SU840331A1 - Pneumatic hammer drill - Google Patents

Description

The invention relates to mining and road building machines and can be used in those sectors of the national economy where crushing or destruction of various materials is necessary without the use of manual labor and explosions. In particular, in the repair of various metallurgical aggregates for the destruction and breakdown of spent lining. A pneumatic percussion mechanism containing a cylinder is known, then a spool with a die and accumulating chambers connected directly to the supply network, the piston has a face and two rods acting as spools 1. However, the hammer, perceiving all the energy of the blows, is made at the same time with the piston-spool. As a result, it is impossible to replace the striker, as the most susceptible to wear to the element, without replacing the whole piston of the hammerhead, which is impractical because the piston also performs the role of a spool. The closest in technical essence and the achieved result to the invention is a pneumatic hammer, comprising a body housed therein with the possibility of axial reciprocating movement of a hammer, in the central channel of which an exhaust pipe with windows is placed, and a tool 2. The disadvantage of the pneumatic hammer is the difficult control of the impact energy. The purpose of the invention is to provide the possibility of infinitely adjusting the impact energy. The goal is achieved by the fact that the exhaust pipe is installed with the possibility of fixed movement by means of a cap nut. FIG. 1 shows a pneumatic hammer, a general view; in fig. 2 shows section A-A in FIG. 1 in FIG. 3 shows a section BB in FIG. in fig. 4 - drummer in the upper position; in fig. 5 shows the exhaust pipe in its lowest position; FIG. 6 - the same, in the extreme upper position. The pneumatic hammer comprises a barrel 1 which is a pipe, the inner surface of which is mechanically treated. In the barrel 1, the drummer 2 is mounted with the possibility of movement. Outside, the barrel tube 1 has accumulating cavities 3-5.

On the side of the lower end of the tube 1, a yoke of b square section is rigidly fixed. The axle 7 enters the cTBOJia channel 1 and is attracted by its protruding endcSM- using a stepped ring 8 and fasteners 9 to the end of the pipe 1. The upper end of the pipe 1 is closed by a lid 10, which is attracted to it with the help of nuts 11 and strap studs 12, screwed into the yoke b. The tool 13 is freely mounted in the bush 7, which is kept from falling out with the aid of a detachable finger 14. Two earrings 15 are rigidly fixed to the yoke 6, in the holes of which a thick-walled tube 16, having ends 17 and 18 at the ends, is fixed to the studs pneumatic hammer on the base machine, for example, a boom of a hydraulic excavator.

The drummer 2. Is made with a through central hole 20 into which the striker 21 is pressed from the side of the striking part, made of high-strength wear-resistant material. The exhaust pipe 22 freely enters the central hole 20 of the striker, to which the union nut 23 is rigidly fixed, the upper end of the exhaust pipe 22 is closed a cap 24, the side walls of which are below the exhaust windows 25. The cap nut 23 of the exhaust pipe 22 is screwed onto a threaded nipple 26 rigidly fixed on the cover 10 and fixed with a lock nut 27. End ends of trunnions 1 7 and 18 are sealed with plugs 28 to form a sealed chamber 29, which communicates with the accumulator cavity 3 by means of an inlet pipe 30.

The pipe 31 is rigidly fixed to the thick-walled pipe 16, and a flexible hose (not shown) is put on it, through which compressed air is supplied to the pneumatic hammer. The drummer 2 has an outer annular groove 32, the ends 33 and 34 of which, together with the outer Tortsals 35 and 36, carry out air distribution for the return movement of the striker and the interaction of its ends with the supply channels 37-41 by exhaust windows 42 and 43 and 44. 44. 45 on the lateral cylindrical surface of the tool 13 is more complete in length than the diameter of the removable pin 14. As a result, the tool 13 has the possibility of axial interchange, which is necessary for blocking the start of the pionmpilot into operation when the tool lifted over the basic machine Deplete pictures. Thus, in ms of the tool permutation ribbons at different points of the material being destroyed, the pneumatic hammer does not patoTaj j i The cavity 4 is connected to the chamber 6 of the barrel's working stroke

the cavity 5 is connected to the chamber 47 of the no-load trunk.

Pneumatic hammer works as follows.

When an electropneumatic valve (not shown) is switched on from the cab of the base machine, compressed air through which the hose through pipe 31 enters the hermetic chamber 29. From there, through compressed air supply pipe 30, the compressed air enters the accumulating cavity. 3. Then through the channel 37 and the annular groove 38, the compressed air is fed into the accumulating cavity 5 of idling. Next, through the channel 39 compressed air enters the chamber 47 of idling under the drummer 2.

Under the influence of compressed air, the striker 2 begins to move upward, while the air from the chamber 46 of the working stroke is forced into the atmosphere through the open exhaust ports 42 and 25 of the exhaust pipe 22. Passing part of the idle, the lower end 33 of the annular groove of the striker closes the channel 38, the supply of compressed the air under the hammer is stopped and it continues its upward movement under the influence of expanding compressed air, cut off in the accumulating cavity 5 and the idling chamber 47. Upon further idle movement, when the upper outer end 36 of the striker overlaps the exhaust ports 42 of the pipe 22, a cut-off airbag is formed in the cavity 46 of the working stroke.

Upon further idle movement of the striker, its lower outer end 35 opens an exhaust port 43 through which the idling chamber 47 communicates with the atmosphere. With further slow idle movements (Fig. 4), the upper end of the groove of the striker opens channels 40 and 41 and compressed air from the cavity. 3 through channels 40 and 41 enters the accumulating cavity 4 of the working stroke; from there, channel 44 is transferred to the working chamber 46. After that, the movement of the striker 2 upwards prevents not only the airbag, but also compressing the air from the supply network. As a result, the movement of the striker upwards stops and he begins, accelerating, to move down. At this point, the exhaust port 43 is open and the air from the idle chamber 47 is forced through the window into the atmosphere.

After the top end 34 of the driver's groove closes the air supply channels 40 and 41, the working stroke of the impactor 2 occurs under the influence of expansion of the cut off compressed air, in the camera 4 6 of the working stroke and accumulating cavity 4. After the external end 35 of the impactor blocks the exhaust window 43, in the idling chamber 47, a pneumatic belt is created, reducing the impact of the striker 21 of the striker on the shank of the tool 13. Until the end of the working stroke, when the striker 21 of the striker strikes the tail 13 of the BHxy tool 13, the bottom end 33 The annular duct of the striker opens the air duct of the channel 38 and Ш1КЛ of the pneumatic hammer repeats If it is necessary to increase the pneumatic hammer Eang blow with BigmeHHH nekkidii nut 23, fixed to the exhaust pipe 22, the latter is moved; upward and fixed in the right direction with the help of lock nuts 27. Due to this, the open windows 42 and pipe 22, which enter the working stroke chamber, change their location and the eye is called closer to the plastic cover; 10. As a result, the stroke of the striker 2 increases, next to it increases. Pneumomol energy is the same, as a result of which the frequency of blows is reduced. - If it is necessary to reduce the energy of a single blow and increase the frequency of blows, the exhaust pipe 22 is moved down (Fig. 5) in reverse order. The start of the pneumatic hammer is blocked following the pattern (Fig. 7). When the tool 13 is required to be moved from one point of destructible material to another from the base machine (hydraulic excavator) the pneumatic hammer rises, the tool 13 is detached from the destructible material and hangs. In the air, the weight of the tool 13 is lowered DOWN by the length of the groove 45. The drummer 2, together with the boy 21, resting on the shank of the tool 13, is also lowered to its bottom 35, blocking the air inlet channel 39. In the position It is impossible to start the pneumatic hammer, which protects it from premature wear. The invention makes it possible to eliminate the use of labor and increase labor productivity. The inventive equipment is a hammer mill, comprising a housing in which it can be rotated with the possibility of reciprocating transfer, in the central channel of which there is a tube with windows, and a tool that is about By the fact that, in order to continuously inflate the impact energy, the exhaust pipe has been installed with the possibility of a fixed transfer "has been retained by means of a cap nut. Sources of information taken into account during the examination 1. USSR author's certificate 431302, class E 21 C 3/24, 1968 2. Esin N.V. Submersible pneumatic The shock impact maans for boren squash y. Novosibirsk, 1976, pp. 29 (prototype) ... b FIG.

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Claims (2)

Claim A pneumatic hammer containing a housing, accommodating in it an axial reciprocating movement of the hammer, in the central channel of which there is an exhaust pipe with windows, and a tool, characterized in that, for the purpose of steplessly controlling the impact energy, the exhaust pipe is mounted with the possibility of fixed movement by union nut. __ Sources of information, 3 ° 'taken into account in the examination 1. Copyright certificate of the USSR ”431302, cl. E 21 C 3/24, 1968. 2. Esin N.V. Submersible pneumatic impact machines for drilling wells. Novosibirsk, 1976, p. 29 (prototype). I Fig.Z FIG. IN Compiled by 0. Seregin