the air cushion 9 and consequently to reduce the impact energy generated by the percussion member 6.

By continuing to turn the handle 20, one brings all compensating holes 21 accommodated in the sleeve 17, (Fig. 2), 22, 23 and 24 to lie in the middle of the compensation holes 11, 12, 13 and 14 respectively in the cylinder 4. All compensation holes 11-14 are thus open, which results in an even greater reduction of the impact energy of the percussion member 6.

When the compensation holes 11-14 are located in it against the cylinder 4 center line perpendicular to the plane, thus connecting the airbag 9 - at the same time as the compensation holes 11-14 are opened successively - with the atmosphere for a longer period of time within the time interval between two successive types than in the known machines of this kind. This results in a larger air leakage from the air the cushion 9 and in a considerably larger reduction of the percussion member 6 impact energy, when the compensation holes 11-14 are opened successively.

By gradually reducing the impact energy by opening each of the compensation holes 11-14 can be brought 456 595 14 the energy to zero without increasing the number of compensation holes 11-14, why the control range of the impact energy of the percussion member 6 (Fig. 1) can be increased to a maximum.

When the sleeve 17 (Fig. 4) in accordance with the compensation the position of the holes 11-14 is arranged immobile in the housing 1, one can open the compensation holes 11-14 by turning the cylinder 4 in relation to the sleeve. The cylinder 4 can be rotated around its center shaft by turning the handle 20 by means of it the groove 29 in the cylinder 4 cooperating the eccentric lever_19.

By making the compensation holes 11 (Figs. Sf, 12, 13 and 14) lies in a single, perpendicular to the center line of the cylinder 4 flat, the sleeve 17 can be formed 1 piece with the housing 1, why the machine gets a simpler constructive design. House 1 is pre- seen with grooves 30-33 and the element, which is intended to be selectable open compensation holes 11, 12, 13, 14, have the shape of it part of the wall of the housing 1, which is arranged between the grooves 30, 31, 32, 33. This element makes it possible, by rotating the cylindrical there 4 open compensation holes 11, 12, 13, 14.- According to another possible embodiment of the machine according to According to the present invention, the sleeve 17 can be movable in the longitudinal direction. in relation to the cylinder 4 by turning the handle taken 20 by means of it cooperating with the annular groove 35 the eccentric lever 19. ' The said longitudinal movement of the sleeve 17 is accompanied by the opening holes 11, 12, 13, 14 are alternately opened by means of the inclined cut the section 36 of the wall 17 of the sleeve 17 or by means of a row of holes 37 (Fig. 7), 38, 39 and 40 taken up around the circumference, the dimension of which in relation to the center 17 of the sleeve 17 axis longitudinal direction increases gradually and which are arranged at the point where the compensation holes 11, 12, 13 respectively 14 are accommodated in the cylinder 4.

Such a constructive design of the sleeve 17 contributes to then. simplify the manufacture of the machine.

Claims (6)

The gas spring-operating percussion machine according to the present invention thus makes it possible to regulate the single-stroke energy of the percussion member 6 within wide limits without the stroke frequency having to be changed. In rock drilling machines, for example, the breaking capacity of the material (rock) to be processed can be balanced (leveled) and the capacity for removing the broken rock flour, so that the machine provides a considerable drilling capacity regardless of the hardness of the material to be drilled. In such rock drills, any jamming of the tool in the material to be broken is eliminated, which makes it possible to increase the tool's operational safety as well as the functional safety of the rock drill's turning mechanism. P a t e n t k r a v '1. Gas-spring impact machine comprising partly a housing (1), partly a drive device (2) arranged in the housing (1), partly a tool 13), partly a cylinder (4) provided with compensation holes (11, 12, 13 and 14) , which contains a piston (5) connected to the drive device (2) and a percussion means (6) cooperating with the tool (3), which is connected to the piston (5) by means of a gas spring or air cushion (9), and partly a cylinder (4) surrounding sleeve (17), which can move in relation to the cylinder (4) and is provided with an element, which is intended to selectively open the compensation hole (11-14) of the cylinder (4), when the sleeve (17) moves, characterized in that the compensation holes (11-14) are located in a plane perpendicular to the center line of the cylinder (4). 2. A machine according to claim 1, characterized in that the sleeve (17) is rotatable relative to the cylinder (4) and in that the element, which is intended to selectively open the compensation holes (11, 12, 13 and 14), consists of parts ( 25, 26, 27 and 28 respectively 28) of sleeve sense (17) Wall- '456 595 16 3. A machine according to claim 1, characterized in that the sleeve (17) is arranged immobile in relation to the housing (1) and in that the cylinder (4) is rotatable about its center axis, while the element, which is intended selectively opening the compensation holes (11, 12, 13 and 14), consist of parts (25, 26, 27 and 28, respectively) of the wall of the sleeve (17). Machine according to claim 1, characterized in that the sleeve (17) is made in one piece with the housing (1) and that the element, which is intended to selectively open the compensation holes (11, 12, 13 and 1Ä), consists of the part of the wall of the house (1) which lies between in the house (1L. occupied tracks (30, 31, 32 and 33). Machine according to claim 1, characterized in that the sleeve (17) is movable in the longitudinal direction relative to the cylinder (4) and in that the element, which is intended to selectively open the compensation holes (11-14), has the shape of a slanted section (36) of the wall of the sleeve (17). 6. A machine according to claim 1, characterized in that the sleeve (17) is movable in the longitudinal direction relative to the cylinder (4) and in that the element, which is intended to selectively open the compensation holes (113 12, 13, 14) , consists of a series of holes (37, 38, 39 and 40) occupied around the circumference with successively increasing dimension in the longitudinal direction relative to the center line of the sleeve (17).