DE1942092U - NAILING MACHINE. - Google Patents

Description

P-A.262 499 * 5/18/66

Patent attorney
DipUng. GW SCHMIDT ⁸ "II ™! Iße ι} ® '" ^

Telephone ι 227861

Postal checking account ι Mönchen 38525 · My sign: Change Oasis

Bank account! Bayer. Verelnsbonk account 561880

Fastener Corporation, Franklin Park, Illinois, V.St.A.

Nail machine

The innovation concerns a transportable, i.e. «handheld device trained nailing machine with a working piston arranged in a cylinder and connected to the ram and a control valve through which the working space (the upper part of the cylinder) alternates with a pressure medium source and the outside air can be connected, as well as with one connected to the lower end of the cylinder standing return chamber, the compressed air of which moves the piston to its starting position (rest position) after the working stroke has been completed returns.

The use of a return chamber that holds the piston returns to its rest position by means of compressed air

known. The known arrangements use, for example, a differential piston, the space between the two Piston parts is continuously fed with compressed air, or one special valve control that supplies compressed air to the space under the piston at the desired times. The known However, arrangements have a number of disadvantages, in particular that of a complicated, relatively expensive design, as well as the disadvantage that they are relatively large Consume Druok Air.

The innovation is based on these disadvantages avoid and create a nailing machine with a pneumatic return of the piston that is simple and cheap is, works reliably, ensures a quick return of the piston and has a low air consumption.

The essence of the innovation is primarily that the piston has a check valve that is known per se Contains connection with a controlled cylinder opening in such a way that the compressed air from the work space only in the lower position of the piston (after completion of the working stroke) can flow into the return chamber, so that the working stroke only a relatively low counterpressure counteracts this, which practically does not impair the impact force of the piston. The further details of the innovation emerge from the description and the claims.

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The nailing machine according to the innovation contains a housing with ^: a front head part and a rear handle part, the cavity of which is designed as an air chamber and is constantly connected to a compressed air source. The head part contains a vertically arranged socket which forms the working cylinder with an end open at the top, which is connected to a duct of the housing which can be connected either to the outside air or to the air chamber. A manually operated control valve, which can be designed in any manner known per se, connects the said duct and the working space normally with the outside air; if it is operated by hand, the connection with the outside air is interrupted and a connection with the air chamber is established. The incoming compressed air drives the working piston arranged in the cylinder downwards, so that it performs a working stroke, with its plunger holding a nail or the like. drives into the workpiece.

The lower end of the cylinder is connected to the return chamber. During the working stroke of the piston, the under this air in the cylinder is pressed into the return chamber, so that there is a certain overpressure in it is produced. When the piston approaches its lower position, the check valve located on it enters Function and connects the work area via the

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valve and a cylinder opening released by the piston with the return chamber, so that the pressure in this on the full operating pressure is increased. It "turned out that the compression of the air located under the piston during the working stroke of the same increases the impact force of the piston practically not affected. Only after the end of the working stroke is the pressure in the return chamber on the full operating pressure increased. Shortly afterwards, the work space is connected to the outside air. At this point, the Compressed air in the return chamber applies to the lower end of the piston and guides it into its starting position return The check valve closes automatically, so that the pressurized air under the piston is fully effective.

In a preferred embodiment, the check valve contains an elastic sealing ring arranged in a wide piston groove, which sioh in the groove in the longitudinal axis of the piston can move. The wide piston groove has indentations at the bottom through which the air can reach the sealing ring can flow past when this is in its lower position. Below the sliding sealing ring a second sealing ring is arranged in a narrow groove. When the piston approaches its lower position, is the space between the two piston rings an or

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several Durohflussb'ffnungen free, so that the compressed air of the Working space past the first piston ring through the flow openings into the return chamber. .can occur. As soon as the return movement of the piston begins, the upper, sliding sealing ring is pushed through into the space compressed air entering between the piston rings shifted to its upper position, in which the non-return valve is closed so that no air can flow past the sealing ring »Shortly afterwards the lower piston ring passes the Passage openings.

An embodiment of the innovation is shown in the drawing.

Pig «1 is a partial section of a nailing machine after the Innovation? the piston is in its lower position at the end of the working stroke.

Figo 2 is a section like Pig. 1 j the one in the upward movement The piston is in an intermediate position.

Pig. 3 is an enlarged section through the control valve in the rest position.

The portable nailing machine (designed as a handheld device) According to the innovation, the general reference numeral 10 denotes »The nailing machine 10 has a housing 12 with a front, essentially vertically arranged head part 12a

and a rear handle part 12b, the hollow interior of which is designed as an air chamber 14, which is permanently connected to a Compressed air source is in communication, for example via a Luftsohlauchο The head part 12a of the housing has a cavity 16, in which a cylinder 18 is arranged. The lower end of the cylinder 18 protrudes through corresponding openings Connection with a return chamber 19 · The upper, open end of the cylinder (the working space) is in constant communication with a channel 20. A hand-operated, combined control valve 22 connects the channel 20 with normally the outside air. namely via an outlet channel 24 of the handle part 12b. The control valve can be in a working position be brought, in which it separates the channel 20 from the outside air and connected to the air chamber 14 in this Palle enters the compressed air into the upper, open end of the Cylinder 18 and presses down a working piston 26 which is slidably disposed in the cylinder 18. The working piston is connected to the upper end of a plunger 28 which, when the working piston descends, grips a nail 30 or similar and presses down in the discharge channel 32 so that it is in the workpiece is driven. The discharge channel 32 is arranged in a mouthpiece 34 which has a storage container or magazine is associated with the general reference number 36 "

During the downward movement of the working piston 26, the air below it is through a plurality of openings 56 located at the lower end of the cylinder in the return chamber 19 is pressed. If, with the corresponding position of the control valve 22, the one above the piston Any compressed air located in the atmosphere escapes, the compressed air stored in the return chamber 19 acts on it the lower surface of the piston 26 and returns it to its upper or rest position.

The head part 12a of the housing 12 contains the mentioned cavity 16, in the wall of which an upper edge 18a of the Cylinder engages with the interposition of a sealing ring 44. The head part 12a has an upper opening through a Deokel 46 is closed, which is connected with the interposition of a seal 49 with the aid of the screws 48 with the housing is. A recess 50 in a projection 46a of the lid contains a buffer 52 made of elastic material, against which the piston struck at the end of its upward movement In the lower part of the cavity 16 an annular buffer 54 made of elastic material is arranged to prevent the downward movement of the piston at the end of the working stroke. The buffer 54 engages in a lower edge 18b of the cylinder 18. The The lower end of the cylinder communicates with the cavity 16 through a plurality of circumferential openings 56. The cavity 16 and thus the return chamber 19 is

a sealing ring 58 is sealed at the lower end.

In the lower part of the cylinder 18, above the openings 56, there are a plurality of "calibrated" in the cylinder wall Passage openings 60 are provided, the mode of operation of which continues. is described below.

The piston 26 has two resilient sealing rings, namely a lower sealing ring 62 and an upper sealing ring 66. The lower sealing ring 62 is arranged in a matching groove 64 of the piston. The upper sealing ring 66 is arranged in a wide groove 68 of the piston in such a way that it can slide in the axial direction and optionally come into engagement with the upper or lower boundary wall of the groove 68 »In addition, the cap 68 has one or more recesses 74 ·» extending from near the top edge of the groove to below its bottom edge. When the space above the piston is pressurized, the sealing ring 66 shifts to its lower position, as in Pig. 1, so that compressed air can pass through the depressions 74 into the space between the two sealing rings. If, on the other hand, the space below the sealing ring 66 is under pressure, it moves upwards and seals the piston against the cylinder. The sliding sealing ring 66 in conjunction with the depressions 74 therefore acts as a check valve which only allows air to flow past from above near below, but not in the opposite direction.

A metal seal 76 below the buffer 54 prevents air from escaping past the plunger 28. The ram passes through a fitting opening 76a of the seal 76. It goes without saying that in normal operation of such a nailing machine a small amount of compressed air is applied to can escape past the seals? However, these small amounts of air are insignificant in terms of the overall effect the nailing machine.

The passage openings 60 are between the sealing rings 62 and 66 of the piston when it is in its lower position, as shown in Pig »1 ■.

How the return mechanism works for the piston is essentially apparent from the description above · The piston is in the rest position of the nailing machine sioh in its upper position, in which it touches the buffer 52. The control valve 22 is in its rest position, in which the space above the piston 26 is connected to the outside air and its connection to the air chamber 14 is interrupted. If the control valve 22 is brought into the working position, the connection of the cylinder 18 interrupted with the outside air and introduced compressed air from the air chamber into the upper end of the cylinder 18, so that the piston 26 is driven down with the plunger 28 and performs a working stroke. During the initial

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Downward movement of the piston 26 cannot flow compressed air past the sealing rings 62 or 66, even if the upper sealing ring 66 is in its lower position, since the pressurized air cannot flow past the lower sealing ring 62. During the downward movement of the piston, the air below it is pressed through the openings 56 into the return chamber 19. The piston 26 finally reaches its lower position in which it touches the buffer 54. In this position, the lower sealing ring 62 has released the passage openings 60 so that compressed air can flow from the space above the piston through the recesses 74 past the upper sealing ring 66 and enter the return chamber 19 through the passage openings 60.

After the end of the working stroke, the control valve 22 interrupts the connection between the air chamber 14 and the upper end of the cylinder 18 and connects the latter via the channels 20 and 24 with the outside air. As soon as the compressed air Has escaped from the upper end of the cylinder 18, the compressed air in the return chamber 19 acts on the underside of the piston so that it is pushed up and comes to its rest position »The initial flow of compressed air from the return chamber takes place via the passage openings 60 and the openings 56 of the cylinder. The through the Durohlassöffnungen 60 incoming air displaces the upper one

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Sealing ring 66 upwards so that it is in its sealing Position reached ,, The upper sealing ring 66 therefore works like a check valve in that the LuTt flows downwards but prevents the air from flowing in the opposite direction. The compressed air in the return chamber 19 returns the piston to its original position. Enough air slowly passes between the metal gasket 76 and the Plunger 28 to allow the air below the piston to escape after the end of the working stroke.

In order to connect the space above the piston 26 alternately with the outside air and the air chamber 14, one of Hand-operated, combined control valve 22 is provided, which can be designed in any manner known per se, for example according to US Pat. No. 3,173,340.

The combined control valve shown in the drawing 22 includes an upper valve piston 86 with a piston part 90 and a lower valve piston 102 with a piston part 108. The piston parts 90 and 108 are guided in a cylinder 94 of a valve body 96, which by means of the thread 98 into the Housing 12 engages. The y-valve body 96 contains a release valve with a y-valve pin 124 · the upper valve piston 86 has a mushroom-shaped head with a sealing ring 84, which in the lower position of the valve piston with the funnel-shaped Wall 82 of a valve seat 80 comes into engagement, which in the

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Housing 12 is pressed in. In the upper position of the valve piston 86, that is _e in the rest position of Mg. 3 ", the flow opening 79 is released and connected -dadurch the channel to the outlet channel 24th As a result, the space above the working piston 26 is vented. The piston part 90 of the upper valve piston 86 is essentially designed as a disk, the upper side of which is connected to an elastic sealing plate 88 "In the upper position of the valve piston 86, ie" in the rest position of the Pig. 3 »the sealing plate 88 lies against the lower edge of a cylindrical ¹ opening 92 and closes it so that the connection of the air chamber 14 with the channel 20 and the space above the working piston 26 is interrupted. The upper valve piston 86 thus controls the working piston 26s. In the upper or rest position (Fig. 3) the space above the working piston is connected to the outside air, in the lower or working position (Pig. 1) it is connected to the pressure medium source «

The piston part 108 of the lower valve piston 102 is sealed off from the cylinder 94 by a sealing ring 110. It has an upper, cylindrical port set that is in a cylindrical bore 104 of the upper valve piston 86 is slidably disposed and sealed by a sealing ring 118. The upper surface of the disk-shaped piston part 108 is with

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a resilient sealing plate 112 connected to the places in the rest position of the Pig "3 against a protruding edge 114 of the upper valve Kolbene, where ^T e * ine chamber 116 is formed. In the cylindrical bore 104 of the upper valve piston, a chamber 106 is formed above the neck of the lower valve piston, which has a lateral opening 122 o The chamber 106 is connected to the chamber 16 through a narrow, calibrated passage 120. Furthermore, a calibrated passage opening 100 is provided on the circumference of the piston part 90 of the upper valve piston, which passage opening 100 can be designed in any manner known per se, for example in the form of one or more narrow grooves or grooves.

To move the valve pistons with the least amount of force To control, the combined control valve 22 contains a release valve, which by a hand lever 129 (Fig. 1) is actuated «The release valve contains a valve pin 122 which is arranged in the bore of a plug 126 so as to be slidable is which the latter is threaded into the valve body 96. For sealing between the plug and the valve body a sealing ring 130 is provided. The bore of the plug 126 receiving the valve pin 124 has a plurality of axial grooves 138 or the like, which form an outlet channel. The valve pin 124 is conical at its upper end formed and contains a groove that has an elastic

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-H-

Sealing ring 132 receives. At rest the pig. 3

132-

lays the sealing ring 4 £ Q- of the valve pin against the Stopper 126, so that the one with the Windkess «! H communicating channel 136 via bore 134 and channel 142 is connected to the chamber HO under the piston part 108. When the hand lever 129 is pressed, the valve pin comes out 124 in the position of FIG. 1, in which the sealing ring 132 closes the channel 136. Chamber HO is now over channel 142, bore 134 and the axial grooves 138 connected to the outside air. The valve pin 124 thus controls the pressure in the chamber HO: is in its rest position the HO chamber is connected to the air chamber, but in the working position it is connected to the outside air

The operation of the combined control valve 22 is the following o Assume that the control valve 22 is in the rest position of FIG. Compressed air from the air vessel H passes through the channel 136, the bore and channel 142 into chamber HO under piston part 108 of the upper valve piston. The two valve pistons are therefore brought into the position of FIG. 3, in which the Channel 20 connected to the open end of cylinder 18 is connected to the exhaust port. The pressurized air in the chambers 106 and 116 escapes via the calibrated passage channel 120 and the opening 122. The sealing plate 88 lies down

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against the lower end of the cylindrical opening 92 and prevents the entry of compressed air into the channel 20 _e

T. *

If the release lever is pressed, the valve pin 124 comes into its upper position, i.e. into the working position of the '■ · ■ Pig. 1. In this position, the chamber HO is via the channel 142, the bore 134 and the axial Hillen 138 with the The upper valve piston 86 and the lower valve piston 82 are therefore connected downwards into the position of Pig. 1 pressed, in which the connection of the channel 20 with the outlet channel 24 is interrupted and a connection between the air chamber and the duct 20 is established. The space above the working piston therefore receives compressed air.

Via the opening 122 and the calibrated passage channel 120 and also via the calibrated passage opening 100 Compressed air slowly flows into the chamber 116 between the piston parts 108 and 90 of the lower and upper valve pistons, respectively. As soon as the pressure in the chamber 116 has reached a certain level, the upper valve piston 86 is moved up into the position 2, in which the duct 20 is again connected to the outside air and its connection to the air chamber 14 is interrupted «The space above the working piston 26 is therefore vented so that the working piston is in its rest position returns. The air in the chamber 106 escapes through the opening 122.

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The working piston is therefore also returned to the initial position after the end of its working stroke when the hand lever 129 is held in the depressed position.

If the hand lever 129 is released, the valve pin 124 returns to the pig position. 3 back in which the chamber 140 under the lower valve piston receives compressed air so that the latter is pushed up and in the position of FIG. 3 is reached.

The innovation is manifold changes in the context of the Capable of claims.

Claims (1)

IA. 2621 * 99 * 5/18/66 Munich, May 18, 1966 Protection claims 1 «, transportable, i.e. hand-held nailing machine with a working piston arranged in a cylinder, driving the plunger and a control valve, through which the working space (the upper end of the cylinder) alternates with a pressure medium source and the Outside air can be connected, as well as with a return chamber connected to the lower end of the cylinder, characterized in that in the cylinder wall, preferably approximately in the middle of the cylinder (18), a through the piston controlled passage opening (60) is provided, through which the working chamber in the lower piston position is connected to the return chamber (90). 2 «, nailing machine according to claim 1, characterized in that that the working piston (26) contains a non-return valve which allows the air to pass through from the working space controls the passage opening (60) into the return chamber (19). _ 2 - Hail machine according to claim 2, characterized in that that the check valve is designed as a sealing ring '' (66) which can be displaced in a wide piston groove (68) is, which in its lower position (Fig. 1) bypass openings (Recesses 74) releases which allow the air to flow past the sealing ring « 4β nailing machine according to claim 3 »characterized in that that the bypass openings are designed as depressions (74) in the piston wall, which are below the upper Begin at the edge of the groove (68) and extend to below the lower edge of the groove. ο nailing machine according to claim 3 or 4, characterized in that that below the sliding sealing ring (66) a second, always sealing sealing ring (62) is arranged » 6. nailing machine according to claim 5, characterized in that the passage opening (60) is arranged such that in the lower piston position it is in communication with the space between the two sealing rings (62 and 66). 7ο nailing machine according to one of claims 1 to 6, characterized characterized in that the lower end of the cylinder (18) has openings (56) which the lower cylinder space with connect the return chamber (19) » Nailing machine according to one of Claims 1 to 7, characterized characterized in that a seal (76) is provided which closes off the lower end of the cylinder and a Seals against the plunger (28) causes. 9 «nailing machine according to one of claims 1 to 8, characterized characterized in that the cylinder (18) is designed as a bushing inserted into a cavity (16) of the housing (12) which is surrounded by the return chamber (19), the lower end of the cylinder with openings (56) which connect the lower part of the cylinder with the return chamber.