DE2060009A1 - Impact turning tool - Google Patents

Description

Dr. A. ULLRICH. Dr. T. ULLRICH PATENT LAWYERS

69 HEIDELBERG, Gaisbergstrasse 3 9ΠβΠΠΠ9

Telephone: (06221) 25335 - Telegram address: UUPATENT ^ UUUUU

sign

.. Ö3O4

DESOUTTER BROTHERS LIMITE D, T he Hyde, EdgwareRoad, Hendon,

London , lin gland

Impact turning tool

The invention relates to impact turning tools or screwdrivers with a hammer part that is placed on a drive shaft for reversing the direction of rotation against the effect a compression spring for the cyclic interlocking and separation of the hammers on the hammer part with bolts, which with a drive shaft are connected.

An impact turning tool or screwdriver assembly associated with the hammer and bolt mechanism is known in which the alternating movement of the hammer is given such an amplitude as that developed by the tool Torque corresponds to and reaches a predetermined maximum value, which is used to provide a valve for the air supply to a tool driven by a pneumatic motor to control to stop the latter so as to prevent the predetermined maximum value of the torque from being exceeded will.

In a previously proposed embodiment in which the reversal movement of the hammer part plays a role, covered grooves are provided between the hammer part and the drive shaft supporting it, which contain balls which at a relative rotational movement between the hammer part and the drive shaft in the grooves run up and down and the hammer part v / rechselt.

109825/13 81 ^BAD

The spring is usually a drive shaft surrounding spiral spring, which lies in a recess in the hammer part and abuts at one end of the latter and at the other end rests on an abutment on the drive shaft. The drive shaft rotates at a substantially constant rate At speed and immediately on impact, the hammer part is reduced in speed and becomes a part of itself resulting relative rotational movement between the latter and the drive shaft offset with the result that the hammer part moves in the longitudinal direction of the shaft and the spring is compressed. This movement is enough for separation the hammers and bolts and for the hammer part for acceleration and to overrun the bolts to re-engage for one more stroke and so on in the cycle.

It has also been proposed to use a rotatable compliant device with either the hammer member or the drive shaft to be connected in order to influence the degree of impact of the hammer from the bolt at the moment of impact and so to influence the amount of relative rotary movement between hammer part and drive shaft and consequently the extent the reverse movement at a particular value of the torque developed by the tool.

Part of the energy imparted by the hammers becomes absorbed by the rotatable resilient device and this energy is immediately after the impact with consequent Increase in the impact of the hammers released from the bolts, followed by greater longitudinal movement of the hammer part. As already mentioned, this increased longitudinal movement is used, a valve to control the air supply to the motor of the tool to operate.

It is known to have a rotating rod type driven shaft connected to it as a rotatable compliant device to use the push bolt and also separable torsion bars with different compliant properties, one of which

109825/1361

BAD ORIGINAL ^. '/

can be replaced by the other to change the value of the maximum torque, thereby supplying air to the tool is interrupted.

The subject of the present invention is a pneumatically driven impact turning tool or a screwdriver of the aforementioned type, in which the air supply to the tool is interrupted at a predetermined and adjustable maximum value of the turning force, which is simpler and cheaper to manufacture than was the case with previous tools. λ

The invention relates to a pneumatically operated with hand-held impact turning tool or a screwdriver with a hammer part on a drive shaft for changing Movement against the action of a compression spring to cyclically interlock and separate the hammers on the Hammer part with push pin connected to the drive shaft, in which the reverse movement when the amplitude increases reached a predetermined maximum value of the torque as a result of the torque developed by the tool and a valve is operated to interrupt the air supply to the motor driving the tool, to stop the latter and to exceed it to prevent a predetermined maximum value of the torque, which is characterized in that it Assist ™ to change the force exerted by the compression spring to change the value of the torque at which the valve is operated.

The compression spring is designed as a spiral spring and surrounds it the drive shaft and is either directly or indirectly .mit one end of the hammer part in engagement and has at the other End of a ring with an internal thread, which cooperates with a corresponding thread on the drive shaft.

The ring of the tool according to the invention has a bevel gear ring, the one with a bevel gear ring on one Key that can be inserted from outside the tool is engaged '

109825/136: 1

BATH

is used to rotate the ring to adjust the amount of torque at which the valve is actuated.

The attached drawing shows, given only as an example, an impact turning tool or a screwdriver according to of the invention in longitudinal section. The tool contains a housing made of two parts 1 and 2, in which a winged pneumatic motor 3> a planetary gear 4> a hammer and bolt mechanism 5 and a "Tool holder 6 are housed.

The engine 3 includes a rotor 7j a radial blade Ö, which is one of a number of such blades, a cylinder 9, which acts as a sleeve in a recess in the part 1 of the housing and is mounted eccentrically with respect to the center line of the rotor. The air leaves the cylinder through the outlet openings 10 at the top and goes into the space 11, enters the bore 12 and then goes to the annulus 13, around the gearbox 4, exits under the gearbox and is expelled into the atmosphere via the muffler 14.

The rotor shaft 15 drives the drive shaft 16 of the hammer mechanism 5 via the planetary gear 4. A hammer part 17 is mounted on the shaft 16, which according to the figure is forced to the left by the spiral spring 10 to engage the hammers 19 and the bolts 20 on the drive shaft 21 to arrive.

As a result of the relative rotational movement between the shaft and the hammer part 17, the balls 22 are forced to don to run along inclined grooves in the surface of the shaft 16 in a known manner and cause a separating longitudinal movement the hammers from the bolts by half a turn against the action of the spring 1Ö. The bigger the from The torque developed by the tool, the greater the longitudinal movement of the hammer part 17 with each hammer stroke.

This longitudinal movement is used to actuate the valve 23 exploited with the help of a pin 23a, which is

109825/1361

part 17 is hit when its longitudinal movement is a predetermined Value exceeds. The purpose and operation of this valve are described below.

The driven shaft 21 has a tool holder 6 for holding various tools.

The rear part of the housing has a pistol-like handle 2k _} which at the top receives a pair of double start and direction-determining valves 25 and 26, which are operated alternately by the rocker arm 27. The upper valve 25 is provided for counterclockwise rotation of the tool and the valve 26 for clockwise rotation of the tool. The valves 25 and 26 consist of two parts, a front valve 25a and 26a and a rear valve 25b and 26b, the latter being provided for the air supply via a corresponding inlet opening of the motor for the required direction of rotation, while the former is provided for connecting the inlet opening which is not in use at the moment, is provided with the atmosphere to release the pressure in front of the wings.

Valves 25 and 26 include a sleeve 25c and 26c which fit into corresponding bores 25d and 26d. In the Bores are formed annular grooves 25e and 26e, which serve to substantially the openings in the sleeve 25c and 26c vertical bores on each side of the valves, not shown, to connect, the latter with the inlet openings of the motor are designed to rotate clockwise and counterclockwise.

The compressed air supply spaces '51 and 32 of the valves 25b and 26b are with one another and with the main control valve 33 connected by channel 34. The purpose and action of valve 33 will be described below. For example, if the valve 25 is actuated, compressed air enters the space 3 5 and goes to the annular grooves 25e and so to the engine

1098 2 5/136

inlet port to a direction of rotation opposite to that Clockwise. At the same time is the inlet opening of the motor for clockwise rotation via valve 25a is connected to the atmosphere and the air goes from the engine through the openings 36 to space 37, through the valve to space 30, the channels 39 to the muffler 14 and then to atmosphere.

The actuation of valve 26 is similar with respect to valves 26a and 26b, but results in a different direction of rotation.

The main control valve 33 includes a piston 40 with a valve head 41 at one end and a light coil spring 43 that keeps the valve open at the other. When feeding from air to the tool, this goes down into the annular space 47 and into the spring chamber 44, equalizing the pressure on the valve head off and the valve remains open. However, when the valve 23 is triggered and the spring chamber 44 with the atmosphere connected, the pressure drops and the valve closes and it will not reopen to restart the engine until a finger is removed from the directional control valve 26 and the pressure can set in the spring chamber 44 through the expansion channels 45 and 46, so that the valve is opened again. So air flows to duct 34 via the Annular space 47 and the valve 33 and is available for driving the motor 3 when one of the valves 25 or 26 is again is operated.

The pressure in the chamber 44 is released by the valve 23 when this is actuated by the hammer part 17, when the torque developed by the tool reaches a predetermined maximum value. When valve 23 opens, the air in chamber 44 goes through hole 4 # out to atmosphere and as a result valve 33 closes and the engine stops running.

It should be noted, however, that there is a bore 49 between the bore 40 opposite the end of the valve

1098 2 5/1361, BAD original

26b is present, which is normally open but is closed by the valve head 26g when the valve 26 is under pressure. This bore 49 leads to the pressure chamber 32, so that when the bore is open, the effect of the Valve 23 for relieving the pressure in the spring chamber 44 is turned off and the valve 33 remains open. If that Valve 26 is pressed, the bore 49 is closed and the valve 23 to close the valve 33 in operation set. This arrangement is necessary to ensure maximum torque output from the tool without an automatic Deactivation when the tool is used as a striking tool.

Part of the drive shaft 16 of the hammer and bolt mechanism 5 is provided with a thread 50 which corresponds to the internal thread 51 on an adjusting ring 52 for maximum torque. The shaft 16 is also provided with grooves 53 on which a collar 54 is slidably mounted. The spring 18 rests on a pressure ring > 5 , designed in the same shape as the collar 54, for receiving the pressure balls 56. The collar 54 is equipped with a spring and a ball lock which is inserted into one of several recesses arranged at intervals on the circumference engages the side of ring 52 so that the latter is held in any of the various circumferential positions as it is rotated on the threads on shaft 16.

It's a $ 5 wrench with a 6O bevel gear ring provided, which can be inserted through an opening 59, and which engages with a ring gear 6l on the Hing 52 stands to bring the latter in an optional position to to change the pressure value of the spring 1Ö. When the spring is stretched becomes the amount of torque required to achieve longitudinal movement of the hammer member 17 of sufficient magnitude enlarged to meet pin 23a of valve 23 and vice versa.

1 9825/1 361

JÄ ^ BAÖCDBKSiNAl. , ι

By adapting the springs to different strengths in different tools, these can be used for different Areas are made. For example, a tool equipped with a lighter spring for one Range of about 30-60 pounds / foot and constructed with a heavier spring for a range of about 50-100 pounds / foot will.

The one immediately upon the rebound of the hammer from the bolt The following blow is caused by the resilience of the construction that is associated with the hammers and bolts is and in particular this is dependent on the rotational flexibility of the drive shaft 21 and its connection with the nut or screw that drives them. It can therefore be useful to provide an extension of the shaft 21, which has a tool holder, the use of which increases the flexibility and consequently another Range of torque values caused by the shaft 21 alone can be included. This is a convenient way to change the area of the tool in a few seconds.

10 9 8 2 5/1361
8ADORiGlNAL

Claims (3)

Claims Pneumatically operated hand-held hammer turning tool or screwdriver with a hammer part on a drive shaft for alternating movement against the action of a compression spring for easy interlocking and separating of the hammers on the hammer with push pin connected to a 4-way drive shaft, in which the increase in the amplitude of the Reverse movement as a result of the turning force developed by the tool reaches a predetermined maximum value of the turning force and a valve for cutting off the air supply to the motor driving the tool is actuated in order to stop the latter and prevent the exceeding of a predetermined maximum value of the turning force, by characterized in that it has means for changing the force exerted by the compression spring (18) in order to change the value of the torque at which the valve (T5) is operated. 2.) Vierdczeug according to claim 1, characterized in that the compression spring [IU) is designed as a spiral spring and surrounds the drive shaft (16), and either directly or indirectly engages with one end of the hammer part (17) and at the other end has a ring (52) with an internal thread (51) which cooperates with the corresponding thread (50) on the drive shaft. 3.) Tool according to claim 1 and 2, characterized geken nze ichnet that the ring ^ 52) has a bevel gear ring (61) which is in engagement with a mgelradzahnkranz (60) on an insertable key (55) from outside the tool Rotation of the ring to adjust the torque value when the valve (3'5) is actuated. 109 8 2 5. /. 1 3 L e r s e i f- e