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Publication numberUS2140658 A
Publication typeGrant
Publication dateDec 20, 1938
Filing dateDec 5, 1936
Priority dateDec 5, 1936
Publication numberUS 2140658 A, US 2140658A, US-A-2140658, US2140658 A, US2140658A
InventorsSittert Paul Van
Original AssigneeCleveland Pneumatic Tool Co
Export CitationBiBTeX, EndNote, RefMan
External Links: USPTO, USPTO Assignment, Espacenet
Riveting machine
US 2140658 A
Abstract  available in
Images(2)
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Claims  available in
Description  (OCR text may contain errors)

Dec. 20, 1938. P. VAN SITTERT I 2,140,653

RIVETING MACHINE Filed Decl 5, 1936 2 Sheets-Sheet 1 PAUL VAN 5/7715??- INVENTOR ATTORNEY Dec. 20, 1938.

P; VAN SITTERT 2,140,658

RIVETfNG MACHINE Filed Dec. 5, 1936' 2 Sheets-Sheet 2 Fig.8

PAUL l/A/V. JITTERT INVENTOR BY 44% f ATTORNEY Patented Dec. 20, 1938 UNITED STATES mvn'rmo MACHINE Paul Van Sitter-t, Cleveland Heights, Ohio, assignor to The Cleveland Pneumatic Tool Company, Cleveland, Ohio, a corporation of Ohio Application December 5, 1936, Serial No. 114,363

17 Claims.

This invention relates broadly to machines for performing such work as riveting, stamping, punching, shearing or pressing. More particularly, this invention relates to riveting machines, wherein pressure rather than impacts is applied against the rivet.

One object of this invention is to produce an improved portable riveting machine of the squeezer type wherein the initial pressure applied on the rivet is eifected by a relatively rapid travel movement of the working plunger, which movement is gradually made slower to increase the pressure applied on the rivet as the pressure required to continue the riveting operation increases.

Another object of this invention is to provide a riveting machine of the wedge type with a mechanism for multiplying the riveting power normally delivered by the wedge.

Another object of this invention is to produce an improved portable riveting machine of simple construction forming a compact assembly which is strong, durable and efficient.

Another object of this invention is to provide a portable riveting machine of the squeezer type with means for effectively reducing the frictional resistance between the engaging movable parts of the machine.

Other objects and advantages more or less ancillary to the foregoing and the manner in which the various objects are attained reside in the specific construction and aggroupment of the elements peculiar to this structure, as will become apparent from a more complete examination of this specification, in the claims of which there are assembled certain specific combination of parts and specific constructions indicative of the scope and spirit of the invention.

In the drawings:

Fig. 1 is a longitudinal sectional view of a riveting machine illustrating a preferred form of the invention.

Fig. 2 is a view similar to Fig. 1 showing the movable parts in a different position.

I Fig. 3 is a cross sectional view taken through the line 3-3 in Fig. 1.

Figs. 4 and 5 are cross sectional views taken through the line 44 in Fig. 3 and showing the valve in .dlflerent positions.

Fig. 6 is a longitudinal side view of the machine.

Fig. 7 is a longitudinal sectional view taken through the line 1-1 in Fig. 1.

Fig. 8 is a cross sectional view taken through the line 8-8 in Fig. 1.

Referring to the drawings in which like symbols designate corresponding parts throughout the .several views, I represents a cylinder clamped between a front housing II and back head l2 by three bolts l3, which extend through apertured lugs l4 projecting laterally of the housing II and back head l2. Reciprocably mounted withinthe cylinder I0, there is a piston l formed with an annular groove l6 which communicates with the rear end of the piston through a small port [1. Within the groove I6 is mounted an annular packing I8 assuring a fluid tight engagement of the piston with the inner wall of the cylinder.

The back head I2 is provided with a rearwardly extending portion constituting a cylindrical handle [9. This handle is formed with a cylindrical bore or auxiliary cylinder 20, disposed coaxially with the cylinder Ill, and constantlyopen to the atmosphere through a small vent 20'. Within the cylinder 20, there is reciprocably mounted an auxiliary piston 2| having secured thereto by nuts 22 a piston rod 23, which rod extends into the cylinder l0 where it is secured to the piston I5 for movement therewith. Terminating the inner end of the auxiliary cylinder 20, there is a plate 24 supporting packing material 25 which is disposed around the piston rod 23.

This packing material may be adjustably compressed by a nut 26 screwed within the back head On one side of the handle l9, the back head I2 is formed with a boss 21 having a bore 28 extending therethrough and terminated at one end by a screw threaded connection 29 through which pressure fluid may be admitted into the bore 28.

The other end of the .bore 28 is enlarged to form i a counterbore 30. Pressed within the counterboredend portion of the bore 28, there is a stationary bushing 3| having a throttle valve 32 slidable' therein, and formed with a beveled head 33. This throttle valve extends to the exterior of the bushing to receive an operating button 32' slidably mounted within the counterbore 30. Adjacent the head 33, the'bore of the bushing 3| accommodating the valve 32 is slightly enlarged to form an annular passage 34, while the beveled head 33 is engageable with the outer edge of this enlargement to prevent communication of the latter with the bore 23; Disposed within the bore 28,- there is a compression spring 33' acting on the valve for constantly urging it in a closed position. Adjacent the annular passage 34, the valve 32 is reduced in diameter to form a neck 35 around which communication may be had be- 6 tween a port 36 leading from inside of the bushing 3| to the atmosphere and a port 31 leading from the annular passage 34 into the rear end of the cylinder l6. Leading from the bore 28 into the end of the auxiliary cylinder 20 adjacent the plate 24, there is an inlet port 38.

The front housing II is formed with a circular flange 39 corresponding to the contour of the adjacent end of the cylinder I6. Below this flange, I the cross sectional shape of the front housing is substantially rectangular as shown in Fig. 8, with the four front corners depressed to form apertured lugs 46. Clamped .within the front end of the front housing II by bolts 4| extending through the apertured lugs 40 to receive nuts 42, there are two parallel plates 43 spaced 'from each other by a connecting block 44 which extends exteriorly of the housing. The two plates extend through the front housing into the adjacent end portion of the cylinder Ill, where they are again tied to each other by a bolt 45 carrying a spacer 46 and extending through the plates to receive a nut 41. Toward one side, the plates 43 carry between them two roller or antifriction bearings 48 and 49, each mounted on a. shaft 56 which extends through the plates to receive the nuts 5| by which the shafts are looked against axial movement. Each plate is provided with a triangular opening 52 having two sides 53 and 54 disposed at right angle with each other and united by an arcuated wall 55. Movably mounted with-.

in the opening .52, there is a link or driving member 56, which extends laterally from the external wall of one plate 43 to the external wall of the other. This driving member has a rounded or driving end 51 slidably engaging the sidewall 54 of the openings 52, which side wall constitutes a guide for the link 56. The other end of the link 56, hereinafter denoted as driven end 58, is formed with a slot 59 of a width equal to the space between the plates 43, within which slot is mounted a roller bearing 66 carried by a shaft 6| extending through the member. This last shaft is of sufficient length to extend beyond the side walls of the driving member 56 to pivotally receive the rear end portion of two links 62 retained on the shaft 6| by cotter pins 83. These two links are mounted in straddle relation with the driving member 56, and extend forwardly outside of the plates 43 where they have their front endportion pivotally'connected to the front end portion of the plates by a pin 84.

. Rigidly secured to the front face of the piston "by screws 85, there-is a wedge 88 having a straight back wall 81 engageable with the roller bearings 48 and 48, and an especially shaped actuating front wall 88 engageable with the mllerbearlng fl. In this wedge is somewhat smaller than the space between the plates 4:, thus permitting the slidable movement of the former between the plats.

Exterlorly of the front housing I, the connectinsblock 44isformedwithanapertureboss88 having a bushing 18 fastened therein through which slides a plunger or tool 1| having a rectangular head 12 slidably mounted ,between the plates 48. This head is constantly urged into musement with the driving end 51 of the movement transmitting member 88 by a compression spring 18 interposed between the head 12 and the bushing 18.

Detachably secured to the acting block,

byeross bolts I'4and18,thereisayoke '|8carryn: a. removable anvil or work en a ing element ll which is secured thereon coaxially with the plunger H by a nut 18.

In the operation of the machine, pressure fluid is admitted into the back head bore 28 through the inlet connection 29. From the bore 28, the pressure fluid is constantly admitted into the auxiliary cylinder 26 through the port 38 for urging the auxiliary piston 2| as well as the piston l5 toward the position shown in Fig. 1. When the throttle valve 32 is positioned as shown in Fig. 4, the pressure fluid from the bore 28 will flow into the cylinder through the annular passage '34 and port 31 to exert pressure on the piston for driving it forwardly.

Simultaneously, the pressure fluid will flow 'into the piston groove |6 throughthe port I! 68 of the wedge 66 engaging the bearing 66, will effect the pivotal movement of the driven end 58 of the lever or member 56. This predetermined movement is assured through the guiding effect of the links 62 pivotally supporting the driven end of the member 56. Simultaneously, the driving end of the member 56 will slide forwardly on the guides 54, and thereby transmit the slidable movement of the wedge 66 to the tool v or plunger II. During the early part of the pistons forward stroke, the actuating wall of the wedge 66 engaging the roller bearing 66 is formed with a relatively abrupt curvature, which will cause a quick movement of the link 56 along the guides 54, and the consequential rapid movement of the plunger into contact with the rivet. As the piston l5 continues its forward travel, it

will be understood that the link 56 is gradually straight edge of the wedge 88, thus gradually reducing the rate of s d of the driving end 88 of the link 58 during a constant rate of speed of thepiston l8 and wedge 88. As the upsetting operation of therivet proceeds, the plunger" is subjected to a gradually increasing resistance developed by' an enlargement of the cross section of the rivet to be uput. The shape of the actuating wall 88 and the disposition of the link 58 within the opening 82 of the plates 48 is calculated to transmit a gradually increasing "power to the plunger II in a manner p rtional to the increased resistance to which the plunger is subjected. The links 58 and 82 form alinkwork or a system of interconnected links having 0. end of the system pivotally connected to the housing II by the plates 48 carrying the shaft 84, while the other end of the system rests on the plunger H.- During' the transmission of power, the load is carried by the linkwork and its comcurvature gradually merging with the front.

ponent shafts 8| and 84. The loadtowhich the u edge 67 of the wedge 66 is resting against thev roller bearings 48 and 48, thus preventing possible binding of the piston I5 within the cylinder ID.

The forward stroke of the piston I5 is limited by its engagement with the front housing as at 19. When the piston reaches the end of its forward stroke, the upsetting or riveting operation is completed. Thereafter the operator will remove the manual pressure exerted on the operating button 32 of the throttle valve 32, thereby allowing the throttle valve, due to the action of the compression spring 33', to return intothe position shown in Figs. 3 and 5 for preventing the admission of the pressure 'fiuid into the cylinder Hi. In this last position of the throttle valve, the pressure fluid is free to exhaust from the cylinder l0 via the port 31, the annular passageway 34 and the exhaust port 36. Thereafter, the pressure fluid constantly admitted into the auxiliary cylinder 20 through the port 38 will drive the auxiliary piston 2| rearwardly. Since the piston 2i is connected to the piston I5 by the piston rod 23, the piston l5 will also be driven rearwardly or into the position shown in Fig. 1.

The above description is primarily directed to a riveting machine wherein the yoke 16 or the anvil Tl may be changed at will to meet any conditions and suit any kind of work to be riveted. However, it will be understood that by changing the plunger or tool H and the anvil H, the riveting machine may be transformed into a stamping, punching or shearing machine, and it will also .be understood that various rearrangements of parts and modifications ,of structural detail may be resorted to without departing from the scope or spirit of the invention as herein claimed.

I claim:

1. In a tool of the character described, a housing, a plunger longitudinally movable with respect to said' housing, a linkwork having one end pivotally connected to said housing and the other end bearing onsaid plunger, and a longitudinally movable power driven wedge within said housing engaging said linkwork for impartinglongitudi'nal movement to said plunger.

2. In a tool of the character described, a housing, a plunger slidable relative to said housing, a system of interconnected links having one end of the system pivotally connected to said housing and the other end engaging said plunger, and a fluid actuated member engaging said system at a place intermediate the ends thereof for imparting slidable movement to said plunger at a gradually decreasing rate of speed relative to the rate of speed of said member.

3. In a tool of the character described, a housing, an element slidable relative to said housing, a system of interconnected links having one end of the system engaging said element, stationary supporting means carried by said housing having the other end of said system pivotally connected thereto, antifriction bearings carried by said system and said supporting means, and a power driven wedge insertable between said bearings for effecting the slidable movement of said element.-

4. In a tool of the character described, a housing, a pair of parallel plates detachably secured to said housing, a plunger slidable between said plates, a system of interconnected links having one end of the system pivotally connected to said plates and the other engaging said plunger, and a power driven wedge engaging said plates for slidable guided movement therebetween and acting onsaid system for effectingthe slidable movement of said plunger.

5. In a tool of the character described, a housing, a pair of parallel plates rigidly secured to said housing, an opening through said plates, a plunger slidable betweensaid plates, a duality of interconnected links one pivotally connected to said plates and the other slidably guided Within said opening in engagement with said plunger, and apower driven wedgeslidable between said platesand acting on said last mentioned link for effecting the slidable movement of said plunger.

. 6. In a tool of the character described, a housing having a pair of parallel plates rigidly secured thereto, a work performing plunger slidable between said plates, a system of interconnected links including a driving link engaging said plunger for efiecting the working stroke thereof and a supporting link pivotally connected to said plates, guiding means for said driving link assuring a predetermined movement thereof resulting in the working stroke of said plunger, and a power driven wedge acting on said driving link for eiTecting the aforesaid movement thereof.

7. In a tool of the character described, a housing having a pair 'of parallel plates secured thereto, a plunger slidable relative to said plates, a

driving member having one end engaging said plunger, a link pivotally. supporting the other end of said member, guiding means within each of said plates slidably engaged by said member for assuring a predetermined movement of the latter resulting in the slidable movement of said plunger, and a power driven wedge acting on said member for effecting the aforesaid movement thereof.

8. In a tool of the character described, the combination of a housing, of a bushing carried thereby having a tool slidable therethrough, of a power actuated member slidable relative to said tool, power transmitting means between said member and tool for effecting the working stroke of said tool including a movable element mounted for end engagement with said member and tool, and guiding means slidably engaged by said element for causing the engaging end thereof with said tool to travel at a lesser rate of speed than that of its engaging end with said member.

9. In a tool of the character described, a work performing element, a power driven wedge movable relative to said element, and pressure multiplying means between said wedge and element for efiectingthe work performing movement of said element including a member having a driven and acted upon by said Wedge and a driving end acting on said element, said driven and driving ends having independent guiding means effecting predetermined movement of said ends resulting from the action of said wedge on said driven end.

10. In a tool of the character described, a work performing element, a power driven wedge movable relative to said element, a work performing movement transmitting member between said element and wedge having a driven end acted upon by said wedge and a driving end acting on said element, and pressure multiplying means for said member including guiding means effecting individual movement of the ends of said member due to the action of said wedge on said driven end.

11. In a tool of the characterdescribed, a work performing element mounted for slidable movement, a power driven member slidable parallelly of said element, and means for transmitting the diagonally between said wedge and element during the initial slidable movement of said wedge,

and guiding means engaged by said member for causing the latter to assume a position substantially perpendicular tosaid element toward the end of the slidable movement of said wedge.

13. In a tool of the character described, a reciprocable plunger, means for effecting a working stroke to said plunger including a power driven wedge movable parallelly to the axis of movement of said plungerya movement transmitting member between said wedge and plunger having one end movable transversally and the other end perpendicularlyrelative to said plunger, and guiding means for said member assuring the transversal and perpendicular movements aforesaid.

14. In a tool of the character described, a slidable working element,. a power actuated slidable wedge, and means responsive to the slidable movement of said wedge for imparting a power stroke 'to said'element including a guided member interposed between said wedge and element having one end slidable transversally and the other end slidable parallelly to the axis of move- I ment of said wedge.

15. In a tool of the character described, a slidable working element, a power actuated slidable wedge, and means. responsive to the slidable movement of said wedge for imparting a working stroke to said element including an elongated member interposed between said wedge and element and movable by said wedge from an initial oblique position relative to said element to a final substantially coaxial position relative thereto for effecting the working stroke of said element at a gradually reducing rate of speed.-

16. In a tool of the character described, a slid-- I able working element, a power actuated slidable wedge, and means responsive to the slidable movement of said wedge for imparting a working stroke to said element including a member interposed between said wedge and element, guides angularly disposed relative to each other and able lengthwise of said plunger and engaging;

said linkwork for imparting slidable movement to said plunger.

PAUL VAN SI'ITERT.

Referenced by
Citing PatentFiling datePublication dateApplicantTitle
US2444260 *Dec 27, 1944Jun 29, 1948Westinghouse Air Brake CoControl apparatus
US2453875 *May 25, 1944Nov 16, 1948Champion Forge CompanyRam guide
US2467020 *Dec 29, 1942Apr 12, 1949Chicago Pneumatic Tool CoCompression riveter
US2600860 *Jun 7, 1949Jun 17, 1952Burndy Engineering Co IncFluid pressure operated portable compressing tool
US2635324 *Feb 25, 1949Apr 21, 1953Berthiez Charles WilliamClamping device for slides of machine tools or the like
US2941432 *May 7, 1958Jun 21, 1960Dudley A HunterClamp
US3042289 *Apr 15, 1957Jul 3, 1962Westinghouse Electric CorpCompressor loaders-unloaders
US3415101 *Oct 11, 1965Dec 10, 1968Adolf ReinckeWeldless metal bonding device
US4355527 *Nov 12, 1980Oct 26, 1982The Continental Group, Inc.Hold down mechanism
US4418899 *Sep 21, 1981Dec 6, 1983Saurer-Allma GmbhPneumatically driven clamping device, in particular a machine vice
US5762325 *Jan 29, 1996Jun 9, 1998Isi Norgren Inc.Power actuated gripper
US6470762 *Sep 14, 2000Oct 29, 2002Mannesmann Vdo AgSliding gear drive
US6685177 *Jan 10, 2002Feb 3, 2004Progressive Tool & Industries Co.Clamping locator
US7290431 *Jan 12, 2007Nov 6, 2007U.S. Industrial Tool & Supply CompanyRivet squeezer
US8312756Feb 18, 2011Nov 20, 2012Mark Douglas SwinfordHydropneumatic riveter
Classifications
U.S. Classification74/110, 29/252, 100/266, 72/452.8, 269/234
International ClassificationB21J15/18, B21J15/00
Cooperative ClassificationB21J15/18
European ClassificationB21J15/18