DE2635644A1 - Pneumatic stamping or riveting hammer - has ball admission valve and percussion piston with bore accommodating valve operating pin - Google Patents

Abstract

The stamping and/or riveting hammer has a valve operating mechanism which makes it impossible to carry out blank blows. The hammer consists of a cylindrical body with a valve assembly and hose connection on one end and an orifice on the other end. Inside the cylindrical body the percussion hammer operates in reciprocating movements against the force of the spring. The hammer provided has a bore through which the valve actuating pin is fitted. One end of the pin terminates next to the ball valve, the other is loosely seated in blind bore of a percussion mandrel. By pressing eh cylinder with mandrel against the piece to be hammered pin is pushed against the valve which opens and admits compressed air onto the percussion hammer.

Description

Pneumatic impact and riveting hammer

The invention relates to a pneumatic hammer and riveting hammer with a cylinder in which a punch can be displaced in a mouthpiece at one end out and at the other end an air inlet valve is arranged and in which between Air inlet valve and punch out a compressed air acted upon percussion piston is that from the starting position under the air inlet valve by means of compressed air hit the punch and turned away from one on the air inlet valve Side of the percussion piston in the cylinder arranged compression spring in the starting position is pushed back.

Impact hammers of the type mentioned are known. You own on the housing an actuating means with which the air inlet valve is briefly opened and through this can flow a compressed air pulse that is sufficient to hit the percussion piston with sufficient Force to strike the punch. When the compressed air pulse is triggered, it closes the air inlet valve immediately automatically, completely regardless of whether the actuating means is still being operated or not. Before the compressed air pulse is triggered, the punch will the rivet to be driven in, the paperboard to be driven in, etc.

put on and pushed against the pressure of a back into the mouthpiece. After triggering the compressed air pulse, the percussion piston strikes the percussion mandrel, strikes this again with its free end from the mouthpiece and strikes the rivet or the like a, drives the pass-pen or the like on etc. After opening of the percussion piston on the percussion mandrel, the percussion piston is moved by the compression spring in pushed back the starting position. By actuating the actuating means again a new blow can be triggered for the air inlet valve. The one through the air inlet valve Compressed air flowing into the cylinder leaves it through a bore in the Cylinder wall which is arranged in such a way that it corresponds to the space between the percussion piston and the air inlet valve communicates at the greatest distance of these from one another.

With impact hammers of the type mentioned, the compressed air pulse is through the actuation of the actuating means for the air inlet valve triggered. Is the The punch is not placed on a rivet etc. to be driven in and not into the Mouthpiece pushed in, the force of the blow must be absorbed by the means alone that limit the path of the scarf mandrel out of the mouthpiece. By wanted or unwanted blank spaces, these means are therefore subject to premature wear exposed. There is also the risk that, in particular, by unintentional blank spaces Damage to the object into which the rivet is to be driven or even personal injury.

The object of the present invention is to provide a pneumatic impact and riveting hammer with a cylinder with a punch in a mouthpiece at one end slidably guided and an air inlet valve is arranged at the other end and in which between the air inlet valve and the hammer a compressed air-acted upon hammer piston is performed, which from the starting position under the air inlet valve by means of compressed air struck on the punch and turned away from one on the air inlet valve Side of the percussion piston in the cylinder arranged compression spring in the starting position is pushed back to make such that spaces are practically impossible are.

This object is essentially achieved in that the air inlet valve is a ball valve, the percussion piston has an axis bore and between the valve ball and punch an in extended position of the punch the hole reaching up to the valve ball or ending shortly before this valve pin is arranged.

The ScrllaZdorn is used to trigger the impact on this hammer placed on the rivet to be driven in, pin to be driven in, etc. and is then the punch pressed into the mouthpiece. The punch pushes the valve pin against the ball and lifts it off the seat. The valve is now open and compressed air can flow into the cylinder. The incoming compressed air presses against the percussion piston and hits it on the punch. Through this blow, the punch will be with its free end out of the mouthpiece and at the same time hammered in the rivet, the pin is driven in, etc. At the same time, the valve spring pushes the valve ball again on their seat, at the same time the valve pin is pushed back into its starting position will. The compressed air that has flown into the cylinder leaves the cylinder through the bore in the piston and through in the cylinder, expediently arranged eccentrically in the mouthpiece Breakthroughs. After the blow has taken place, the hammer is lifted off. Another Impact can only take place when the punch is pushed back into the mouthpiece will.

The impact hammer according to the invention can also be used successfully as a riveting hammer can be used. If the hammer is not lifted after the blow, but kept pressed against the object to be hammered, driven in, etc., the punch is pushed back into the mouthpiece after each blow and at the same time at the same time the valve pin is pressed against the valve ball and this is removed from its Seat lifted so that compressed air flows into the cylinder and the piston again can hit the punch.

The impact hammer according to the invention is therefore not superfluous only manually operated means for the air inlet valve for triggering the compressed air pulse and not only spaces are avoided with impact hammers. The inventive The hammer can also be used as a riveting hammer, not necessary with riveting hammers manually operated means for opening and closing of the air inlet valve and the slide or flutter valves for controlling the individual valves and prevents Blank blows with riveting hammers.

Further features of the invention are in the description of the figures and presented in the subclaims, it being noted that all the individual features and all combinations of individual features are essential to the invention.

In Figures 1, 2 and 3, the invention is exemplified by embodiments shown without being limited to these embodiments.

Fig. 1 shows a vertical section parallel to the longitudinal axis an impact and riveting hammer according to the invention, FIG. 2 one according to the invention Riveting hammer with a guide piece placed on the tool and Fig. 3 shows a Section according to FIG. 1 through a different embodiment.

The cylinder 16 advantageously has a coating 2, suitably from a shrink tube, the surface of which is profiled.

In the cylinder 16, the mouthpiece 1 is arranged at one end and at the the other end is the air inlet valve 17. The mouthpiece can be attached to the cylinder 16 be molded, as shown in the figures. Of course it is possible to use a screw-on or screw-in mouthpiece l. The mouthpiece l has a central axial bore in and through which the punch 15 is led. The punch 15 has one on the inside of the mouthpiece l circumferential collar 12, with which he is pushed out of the mouthpiece 1 free End rests on the inner surface of the mouthpiece 1. On that in the interior of the cylinder 16 protruding end of the hammer pin 15 is the support ring 11 pushed, which rests on the side facing away from the mouthpiece l on the collar 12. This Support ring 11 has a circumferential collar on the side facing undstck 1 24, on which the compression spring 10 is supported with one end. Against this compression spring 10, the punch 15 can be pushed into the mouthpiece 1 up to the mouthpiece 1 and punch 15 flush with their free ends complete with each other. That the Mouthpiece 1 facing away from the end of the compression spring 10, expediently a spiral spring, supports on the side facing away from the inlet valve 17 on the percussion piston 9. The inlet valve 17 is a ball valve. The valve housing is in a known manner on or fixed in cylinder 16, e.g. screwed in. The valve housing 4 has an axial, central bore 25. This bore 25 is expediently stepped several times.

The outer end of this bore 25 advantageously has an inner one Screw thread into which the hose connector 8 is screwed with an external thread is. The hose connector 8 can, however, also have a different shape with the valve housing 4 be connected. The gradation with the narrowest passage serves at the same time the side facing away from the interior of the cylinder 16 as a valve seat 26 for the valve ball 6. The valve spring 7 is useful between the valve ball 6 and the hose connector 8 a compression spring, one end on the ball 6 and the other end on the free end of the hose connector 8 is supported. Around the valve spring 7 to give a secure hold on the hose connector 8, it makes sense to use the axial and central bore in the hose connector 8 on that of the valve ball 6 facing side to expand. The shoulder 27 formed in this way serves as an abutment for the valve spring 7 on the side facing away from the valve ball 6. The percussion piston 9 has an axial, central bore 18 and between punch a and valve ball 6, a valve pin 14 is arranged, which with the extended position of the valve mandrel 15, as shown in Figure 1, from the valve mandrel 15 through the bore 18 in the percussion piston 9 extends to the valve ball 6 or ends shortly before this. The clear diameter the bore 18 in the percussion piston 9 is larger than the thickness of the valve pin 14. For the safe storage of the valve pin 14, it is possible that the percussion piston 9 zugekhrte end of the hammer pin 15 to be provided with a blind hole 13 into the the valve pin 14 engages with the end facing the punch 15. To be safe Storage of the valve pin 14 on the end facing the valve ball 6, it is possible a recess 19 in the valve housing 4 on the side facing the percussion piston 9 to be arranged and this with a guide disk 5 with a central bore 21 for the valve pin 14 to lock. This points off-center Guide disc 5 holes 22 for the compressed air. On the the valve body 4 facing away from the end of the hose connector 8 is not shown, on the compressed air hose attached in a known manner. Should a rivet be struck a pin are driven, etc., the punch 15 with its free end placed on the rivet etc. and then pressed the cylinder 16 downwards.

The punch 15 pushes into the mouthpiece 1. The punch 15 pushes the valve pin 14 against the valve ball 6, which is against the pressure the valve spring 7 is lifted off the valve seat 26. Now the compressed air flows through the valve 17 and the bores 22 in the guide piece 5 on the valve housing 4 facing side of the percussion piston 9 and strikes the percussion piston 9 against the Pressure of the spring 10 on the end of the punch 15 protruding into the cylinder 16. The punch 15 is od on the rivet.

Like. Beat until the collar 12 on the inside of the mouthpiece 1 is present. The valve spring 7 presses the valve ball 6 back onto the valve seat 26 and pushes the valve pin 14 back into the starting position. After the blow has taken place the percussion piston 9 is returned to the starting position by the compression spring 10 Air inlet valve 17 pushed back. The flowed in through the air inlet valve 17 Compressed air SEt through the bore 18 in the percussion piston 9 and leaves the cylinder 16 through the air outlet openings 23 in the mouthpiece 1.

If the hammer is not removed immediately after the blow, but is pressed further against the rivet or the like to be hammered in, the punch 15 pushed in again and the valve ball 6 lifted off again via the valve pin 14, so that compressed air can flow in again and set the percussion piston 9 in motion.

If the hammer is not lifted off, then blow to blow occurs, so that the hammer according to the invention not only as an impact hammer, but also as a riveting hammer is usable.

In many cases, parts should only be hammered to a certain depth, driven in, etc. Because of this, the mouthpiece faces on the outside a sleeve-shaped extension 28 with a External thread 3. A sleeve-shaped guide piece 20 with an internal thread can be attached to this extension 28 be screwed on. Of course, another type of connection is also possible of guide piece 20 and sleeve-shaped extension possible. Below the Extension 28, the guide piece 20 has a clear width that is slightly Is greater than the strength of the punch 15. Should a rivet 29 or the like be driven in one end of this will be on the corresponding hole 30 in the workpiece 31 set. Then on the other end of the rivet 29 od.

Like. The guide piece 20 pushed with the free end until this The end of the rivet 29 or the like rests on the free end of the punch 15. The one now remaining distance between the free end of the sleeve 20 and the workpiece 31 corresponds to the impact depth for the rivet 29 or the like, while the length of the end, which protrudes from the rivet or the like 29 into the guide sleeve 20, corresponds to the height that after the rivet 29 or the like has been hammered in from the surface of the workpiece 31 protrudes. If the hammer is now pushed further down, it becomes the hammer 15 is pushed into the mouthpiece 1 and the blow is triggered as already shown.

The rivet or the like can also be inserted into the guide piece 20 beforehand will.

In the embodiment of FIG. 3 is on the sleeve-shaped extension 20 of the undstückes 1 screwed on a guide piece 40 with an internal thread, which engages in the external thread 3 of the sleeve-shaped extension 28.

This guide piece 40 points to the end facing away from the mouthpiece 1 an inwardly facing 3 and 111, the remaining opening being the starch of the punch 15 corresponds to or is slightly larger. Between to the free end of the sleeve-shaped extension 28 and the inner surface of the collar 41 remains a cavity.

The circumferential collar 12 is arranged on the punch 15 that it rests in its lower position on the circumferential collar 41 and in its upper position Position at the free end of the sleeve-shaped extension 28. The mouthpiece 1 facing surface of the support ring 11 is corresponding to the inner surface of the Ujundstfickes 1 designed, the largest diameter of the support ring 11 being smaller must be than the clear width of the cylinder 16 and further still in the inner Surface of the mouthpiece l grooves 43 are provided for the outlet of the compressed air ensure from the cylinder 16 through the bores 23.

This embodiment according to rig. 3 has the advantage that the punch 15 and the valve pin 14 at the end of the cylinder facing away from the air inlet valve 17 16 can be removed from this and exchanged.

The strength of the strike can be influenced by the strength of the Andrukkes will. With light pressure, the impact is weaker than with firm pressure. the Pressure force is only required to open the valve.

The hammer according to the invention can also be equipped with an automatic feed, z. B. according to OS 24 15 241, be provided. Then the rivet or the like. Before Placing in the mouthpiece promoted.

Claims (1)

Claims 1. Pneumatic impact and riveting hammer with a Cylinder in which a punch is guided displaceably in a mouthpiece at one end and at the other end an air inlet valve is arranged and in that between the air inlet valve and punch a compressed air-acted upon percussion piston is guided from the Starting position under the air inlet valve using compressed air on the punch and from a side of the percussion piston facing away from the air inlet valve The compression spring arranged in the cylinder is returned to the starting position, characterized in that the air inlet valve (17) is a ball valve, the percussion piston (9) has an axial bore (18) and between the valve ball (6) and punch (15) an in the extended position of the punch (15) through the hole (18) Valve pin reaching up to or just before the valve ball (6) (14) is arranged. 2.) impact and riveting hammer according to claim 1, characterized in that that the valve pin (14) with the end facing the punch (15) in a blind hole (13) is stored in the punch (15) 3.) Emschlag- and riveting hammer according to claim 1 and / or 2, characterized in that the valve housing (4) on the percussion piston (9) facing side has a recess (19) in which a guide disc (5) with an axial bore (21) for the valve pin (14) and one or more eccentrically lying air bores (22) is arranged. 4.) Impact and riveting hammer according to one or more of the claims 1 to 3, characterized by a guide sleeve that can be placed on the mouthpiece (1) (20). 5.) Impact and riveting hammer according to one or more of the claims 1 to 3, characterized by a guide piece that can be placed on the mouthpiece (1) (40) with an inwardly directed circumferential collar (41) on the mouthpiece (1) remote end, with an opening in the collar (41), the clear width of which remains corresponds to the strength of the punch (15) or is slightly larger and between the inner surface of the collar (41) and the free end of the mouthpiece (1) A cavity remains in which a circumferential collar (12) is arranged on a punch (15) is.