DE1300504B - Pressure medium operated tool for attaching fasteners, in particular shear tension bolts - Google Patents

Description

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The invention relates to a pressure medium-actuated. The compressed air in this area can also be fed into the Tool for attaching fasteners to penetrate hydraulic system. Furthermore, the with a working piston on which the fastening restoring force, the maximum can be applied medium, a rivet, a setting mandrel or a shear pull bolt can never be greater than that applied by the compressed air and the compressive force made available by means of a pressure booster 5 source. if can be acted upon, the piston rod side of this pressure force is not relatively large, must The high-pressure cylinder of the booster with the loading of the working piston has a correspondingly large footprint have the fastening agent side of the working cylinder to the through-so that the return process runs smoothly of the working stroke and the other side of the adjusting stroke of the working piston is ensured. Working cylinder with the other side of the high-io. According to the invention, a pressure medium-actuated pressure cylinder is in connection and wherein a tool of the type mentioned is created around the high-pressure cylinder arranged liquid, through which the known tools in supply reservoir to complement the the accountable way to be improved. The invention impact of the working piston serving hydraulic therefore creates a pressure medium-actuated tool of the liquid and a manually operable control valve 15 initially mentioned type, which is characterized by this for alternating pressurization of the differs that in the connection of the high pressure the other end of the piston rod of the up piston to the other side of the working cylinder Pressure piston arranged low pressure piston provided in front of the high pressure piston by a spring are. sliding return piston is arranged that in a known tool of the above 20 between the high pressure cylinder and the named type, the working stroke of the working piston return cylinder is always an open connection bens is formed with the downward movement of the liquid storage container with the low pressure that The high-pressure piston connected to the piston against the piston rod and the movable Effect of a return spring carried out. The hy- connected high-pressure piston one at the hydraulic fluid is formed on the other side of the 25 working stroke closed valve and Working piston, d. H. on the side on which there is that between the piston rod and the return spring is located, a further valve is formed during the working piston, which stroke through a corresponding line into the high-pressure cylinder that is connected during the working stroke of the high-pressure piston and in the fluid reservoir between the other side of the working cylinder container promoted, as this line allows both in the 30 and the always open connection. High-pressure cylinder as well as in the liquid pre- By using a separate, basic storage tank joins. Towards the end of the work, the stroke is developed separately from the high-pressure piston If this line is through the working piston Deten return piston, it is possible that the liquid is closed. At the beginning of the return stroke of the fluid reservoir and with this through the Working piston is this connected by the return spring 35 always open connection sections of the moves, and when said line through the high pressure cylinder and the reset cylinder The working piston is released again, is the same - always under normal pressure, i. i.e., it lies an open hydraulic system that no one is operating on the working piston special sealing is required under the pressure of the high pressure piston. There is high pressure existing pressure medium. Since the line to the return 40 is only on the piston rod side of the high pressure spring side of the working piston both with the piston and on the other side of the reservoir as well as with the high pressure cylinder working piston connected side of the return piston is, the liquid in the bens. Furthermore, the entire restoring force for Reservoir pressurized. It concerns the working piston with the help of the return piston So applied to a so-called closed hydraulic 45, so that no return spring is required System, d. H. that the whole system is so broken. In other words, the pressure intensifier is used for must be sealed so that the high pressures do not carry out the restoring movement of the work-damage and cause no leakage. piston fully operational without the liquid continuing is a pressure medium-operated tool keitsvorratsbehälter and the one connected to it for attaching fasteners the pre-50 system are pressurized, The type mentioned above is known whose working col- In particular, the one according to the invention is suitable ben to carry out the working stroke by a tool for setting shear pull bolts, which from Pressure medium intensifier with high pressure part acting on a bolt rivet with truss or countersunk head is beatable. The working stroke will therefore consist of one and one closing collar. When setting the high pressure piston carried out, a jam easily occurs between the and 55-like shear pull bolts the working piston a hydraulic fluid between the closing collar and the one on this column is present. The return stroke of the work-supporting housing part of the tool on, and piston follows, however, without the cooperation of this jamming is carried out without difficulty Pressure booster, in that the return pressure is applied to the working piston side of the working piston with the pressure medium 60 through the Rücksteükoiben when performing the (Compressed air) is applied, which releases the low-pressure return stroke.

piston of the hydraulic booster moves. The Ar- In an advantageous manner and in a further Ausgestal-

The working piston is therefore on the one hand with hydration, the return piston has a larger control valve Liquid and on the other side with a flat surface than the working piston. This is compressed air applied. This has the disadvantage that in the working cylinder during the tying back, that a quantity of liquid is pressed in in the area of the sealing surface between the actuating stroke, Working piston and working cylinder easily leak whose volume is greater than the volume of the Loss of the hydraulic fluid can occur. Working cylinder. This measure ensures that

provided that the working piston also completely returns to its normal or starting position. In order to that designed in this way according to the invention If a tool with a larger return piston setting surface works at all, the working piston side is the The return piston is connected to the fluid reservoir via a non-return or pressure relief valve, so that the excess amount of liquid can drain into the reservoir.

In the following the invention with reference to the drawings on the basis of an exemplary embodiment explained in more detail. It shows

F i g. 1 shows a longitudinal section through an embodiment of the tool designed according to the invention in starting position,

FIG. La shows a partial section along the line Ia-Ia of FIG. 1,

Fig. 2 is a section along the line 2-2 of Fig.l,

F i g. 3 shows a section along line 3-3 in FIG. 1 and

4 shows a partial section corresponding to FIG. 3, but with a different position of the individual Components.

The tool shown in the drawing consists of a tight housing 20, which at the same time serves as a handle. In the lower end of this housing is the low-pressure part of the tool arranged, which consists of the low-pressure cylinder 22 and the low-pressure piston 24.

In operation, compressed air is passed through the opening 26 at the upper end of the low-pressure cylinder 22 of the working stroke and at the lower end through an opening 28 for performing the return stroke fed.

The openings 26 and 28 have two rectangular openings arranged separately from one another 30 and 32 in the housing 20 above the low pressure cylinder 22 in connection. These rectangular ones Openings are as well as a third rectangular opening 34 (between the openings 30 and 32) a side surface 36 of the housing 20 is open.

A valve plate 38 with seals 40 and 42 is placed on this side surface 36. The valve plate 38 and the seals 40 and 42 are three corresponding rectangular openings 30 ', 32' and 34 'fitted in a corresponding manner over the openings 30, 32 and 34 are located.

A valve block 46 is attached to the outside of the seal 40 in an adjacent manner. Located in this valve block a valve chamber 48 which is connected to the openings 30 ', 32' and 34 'in the valve plate 38.

In the valve chamber 48, a slide 50 with a fork 52 is arranged between two shoulders 54 engages on a rod 56 of a control piston 58. A compression spring 60 makes the slide 50 pressed against the valve plate 38.

The control piston 58 is between the in F i g. 3 and the normal position shown in F i g. 4 shown Position movable to move the slide 50 between the position according to FIG. 4 for implementation the working stroke and the position according to FIG. 3 back and forth to perform the return stroke. In the position for performing the working stroke, the slide is the one with the opening 26 in Communicating opening 30 'free and connects the opening 32' leading to the opening 28 with the Opening 34 '.

This opening 34 'is connected to a line 62, in which a throttle packing 64 before the connection to the surrounding air is arranged. This throttle pack 64 lies in a recess 66 and is closed by an air-permeable cover 68. In the in F i g. The position shown in FIG. 3 for performing the return stroke is opened by the slide 50 32 free and connects the line 62 to the opening 3G · '.

ίο By means of a connecting piece 70, the valve chamber 48 compressed air supplied. When setting the slide 50 to carry out the working stroke This compressed air enters the low-pressure cylinder 22 through the opening 26 at the upper end and moves the low pressure piston 24 downwards. The air present below the low pressure piston is pushed out through the opening 28, via the slide 50 and the line 62.

In the position of the slide for performing the return stroke, the compressed air flows from the valve chamber 48 through the opening 28 to the lower end of the low pressure cylinder 22 and moves the low pressure piston in its upper normal or starting position according to FIG. 1. The one above the low-pressure piston Air present 24 exits through opening 26, slide 50 and line 62.

The shaft 56, on which the control piston 58 is arranged, sits with a small amount of play in one Bore of an inner wall 72 of the valve block 46. The inner wall separates the valve chamber 48 from the Cylinder 74 of the control piston. From this it can be seen that air from the valve chamber into the cylinder 74 on the right side of the control piston through a narrowed channel 75 between the rod 56 and the Inner wall 72 can flow.

The part of cylinder 74 on the left of the

Control piston 58 is connected to valve chamber 48 via a channel 76 in rod 56.

A spring 78 biases the control piston into the position shown in FIG. 3 normal position shown.

The rear in cylinder 74, i.e. H. right of

The opening opening into the control piston 58 is connected to a vent line 80 which passes through the housing 20 goes to a manually operable control valve 82.

The control valve 82 consists of a plunger 84 which slides relatively easily into a bore 85 is guided in the housing. There is a space between the plunger 84 and the inner wall of the bore 85 left free. The cross-section of this space forming a leakage point is larger than the corresponding one Cross section at 75 behind the rod 56 of the control piston. The inside end of the The plunger 84, which extends into the vent line 80, is sealed by an O-ring 86. These The gasket is normally held on a seat 88 so that said space against the conduit 80 is sealed.

When the control valve 82 is closed, that on opposite sides of the Control piston 58 acting pressure. The control piston therefore moves under the action of the spring 78 in the in F i g. 3 normal or starting position shown. The low pressure piston 24 is located thus also in its normal or starting position according to FIG. 1.

When the control valve is depressed, air flows from the back of the control piston through the

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Vent line 80 is filled in said space of liquid. When the the valve 32 into the environment. Since, like already high pressure piston 90, this liquid is now mentioned that the cross-section of this space is larger through an opening 118 pressed into a channel 120, than that of the channel 75 in the region of the rod 56, which runs upwards in the housing 20. This the pressure behind the control piston 58 drops. On 5 channel 120 flows into the actual working cylinder The 122 of the tool acts on the front or left side of the control piston, which in one of the Gejedoch still, due to the connection with the housing 20, the head piece 124 is arranged separately from the channel 76, a relatively high air pressure. is formed. This head piece 124 is with screws This secures the control piston to the right in 126 to the housing 20, with an O-ring die in Fig. 3 position shown. In this io seal 128 is provided in the area of the channel 120 Position, pressurized air flows to the top of the is.

Low pressure cylinder 22 and presses the low As can be seen from Fig. 1, the closes

pressure piston 24 for performing the working stroke headpiece 124 also the upper end of a liquid after below. When the control valve is released again, keitsvorratsbehälters 132 with an outer wall 130. is, the control piston 58 goes into its normal or 15 On the working piston 138 is a piston rod Starting position back, and the low-pressure piston 144 of smaller diameter formed by carries out its return stroke. a hole 146 in the head piece 124 through

With the low pressure piston 24 one is going up. The piston rod 144 is in turn sealed against the piston rod 89 head piece extending through the housing 20 with the aid of O-rings. The connected, on which the high-pressure piston 90 is arranged, the front end of the piston rod 144 is in turn arranged. This high-pressure piston 90 is slightly reduced in diameter and movable at 148 with a high-pressure cylinder 92, the upper end of which is provided with an external thread, onto which the corresponding - as shown in FIG. 1 can be seen - is open. Coupling parts for connection to a tension bolt - the high pressure cylinder 92 is seated with its lower part, H are screwed on. The front end of the Ren end in a bore 94 which is offset in a transverse wall 25 bore 146 and at 150 with a 96 of the housing 20 is formed. This bore is internally threaded, around which the diameter 94 is stepped at 98 and connected to the lower-pressure lower rear end of an extension 152 cylinder 22. to be able to consolidate. The front end of this ver

The lower end of the high-pressure cylinder 92 is elongated at 154 in the axial direction and its outside is provided with a relatively strong 30 at 156 with annular grooves and forms on this annular flange 100, which is provided in the stepped manner a coupling sleeve for receiving part 98 of the Bore 94 is arranged. The ring jump L on the sleeve S of the pulling device. This flange is against the wall of the stepped part 98 sleeve is sealed in the extension 152 by means of O-rings. The lower end of the solidifies the projections in the slots 154 a high pressure cylinder 92 is open. 35 and then rotated into the annular groove 156

In the lower end of the stepped part 98 to be brought.

Bore 94 is screwed in a plug 102, which is a screw in the direction of rotation and in the axial direction

ensures a tight seal. The plug rests on the locking sleeve 158 on the extension 152 lower end of the high pressure cylinder 92 and arranges. This locking sleeve is through a holds the annular flange 100 in tight contact with the helical spring 160 in its in FIG. 1 rear shown Transverse wall 96 of the housing 20. Pre-tensioned for the plug 102 position. The coil spring 160 supports O-ring seals are also provided. on the one hand on a ring shoulder 162 of the

Furthermore, the plug 102 is with a central extension 152 and on the other hand on a locking bore provided, through which the piston rod 89 Iungsringl64 from, the one at the rear end passes through. In this area 45 (left in FIG. 1) of the locking sleeve are again attached O-ring seals 104 arranged. The mobility of this locking sleeve according to

The high-pressure piston 90 is between a lower rear (to the left, Fig. 1) is by a stop Stop ring 106 and an upper collar 108 limited ring 166 between the rear of the arranged movably on the piston rod 89. Extension and the front of the head piece

The bore of the high pressure piston 90 is noticeably arranged.

Borrowed larger than the corresponding diameter of the locking sleeve 158 is still with

Piston rod, so that a passage 110 for the internally protruding lugs 170 equipped, the Pressure medium is created. pass through slots 154. When a

During the first part of the downward pulling bolt to be fastened, the locked stroke of the piston rod 89 is pushed out of its normalization sleeve 158 forwards (to the right in FIG. 1) or initial position (as shown), so that the lugs 170 from the slots high-pressure piston 90 do not initially come free with the piston 154. Then the locking bar. Such a movement occurs only when the sleeve is rotated to bring the lugs and slots out of a conical valve surface 112 on the underside of their congruence. The tension bolt collar 108 will then come to rest on a corresponding valve seat 114 60 zen D on the front end of the piston rod 144 on the high-pressure piston 90. unscrewed as illustrated. As a next-after production of this system, ie after the first the sleeve S is pushed over the tension bolt, the corresponding valve is closed, the passage 110 and its projections are closed in the manner mentioned, and rotated at the same time moved in the annular grooves 156, The high pressure piston 90 with the piston 65 After the engagement of the front rod 98. jumped with the annular grooves, the lugs 170. The annular space 116 below the high pressure piston the locking sleeve 158 from engagement with the bens 90 in the high pressure cylinder 92 is with hydraulic - Slits 154 brought. In this position is a

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Rotation of the projections into the slots 154 into the spring 202 into its lowermost position is prevented, as a result of which the sleeve S on the extension strikes the stop ring 204. The speed is locked. As already mentioned, the speed of this movement of the return piston 196 is determined by the flow through an opening 211 (see FIG. 2). On pressure piston 90 during the working stroke, the piston rod 89 moves the cutting fluid through the channel 120 to the one smaller than the return piston 196, so that the valve side of the working cylinder 122. The pressure of this 206, 208 remains open. The fluid between the piston rod moves the working piston 138 backwards and the working piston 90 formed valve 112, th (to the left in FIG. 1) until it is at the front 114, however, as already mentioned, during the end 136 of a closure piece 134 strikes. Closed at io working stroke.

this movement of the working piston 138 is the When the movement of the working piston 138 to

Pull bolts pulled through the blind tubular rivet, creating the desired rivet connection is the

so that this is set. The outer end of the pulling hydraulic fluid from the working cylinder 122

The bolt then rips off and is pushed back through the opening 194 in the reset cylinder 190

an opening 172 in the piston rod 144 is pressed out. More hydraulic fluid flows from

thrown. the reservoir 132 through the opening 201 in

This opening 172 merges into a channel 174 , the interior of the return piston. At the following

which is finally in a deflection or protective piece 176, closing the valve 206, 208 during the

186 opens. This protective or deflecting piece is the subsequent return stroke, the opening 211 is closed

closed with the help of a ring 178 on a rear pipe 20 so that the liquid in and above

shaped section 140 of the working piston 138 cannot escape from the return piston 196,

solidifies. One between the working piston 138 and Da the return piston through the piston rod on

an annular shoulder 182 effective helical spring 180 is moved upwards at the end of its return stroke

serves to press the deflection or protective piece firmly against the liquid in the cylinder 122 and the

to push the ring 178 so that a rattle 25 working piston 138 to the right, i.e. H. in the sense of his

or the like is avoided. The channel 174 goes through the return stroke, moved.

a port 184 through which between the Ar- The present hydraulic fluid system

beitskolben and the deflection or protective piece is designed as an open system that after each

is ordered. Operation of the tool is filled automatically.

As further the F i g. 1 can be seen, is a 30 To achieve this, the return piston is the-

Return piston 196 above the high pressure piston art designed that he has a larger hydraulic

90 arranged to displace the hydraulic fluid to amount of fluid into the working cylinder,

the other side of the working piston 138 than this on the left (Fig. 1) side of the working

so that it returns to its original position. piston 138 can accommodate. The working piston 138

The reset piston 196 is in a reset cylinder 35 therefore in any case reaches its end or end

The 190 is displaceable, the initial position in the head piece 124 (FIG. 1), before the return piston the

is attached and the bore 192 has reached with a Boh end of its return stroke. The over-

tion 194 in the header is in communication. shot of the hydraulic fluid flowing from the

This bore 194 represents the corresponding connecting return piston displaced during its remaining stroke

tion to the other side of the working cylinder 122 . 40, goes through a bypass line 214 (Fig. 2),

The return piston 196 carries a sleeve 198 in which a non-return or pressure relief valve 216, the interior of which is arranged with the upper region of the return valve, which is connected to the fluid control piston. An annular shoulder 200 creates capacity reservoir 132. The non-return serves to support a spring 202, the other or overpressure valve of which is equipped with a spring, the end of which rests against the head piece 124. The movement of the return piston caused by this 45, which keeps the valve closed until the spring-induced movement, is pressure on the rear side of the working cylinder, which is limited by a stop ring 204, which has reached the specific value.
The lower end of the reset cylinder 190 is briefly referred to below. according to the invention designed work-

Be discussed during the last section of the reset tool.

stroke of the low-pressure piston 24 and with this

connected high-pressure piston 90 is connected to the return connection 70 with a hose 218,

actuating piston 196 against the spring 202 in FIG. 1 which leads to a compressed air source (not shown). the

position shown moves. Here the air flowing through an incoming air flows to the right end (Fig. 3

Ring surface 206 on the collar 108 of the piston rod 55 and 4) of the cylinder 74 in which the control piston 58

89 and another ring surface 208 is arranged on the ring school, and at 75 in the vent line

valve formed ter 200 closed. At the top 80. Air also flows through the channel 76 in the

End of the piston rod 89, above the collar 108, control piston 58 to the left end of the

a guide pin 210 is formed which is inserted into the cylinder 74. The pressure on the opposite

The bore of the annular shoulder 200 during this remote side of the control piston 58 is the same

section of the return stroke protrudes. here off, so that the control piston by the force

The spring 78 is pressed into its left position via the sleeve 198 of the return piston 196,

pushed another sleeve 212 with a tight fit. During this movement of the control piston, the

In the starting position, the lower end of the slide 50 ends in its toe, the return stroke controls

ser bush 212 just above the high pressure piston 65 position according to Fig. 3. In this position of the

bens 90th slide, the compressed air flows from the valve chamber

During the working stroke of the high-pressure piston moves mer 48 through the opening 32 'of the valve plate 38 and

the return piston 196 by the force of the opening 28 to the lower end of the low-pressure

Cylinder 22. During the upward movement of the low-pressure piston 24 caused by this, corresponding to the return stroke, the air present above this low-pressure piston flows through the opening 26, the slide SO at 62 and 64 into the open.

The air pressure in the vent line 80 at the control valve holds the control valve 82 in its closed position as shown in FIG. 1, so that all parts of the tool are in the normal or starting position according to F i g. 1 are located. When the control valve 82 is now depressed, air flows from the ventilation duct through the space in the area of the plunger 84 and the bore 85 surrounding it to the outside. As a result, the air pressure at the right-hand end of the cylinder 74 drops, and the higher pressure on the other side of the same causes the control piston 58 to move into its right-hand position according to FIG. 4. The slide 50 is also adjusted here, so that it does the in F i g. 4 assumes the position shown. ao

The compressed air now flows out of the valve chamber 48 through the opening 30 'of the valve plate 38 and the opening 20 to the upper end of the low-pressure piston 24, which then moves downward in the low-pressure cylinder 22 to carry out the working stroke. The air below the low pressure piston passes through the opening 28 and the slide 50 at 62 to the outside.

During the downward movement of the piston rod 89 with the low-pressure piston 24 , the valve 112, 114 on the high-pressure piston 90 is closed, and the hydraulic fluid located in the space 116 below the piston is pressed through the channel 120 to the right-hand end of the working cylinder 122 . As a result, the mounting stroke of the working piston is carried out. Since the area of the low-pressure piston 24 is very large compared to the area of the high-pressure piston 90 , the pressure with which the hydraulic fluid acts on the working piston 138 is also significantly greater than the pressure acting on the low-pressure piston.

During this working stroke, the valve 206, 208 in the area of the return piston 196 is opened so that the opening 211 is opened. The hydraulic fluid displaced by the working piston 138 flows to the upper end of the resetting cylinder 190 and into the interior of the resetting piston 196. During the downward movement of the resetting piston, which is terminated by its stop on the stop ring 204 , the opening 211 is enlarged, since the pin at the end of the piston rod 89 is pulled completely out of the opening 211. Hydraulic top-up fluid thus flows freely from the fluid reservoir 132 through the now free opening 211 in the lower section of the return piston 196.

When the working piston 138 has reached its movement by reaching its stop 136 , the setting process is ended and the control valve 82 is released. The pressure prevailing in the vent line 80 brings the control valve into its closed position.

The pressure on the two sides of the control piston 58 is now equalized again, so that this Control piston by the spring 78 to the left together with the slide 50 from the in F i g. 4 shown Position in the in F i g. 3 illustrated position is moved.

The valve chamber 48 is connected to the lower end of the low-pressure cylinder 22 , so that a new upward stroke of the low-pressure piston 24 and the piston rod 89 connected to it is triggered. During this upward stroke of the piston rod 89 , the valve 112, 114 opens so that the hydraulic fluid can enter the high pressure cylinder 92 through the high pressure piston 90 .

During this return stroke of the piston rod 89 , the valve 206, 208 in the area of the collar 108 and thus the opening 211 in the area of the return piston 196 is closed. With further upward movement of the return piston, the liquid located above it is pressed through the opening into the working cylinder 192 , so that the working piston 138 performs its return stroke. When the working piston 138 has reached its end position, the excess liquid flows through the bypass line 214 and the non-return or pressure relief valve 216 back into the liquid storage container 132.

Claims (2)

Patent claims: 1. Pressure medium-operated tool for attaching fasteners with a working piston, to which the fastener, a rivet, a setting mandrel or a shear pull bolt is attached and which can be acted upon by means of a pressure booster, the piston rod side of the high-pressure cylinder of the booster with the fastener side of the working cylinder to carry out the working stroke and the other side of the working cylinder is in communication with the other side of the high pressure cylinder and wherein a fluid reservoir arranged around the high pressure cylinder for supplementing the hydraulic fluid used to build up the working piston and a manually operated control valve for alternately pressurizing the pressure medium is arranged at the other end of the piston rod of the high pressure piston Low-pressure pistons are provided, characterized in that in the connection of the high-pressure piston (90) to the other side (return side) of the working cylinder s (122) a return piston (196) which can be displaced against the high-pressure piston by a spring (202) is arranged. that between the high-pressure cylinder (92) and the reset cylinder ( 190) there is always an open connection to the liquid reservoir (132) , that between the piston rod (89) and the high-pressure piston (90) connected to it movably there is a valve (112, 114) that is closed on the working stroke ) is formed and that between the piston rod (89) and the return piston ( 196) a further valve (206,208) is formed, which during the working stroke of the high pressure piston (90) a connection between the other side (return side) of the working cylinder (122) and the always open connection possible. 2. Pressure medium-operated tool according to claim 1, characterized in that the return piston (196) has a larger footprint than the high-pressure piston (90) and that the working piston side of the return piston (196) is connected to the fluid reservoir (132) via a non-return or pressure relief valve (216) (bypass line 214) . 1 sheet of drawings