US2893449A - Dovetailing machine - Google Patents
Dovetailing machine Download PDFInfo
- Publication number
- US2893449A US2893449A US540830A US54083055A US2893449A US 2893449 A US2893449 A US 2893449A US 540830 A US540830 A US 540830A US 54083055 A US54083055 A US 54083055A US 2893449 A US2893449 A US 2893449A
- Authority
- US
- United States
- Prior art keywords
- spindle
- frame
- shaft
- gear
- sheets
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Lifetime
Links
- 238000006073 displacement reaction Methods 0.000 description 7
- 230000000712 assembly Effects 0.000 description 3
- 238000000429 assembly Methods 0.000 description 3
- 238000010276 construction Methods 0.000 description 3
- 239000000463 material Substances 0.000 description 3
- 239000000853 adhesive Substances 0.000 description 2
- 230000001070 adhesive effect Effects 0.000 description 2
- 230000015572 biosynthetic process Effects 0.000 description 1
- 230000008878 coupling Effects 0.000 description 1
- 238000010168 coupling process Methods 0.000 description 1
- 238000005859 coupling reaction Methods 0.000 description 1
- 239000012634 fragment Substances 0.000 description 1
- 230000008707 rearrangement Effects 0.000 description 1
- 230000002441 reversible effect Effects 0.000 description 1
- 239000002023 wood Substances 0.000 description 1
Images
Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B27—WORKING OR PRESERVING WOOD OR SIMILAR MATERIAL; NAILING OR STAPLING MACHINES IN GENERAL
- B27F—DOVETAILED WORK; TENONS; SLOTTING MACHINES FOR WOOD OR SIMILAR MATERIAL; NAILING OR STAPLING MACHINES
- B27F1/00—Dovetailed work; Tenons; Making tongues or grooves; Groove- and- tongue jointed work; Finger- joints
- B27F1/08—Making dovetails, tongues, or tenons, of definite limited length
- B27F1/12—Corner- locking mechanisms, i.e. machines for cutting crenellated joints
Definitions
- a mechanism is provided embracing preferably a single tool and operating spindle which will automatically produce a pairof cooperating dovetailing assemblies each embracing a series of tenons. Accordingly, it will be unnecessary to utilize a machine involving the cumbersome arrangement of parts, the multiple spindles and tools, etc.,'which have heretofore been necessary where dovetailing assemblies were to be produced. As a result of the present construction, a relatively simple, light weight and inexpensive mechanism is possible.
- a further object is that of designing a machine of such character which will involve relatively few parts, each individually simple and rugged in construction, such parts being capable of ready assemblage to furnish a unitary mechanism operating over long periods of time with freedom from all difiiculties.
- Fig. 1 is a partly sectional side view of a machine assembly
- Fig. 2 is a transverse sectional view taken along the line 2-2 in the direction of the arrows as indicated in Fig. 1;
- Fig. 3 is a sectional plan view taken along the line 3-3- in the direction of the arrows as also indicated in Fig. l;
- Fig. 4 is a fragmentary sectional side view in enlarged scale showing a detail of the operating mechanism and taken along the line 44 in the direction of the arrows as indicated in Fig. 5;
- Fig. 5 is a transverse sectional view taken along the line 5-5 in the direction of the arrows as indicated in Fig. 4;
- r Fig. 6 is a fragmentary plan view showing a pair of material sheets after the completion of'the dovetail formation' and before the assembly of those sheets;
- Fig. 7 is a fragmentary edge view of the sheets in finally assembled condition
- Fig. 8 is a fragmentary top perspective view of one of the sheets after the completion of the forming operation.
- Fig. 9 is a bottom perspective View involving a fragment of'the second sheet after the completion of such operation.
- the numeral 10 indicates supports or'legs extending upwardly from a base (not shown). These support at. their upper ends a, mounting or horizontal portion 11. In turn disposed above the latter is a deck or table 12 to receive the ma terial to be worked upon. That deck or table is formed with an opening 13. Through the latter the head of the machine, including the operating spindle and tool,
- the frame of the machine mounts a motor 14.
- a suitable drive extending therefrom and preferably involving a belt 15
- a shaft 16 is rotated.
- the latter again conveniently, by means of a belt 17, serves to drive a shaft 18.
- These shafts 16 and 18 are mounted at opposite ends of a supporting member 19.
- Shaft 18, by means of a belt 20, serves to drive a spindle 21.
- This spindle mounts the forming tool 22 by means of a chuck 23 or other suitable coupling member.
- a frame 24 extends through opening 13 and supports at its upper end the spindle 21 at a point normally above deck 12.
- the lower end of frame 24 is coupled to shaft 18 driven by belt 17.
- the upper end of frame 19 as afore brought out-is connected to shaft 18 and -has its inner or lower end connected to shaft 16 by,
- a movable frame 25 is disposed within the main frame of the machine. As illustrated, this movable frame may include members defining a generally cubical or rectangular arrangement of parts. Brackets 26 may extend downwardly from the deck 12 or the supporting portions 11 and rotatably mount a threaded shaft 27. This shaft bears within the threaded bores of extensions 28 projecting from the upper parts of movable frame 25. A hand wheel 29 or other operating medium is secured to shaft 27 for the purpose of rotating it as illustrated in Fig. 2.
- Rods 30 may also be supported by brackets 26 and corresponding brackets 31 adjacent the opposite ends of deck 12 slidably bear within the openings of extensions 28 and 32. Therefore, when shaft 27 is turned, frame assembly 25 will move to the left and the right, based upon the showing in Fig. 2.
- the vertical adjustment of the spindle 21 is achieved by again conveniently employing an operating shaft 33 provided with a hand wheel 34 extending beyond the frame assembly 25 of the mechanism.
- This shaft is rotatably supported by bearings 35 conveniently extending from this frame assembly.
- shaft 33 has secured to it a pinion 36.
- the teeth of this member mesh with the teeth of a rack 37 supporting at its upper end a carriage 38.
- the rack is confined to movement in a vertical path by, for example, a guide 39 which slidably encircles it and which is secured to the" frame assembly 25.
- a pair of these pinion, rack and guide assemblies is furnished and disposed one adjacent each end of shaft 33 as shown especially in Fig. 1. Therefore, when wheel 34 or its equivalent is turned to rotate. shaft 33, these racks will be simultaneously retracted or projected.
- a second motor 39' is conveniently mounted between a. pair of legs 10.
- This motor by means of a belt 40 and pulleys, serves to drive a shaft 41.
- the latter supports a pinion 42, the teeth of which mesh with a gear 43. That gear also serves to drive a pinion or sprocket 44 by means of a shaft 45 supporting both of these elements.
- This shaft extends through a frame assembly 46 which may be generally rectangular as shown particularly in Fig. 3. Therefore, this frame is pivotally supported.
- shaft 41 will be similarly supported in that it is carried by frame 46.
- the inner end of the latter terminates in an extension mounting a bolt 47. 'Ihejhead of that element rides beyond, aslot 48,formed.
- pinion 42 will: travel. around the. periphery of gear 43.
- Belt 40 will remain taut and the.
- a drivingmember preferably in theform ofachain.
- Sprocket 52. is mounted by ashaft. 55 supported bycarriage 33.
- a gear 56 is attached to this;shaft and has teeth extending only; through part of its periphery-- (for example a hundred and fifty degrees).
- As extension 57 is provided as part of carriage38- and rotatably supports a shaft 53.
- the teeth of'gear 56 adjacent the ends of the arcuate series are interrupted to-provide, in connection with gear 59, a move-.- ment' ofspindle 21' and consequently tool 22- that 011 lows a path as illustrated in Fig. 6'. In this connectiorn. it Willi-be noted that adjacentteeth are mutilatedrto' in corporate a holding provision against the:smoothp e' ripheral surface portion: of gear these. teeth are separated 180.
- the: frame: 110515.655 are: connected attheir upper ends to a head s7 rotatably supporting. spindle: 21.
- Sheet 79 will extend across the lower edge of sheet 71. At this time, or else prior thereto, the depth of the material-removing operation will be properly provided for by laterally adjusting the main frame 25 by rotating shaft 27. Also, if necessary, adjustment may be resorted to in a vertical direction with respect to thedeck by turning shaft- 33; Such adjustments-willinno wise interfere with the driving; of spindle 21 and the too1r22 attached'thereto, nor will they interfere with the drive of the chain 50 or its equivalent by'them'otor 39"".
- tenons 72 are formed. by theafore described'opa oration and which include. upstanding.- tapered: portions having, rounded forward edges.-. lnisheet 71; tenons173? are formed: at points intervening .recesses 74-. These-are; also eachstapered and havetheir. rear. walls curved'to correspond to the curvature in the forward faces of. ten;v ons: 72; Therefore, asin Fi nx7; thesheetsmaybeIreversed with the. tenons. 72 of sheet 702 extended into the.
- motor is prefer-red in that it will not be necessary to return the parts through an inoperative cycle.
- a dovetailing machine including in combination a.
- a rotatably mounted tool spindle having its axis-disposedin arplane substantially. parallel to that in which the second Adhesive or other securing.
- reversing of the sheet is arranged, means for projecting said spindle in a plane normal to the body of the second sheet to cause a tool carried thereby to pass through the edge zone of that sheet and in a direction parallel to the body of the first sheet into the edge zone of the latter to provide tenons in the adjacent edge zones of both, means for retracting the spindle to withdraw the tool carried thereby to a point substantially adjacent that face of the second sheet which is opposite that in contact with the first sheet, means for thereupon shifting said spindle in a direction parallel to the edge of the first sheet and means for continuing the afore-recited projecting, withdrawing and shifting movements of said spindle, a carriage for said spindle, a reciprocable support for said carriage, means for guiding said carriage and reciprocable support in a direction substantially parallel to the edges of said sheets, a pair of cooperating gears, means for driving one of the same, a crank associated with one of said gears and engaging said latter support to reciprocate the same and further means associated
- a dovetailing machine including in combination: a support to receive a pair of sheets with the edge face of the first disposed in contact with a side face of the second in a zone adjacent its edge and with the bodies of said sheets disposed at right angles with respect to each other; a frame coupled with said support; a rotatably driven tool spindle mounted on said frame; said spindle and said frame being displaceable with respect to said support in a direction parallel to the axis of said spindle; means coupled with said frame for raising and lowering said spindle with respect to said support; second means coupled with said spindle for imparting thereto a selected continuous reciprocating motion in an up and down direction with respect to said support and said frame; further means coupled with said second means for reciprocating said spindle and intermittently driven thereby at selected intervals for imparting an interrupted lateral movement to said spindle with respect to said support and said frame in a plane substantially normal to the axis of said spindle, said second and further means being so constructed and arranged that said lateral movement is
- a dovetailing machine including in combination: a support to receive a pair of sheets with the edge face of the first disposed in contact with a side face of the second in a zone adjacent its edge and with the bodies of said sheets disposed at right angles with respect to each other, a shaft rotatably mounted on said support; a frame mounted on said shaft, said frame being displaceable with respect to said support upon rotation of said shaft; a rotatably mounted tool spindle having its axis disposed substantially parallel with the axis of said shaft, said spindle being displaceable with said displacement of said frame; means coupled with said frame for rotating said spindle; means coupled with said frame for raising and lowering said spindle with respect to said support; second means coupled with said spindle for imparting thereto a selected continuous reciprocating motion in an up and down direction with respect to said support and said frame; further means coupled with said second means for reciprocating said spindle and intermittently driven thereby at selected intervals for imparting an interrupted lateral movement to said spindle with respect to said support
- a dovetailing machine including in combination: a
- a frame supported by said support; a rotatably driven tool spindle mounted on said frame; means coupled with said spindle for imparting thereto a selected continuous reciprocating motion in an up and down direction with respect to said frame; second means coupled with said means for reciprocating said spindle and intermittently driven thereby at selected intervals for imparting an interrupted lateral movement to said spindle with respect to said frame in a plane substantially normal to the axis of said spindle, both of said means being so constructed and arranged that said lateral movement is adapted to be continuous until a predetermined displacement of said spindle is attained.
- a dovetailing machine including in combination: a support to receive a pair of sheets with the edge face of the first disposed in contact with a side face of the second in a zone adjacent its edges and with the bodies of said sheets disposed at right angles with respect to each other; a frame supported by said support; a rotatably driven tool spindle mounted on said frame; a rotatably driven gear having interrupted gear teeth disposed at the outer periphery thereof rotatably mounted on said frame; a crank mounted on said gear; a carriage for said spindle; a reciprocable support for said carriage; means for guiding said carriage and reciprocable support in an up and down direction with respect to said frame; said crank and said reciprocable support being in an engaging relationship to impart a continuous reciprocating motion to said spindle in an up and down direction with respect to said frame; second means coupled with said gear and intermittently driven thereby at selected intervals for imparting an interrupted lateral movement to said spindle with respect to said frame in a plane substantially normal to the axis of said spindle
- a dovetailing machine including in combination: a support to receive a pair of sheets with the edge face of the first disposed in contact with a side face of the second in a zone adjacent its edges and with the bodies of said sheets disposed at right angles with respect to each other; a frame supported by said support; a rotatably driven tool spindle mounted on said frame; first means coupled with said spindle for imparting thereto a selected continuous reciprocating motion in an up and down direction with respect to said frame; a gear having a plurality of mutilated gear teeth disposed at its outer periphery, said gear being coupled with said means for reciprocating said spindle and intermittently driven thereby at selected intervals; a member having a series of recesses mounted on said frame; support-advancing means carried by said gear to sequentially engage said recesses upon movement of said gear to impart an interrupted lateral movement tosaid spindle with respect to said frame in a plane substantially normal to the axis of said spindle; said first means and said gear being so constructed and arranged
Landscapes
- Life Sciences & Earth Sciences (AREA)
- Engineering & Computer Science (AREA)
- Wood Science & Technology (AREA)
- Mechanical Engineering (AREA)
- Forests & Forestry (AREA)
- Control Of Cutting Processes (AREA)
Description
4 Sheets-She et 1 D. HADNAGY DOVETAILING MACHINE 8 Q r M A Q July 7, 1959 Filed Oct. 17, 1955 I W N E g .INVENTOR fiamaims fladngg'y BY kw, 9M8 km ATTORNEYS July 7, 1959 D. HADNAGY DOVETAILING MACHINE 2 R y a o a m M u. w a a mi a w Filed Oct. 17, 1955 ,DMA
' ATTORNEYS July 7, 1959 "D. HADNAGY DOVETAILING MACHINE Filed Oct. 17, 1955 4 Sheets-Sheet 3 INVENTOR Jami/far fladwjy y 1959 D. HADNAGY 2,893,449
DOVETAILING MACHINE Patented July 7, 1959 DOVETAILING MACHINE Domokos Hadnagy, Rutherford, NJ., now by change of name Thomas D. Hadnagy This invention relates to a structurally and functionally improved machine by means of which dovetailing operationsf may be expeditiously accomplished in connection with various materials such as wood, plastic, etc.
' By means of the present teachings, a mechanism is provided embracing preferably a single tool and operating spindle which will automatically produce a pairof cooperating dovetailing assemblies each embracing a series of tenons. Accordingly, it will be unnecessary to utilize a machine involving the cumbersome arrangement of parts, the multiple spindles and tools, etc.,'which have heretofore been necessary where dovetailing assemblies were to be produced. As a result of the present construction, a relatively simple, light weight and inexpensive mechanism is possible.
' A further object is that of designing a machine of such character which will involve relatively few parts, each individually simple and rugged in construction, such parts being capable of ready assemblage to furnish a unitary mechanism operating over long periods of time with freedom from all difiiculties.
' With these and other objects in mind, reference is had to the attached sheets of drawings illustrating one practical embodiment of the invention, and in which:
Fig. 1 is a partly sectional side view of a machine assembly;
Fig. 2 is a transverse sectional view taken along the line 2-2 in the direction of the arrows as indicated in Fig. 1;
Fig. 3 is a sectional plan view taken along the line 3-3- in the direction of the arrows as also indicated in Fig. l; Fig. 4 is a fragmentary sectional side view in enlarged scale showing a detail of the operating mechanism and taken along the line 44 in the direction of the arrows as indicated in Fig. 5;
Fig. 5 is a transverse sectional view taken along the line 5-5 in the direction of the arrows as indicated in Fig. 4;
r Fig. 6 is a fragmentary plan view showing a pair of material sheets after the completion of'the dovetail formation' and before the assembly of those sheets;
' Fig. 7 is a fragmentary edge view of the sheets in finally assembled condition;
Fig. 8 is a fragmentary top perspective view of one of the sheets after the completion of the forming operation; and
Fig. 9 is a bottom perspective View involving a fragment of'the second sheet after the completion of such operation.
Referring primarily to Figs. 1 and 3, the numeral 10 indicates supports or'legs extending upwardly from a base (not shown). These support at. their upper ends a, mounting or horizontal portion 11. In turn disposed above the latter is a deck or table 12 to receive the ma terial to be worked upon. That deck or table is formed with an opening 13. Through the latter the head of the machine, including the operating spindle and tool,
projects to cooperate with the work-sheets supported upon deck 12.
p The frame of the machine mounts a motor 14. By means of a suitable drive extending therefrom and preferably involving a belt 15, a shaft 16 is rotated. The latter again conveniently, by means of a belt 17, serves to drive a shaft 18. These shafts 16 and 18 are mounted at opposite ends of a supporting member 19. Shaft 18, by means of a belt 20, serves to drive a spindle 21. This spindle mounts the forming tool 22 by means of a chuck 23 or other suitable coupling member.
A frame 24 extends through opening 13 and supports at its upper end the spindle 21 at a point normally above deck 12. The lower end of frame 24 is coupled to shaft 18 driven by belt 17. The upper end of frame 19 as afore brought out-is connected to shaft 18 and -has its inner or lower end connected to shaft 16 by,
for example, extending through bearing member 24' project from the frame of the machine. In this manner, spindle shaft 21 may be moved upwardly and downwardly as well as in lateral directions without affecting the efiiciency of the drive provided by the motive force 14. Within the main frame of the machine, a movable frame 25 is disposed. As illustrated, this movable frame may include members defining a generally cubical or rectangular arrangement of parts. Brackets 26 may extend downwardly from the deck 12 or the supporting portions 11 and rotatably mount a threaded shaft 27. This shaft bears within the threaded bores of extensions 28 projecting from the upper parts of movable frame 25. A hand wheel 29 or other operating medium is secured to shaft 27 for the purpose of rotating it as illustrated in Fig. 2. Rods 30 may also be supported by brackets 26 and corresponding brackets 31 adjacent the opposite ends of deck 12 slidably bear within the openings of extensions 28 and 32. Therefore, when shaft 27 is turned, frame assembly 25 will move to the left and the right, based upon the showing in Fig. 2. The spindle 21, the driving mechanism therefor and the motor 14, being all carried by the frame assembly 25, it follows that with this adjustment of shaft 27 these parts are correspondingly shifted.
The vertical adjustment of the spindle 21 is achieved by again conveniently employing an operating shaft 33 provided with a hand wheel 34 extending beyond the frame assembly 25 of the mechanism. This shaft is rotatably supported by bearings 35 conveniently extending from this frame assembly. As shown especially in Fig. 2, shaft 33 has secured to it a pinion 36. The teeth of this member mesh with the teeth of a rack 37 supporting at its upper end a carriage 38. The rack is confined to movement in a vertical path by, for example, a guide 39 which slidably encircles it and which is secured to the" frame assembly 25. A pair of these pinion, rack and guide assemblies is furnished and disposed one adjacent each end of shaft 33 as shown especially in Fig. 1. Therefore, when wheel 34 or its equivalent is turned to rotate. shaft 33, these racks will be simultaneously retracted or projected.
A second motor 39' is conveniently mounted between a. pair of legs 10. This motor, by means of a belt 40 and pulleys, serves to drive a shaft 41. The latter supports a pinion 42, the teeth of which mesh with a gear 43. That gear also serves to drive a pinion or sprocket 44 by means of a shaft 45 supporting both of these elements. This shaft extends through a frame assembly 46 which may be generally rectangular as shown particularly in Fig. 3. Therefore, this frame is pivotally supported. Likewise, shaft 41 will be similarly supported in that it is carried by frame 46. The inner end of the latter terminates in an extension mounting a bolt 47. 'Ihejhead of that element rides beyond, aslot 48,formed.
3 in a plate 49 attached to the frame assembly 25. When the vertical adjustment provided by shaft 34 is to be resorted to, then bolt 47 is loosened. The shifting of the parts is. accomplished so. that the. spindle occupies the.
desired position and during this shifting or else immediately following. the same,.frame 46is adjustedby swingingthe same around the pivot defined by shaft 45. Under.
these circumstances, pinion 42 will: travel. around the. periphery of gear 43. Belt 40 will remain taut and the.
driving relationship establishedby motor 39 to-sprocket 44 will be maintained. Thereafter, bolt 47 may again be.
tightenedto maintain the parts in the desired positions.
A drivingmember, preferably in theform ofachain.
a position substantially to the left of that illustrated in;
such figure. Likewise, this drive will be maintained if the axis of this sprocket and its related units are shiftedin an upward or downward direction incident to the ad'- justment of the carriage 38 mountingv the same. In this connection, it will be borne in mind that bracket46'will simply be swung after looseningbolt 47 to compensate:
for any adjustment which may have been made.
25 in a manner so'that it may-be;adjusted totoccupy a proper position and thereuponbelocked' against.fur-- ther. movement-with respect-tothat frame. The bar has.
in. its-forward face. a series-of; notches 61; These: are; engageable'withtshifting elements. preferably in the-form:
of rollers .62 secured to the. inner; face-of gear 59:
Mounteditojextend from therear face ofagear 56 is. a. similar shifting elcrnentrin .the::form'.0fi a roller'63: This' ridesew-ithin the groove defined by a-member: 6= l'-.whicl1'=. is u-shapedin section: Theilattere'lies in? apreferab'lyr horizontal. position; and has: connected; to it: rods- 65; These" ride within the. bores of"v guide. portions 66 form! ing: a". part of carriage: 38110;. inzefle'ctpprovide: a: crank and connecting. 'rod' assembly. That carriage". is. slidable.
alongstheupperabar 662' of atfiame shiftably carried'by.
the: frame: 110515.655 are: connected attheir upper ends to a head s7 rotatably supporting. spindle: 21.
Finally,.it'.will be notedthat .aifurther. adjusting shaft 6%).may= conveniently extend fromathe lower. end2of the" assembly andirnountan:operating wheeli69: The adjust ment factor provided by this shaft is-ordinarilyused onlywhen'thezmachine is to .be'employed for other'than dovetailing operations. In that case, head 67 and spindle'21:may be conveniently dismounted.
Consideringnow the operation ofthemachine; it will be: understood. that an: operator will' primarily dispose-= sheets. of. material: such as wooden boards 76 and 71 uponthe. upper surface of deck 12 and in overlapping relationship with: respect to" the opening 13; These sheetstwilh bearranged at right angles with respect to 56: and that pairs: of- To'the rear of gear. 59,". a bar 60 is disposed. This bar is connected toframe:
7 through an entire .cycle.
each other, as shown in Fig. 2, and are secured against displacement with respect to one another or the deck by any suitable means. Sheet 79 will extend across the lower edge of sheet 71. At this time, or else prior thereto, the depth of the material-removing operation will be properly provided for by laterally adjusting the main frame 25 by rotating shaft 27. Also, if necessary, adjustment may be resorted to in a vertical direction with respect to thedeck by turning shaft- 33; Such adjustments-willinno wise interfere with the driving; of spindle 21 and the too1r22 attached'thereto, nor will they interfere with the drive of the chain 50 or its equivalent by'them'otor 39"". It will be bornein mind that when vertical adjustment is' necessary,- bolt 47 may be loosened, the parts shifted and the bolt thereupon tightened in order to assure continuity of drive of sprocket 52 by means of chain 50 or its equivalent. It is, of course, apparent that, in'lieu-of bolt 47 and=thelslotted plate. structure: 4849, any suitable form of connection. assuringa continued rotationv of shaft SS-may beutilized.
Now' with both motors operating, tool 22v will constantly, turn.- Thattool will be traversed in the. mananer= generally. indicated in Fig. 6-to:follow' a final.path= partially in the' body, of sheet 70-and partially in. the body,- of sheet 71. This will result as aaconsequenceof; gear: 59'being. rotated byv gear 56. Witheach rotation. of the:latter gear, the? bar or yoke 64'is: reciprocated Gear 59 is, of: course, intermittently rotated due to: the; interrupted arrangement. of teeth disposed at the outer periphery, of-gear 56'. As it rotates, it advances along bar 60 carrying;withit carriage 3.8. Therefore-the. cutter will traverse the desired routinga path along. the entire length: of the edges: of sheets 7 0. and 71*inapathas shown in Fig. 7.
InrFigs. 8]- and 9, these. sheets. have been showninl separated] condition. As will. be. observed: in' the first; figure, tenons 72 are formed. by theafore described'opa oration and which include. upstanding.- tapered: portions having, rounded forward edges.-. lnisheet 71; tenons173? are formed: at points intervening .recesses 74-. These-are; also eachstapered and havetheir. rear. walls curved'to correspond to the curvature in the forward faces of. ten;v ons: 72; Therefore, asin Fi nx7; thesheetsmaybeIreversed with the. tenons. 72 of sheet 702 extended into the. recesses 74 of sheet 71. mediazmay'be'employed. Inany'event, an interlocked dovetailed constructionzis furnished. This'iwilli'belex tremelyeffective-if adhesive. is used'--because of the grooves": formedflby. the outstanding cutting? edgeofr the. tool.-. Such recesses will receive and retainthelparts extending into the same.
Whena forming.operation inone directionhas been completed; then by simply reversing the. operation of motor 39 and with the placing of new sheets upon the. decle,..asecond operation maybe performed- Of? course, in lieu: of: a. reversible motor, any desired arrangement of mechanism maybe resorted'to in'orderrto permit a:
return of the partsto the initial position, as shown'for example in Fig. 1. motor is prefer-red in that it will not be necessary to return the parts through an inoperative cycle.
Thus, among others, the several objects of the invention as specifically. aforenotedareachieved. Obviously, numerous changes in construction and rearrangements .of the parts might be resorted to without departing from the. spirit of the invention as defined by the claims.
I claim:
11 A dovetailing machine including in combination a.
support to'receive a pair of sheets with the edge face of the firstdisposed in contact With'a side face of the secondina zone adjacentits edge and with the bodies of 'said sheets' disposed at right angles with respect to eachother, a rotatably mounted tool spindle having its axis-disposedin arplane substantially. parallel to that in which the second Adhesive or other securing.
In many respects, reversing of the sheet is arranged, means for projecting said spindle in a plane normal to the body of the second sheet to cause a tool carried thereby to pass through the edge zone of that sheet and in a direction parallel to the body of the first sheet into the edge zone of the latter to provide tenons in the adjacent edge zones of both, means for retracting the spindle to withdraw the tool carried thereby to a point substantially adjacent that face of the second sheet which is opposite that in contact with the first sheet, means for thereupon shifting said spindle in a direction parallel to the edge of the first sheet and means for continuing the afore-recited projecting, withdrawing and shifting movements of said spindle, a carriage for said spindle, a reciprocable support for said carriage, means for guiding said carriage and reciprocable support in a direction substantially parallel to the edges of said sheets, a pair of cooperating gears, means for driving one of the same, a crank associated with one of said gears and engaging said latter support to reciprocate the same and further means associated with the other gear for moving said carriage along said guiding means, and said further means including a member formed with a series of recesses and support-advancing means associated with the other gear to sequentially engage said recesses.
2. A dovetailing machine including in combination: a support to receive a pair of sheets with the edge face of the first disposed in contact with a side face of the second in a zone adjacent its edge and with the bodies of said sheets disposed at right angles with respect to each other; a frame coupled with said support; a rotatably driven tool spindle mounted on said frame; said spindle and said frame being displaceable with respect to said support in a direction parallel to the axis of said spindle; means coupled with said frame for raising and lowering said spindle with respect to said support; second means coupled with said spindle for imparting thereto a selected continuous reciprocating motion in an up and down direction with respect to said support and said frame; further means coupled with said second means for reciprocating said spindle and intermittently driven thereby at selected intervals for imparting an interrupted lateral movement to said spindle with respect to said support and said frame in a plane substantially normal to the axis of said spindle, said second and further means being so constructed and arranged that said lateral movement is adapted to be continuous until a predetermined displacement of said spindle is attained.
3. A dovetailing machine including in combination: a support to receive a pair of sheets with the edge face of the first disposed in contact with a side face of the second in a zone adjacent its edge and with the bodies of said sheets disposed at right angles with respect to each other, a shaft rotatably mounted on said support; a frame mounted on said shaft, said frame being displaceable with respect to said support upon rotation of said shaft; a rotatably mounted tool spindle having its axis disposed substantially parallel with the axis of said shaft, said spindle being displaceable with said displacement of said frame; means coupled with said frame for rotating said spindle; means coupled with said frame for raising and lowering said spindle with respect to said support; second means coupled with said spindle for imparting thereto a selected continuous reciprocating motion in an up and down direction with respect to said support and said frame; further means coupled with said second means for reciprocating said spindle and intermittently driven thereby at selected intervals for imparting an interrupted lateral movement to said spindle with respect to said support and said frame in a plane substantially normal to the axis of said spindle, said second and further means being so constructed and arranged that said lateral movement is adapted to be continuous until a predetermined lateral displacement of said spindle is attained.
4. A dovetailing machine including in combination: a
support to receive a pair of sheets with the edge face of the first disposed in contact with a side face of the second in a zone adjacent its edges and with the bodies of said sheets disposed at right angles with respect to each other; a frame supported by said support; a rotatably driven tool spindle mounted on said frame; means coupled with said spindle for imparting thereto a selected continuous reciprocating motion in an up and down direction with respect to said frame; second means coupled with said means for reciprocating said spindle and intermittently driven thereby at selected intervals for imparting an interrupted lateral movement to said spindle with respect to said frame in a plane substantially normal to the axis of said spindle, both of said means being so constructed and arranged that said lateral movement is adapted to be continuous until a predetermined displacement of said spindle is attained.
5. A dovetailing machine including in combination: a support to receive a pair of sheets with the edge face of the first disposed in contact with a side face of the second in a zone adjacent its edges and with the bodies of said sheets disposed at right angles with respect to each other; a frame supported by said support; a rotatably driven tool spindle mounted on said frame; a rotatably driven gear having interrupted gear teeth disposed at the outer periphery thereof rotatably mounted on said frame; a crank mounted on said gear; a carriage for said spindle; a reciprocable support for said carriage; means for guiding said carriage and reciprocable support in an up and down direction with respect to said frame; said crank and said reciprocable support being in an engaging relationship to impart a continuous reciprocating motion to said spindle in an up and down direction with respect to said frame; second means coupled with said gear and intermittently driven thereby at selected intervals for imparting an interrupted lateral movement to said spindle with respect to said frame in a plane substantially normal to the axis of said spindle, said gear and said second means being so constructed and arranged that said lateral movement is adapted to be continuous until a predetermined displacement of said spindle is attained.
6. A dovetailing machine including in combination: a support to receive a pair of sheets with the edge face of the first disposed in contact with a side face of the second in a zone adjacent its edges and with the bodies of said sheets disposed at right angles with respect to each other; a frame supported by said support; a rotatably driven tool spindle mounted on said frame; first means coupled with said spindle for imparting thereto a selected continuous reciprocating motion in an up and down direction with respect to said frame; a gear having a plurality of mutilated gear teeth disposed at its outer periphery, said gear being coupled with said means for reciprocating said spindle and intermittently driven thereby at selected intervals; a member having a series of recesses mounted on said frame; support-advancing means carried by said gear to sequentially engage said recesses upon movement of said gear to impart an interrupted lateral movement tosaid spindle with respect to said frame in a plane substantially normal to the axis of said spindle; said first means and said gear being so constructed and arranged that said lateral movement of said spindle is adapted to be continuous until a predetermined displacement of said spindle is attained.
References Cited in the file of this patent UNITED STATES PATENTS 920,513: Young May 4, 1909 1,058,441 Kelly Apr. 8, 1913 1,651,510 Carter Dec. 6, 1927 2,299,602 Teague Oct. 20, 1942 2,586,798 Eck Feb. 26, 1952 2,747,627 Havlik May 29, 1956 2,764,191 Hartmann Sept. 25, 1956
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US540830A US2893449A (en) | 1955-10-17 | 1955-10-17 | Dovetailing machine |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US540830A US2893449A (en) | 1955-10-17 | 1955-10-17 | Dovetailing machine |
Publications (1)
Publication Number | Publication Date |
---|---|
US2893449A true US2893449A (en) | 1959-07-07 |
Family
ID=24157108
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US540830A Expired - Lifetime US2893449A (en) | 1955-10-17 | 1955-10-17 | Dovetailing machine |
Country Status (1)
Country | Link |
---|---|
US (1) | US2893449A (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3232327A (en) * | 1963-02-11 | 1966-02-01 | James G Baranczyk | Dovetailing machine |
US4875510A (en) * | 1989-02-21 | 1989-10-24 | Muellers John H | Dovetail machine |
Citations (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US920513A (en) * | 1908-03-09 | 1909-05-04 | Ohio Match Company | Machine for making matches. |
US1058441A (en) * | 1911-09-09 | 1913-04-08 | Kelbur Mfg Company | Woodworking-machine. |
US1651510A (en) * | 1926-11-08 | 1927-12-06 | Ray L Carter | Dovetailing mechanism |
US2299602A (en) * | 1940-06-17 | 1942-10-20 | Monroe M Teague | Dovetailing machine |
US2586798A (en) * | 1946-11-13 | 1952-02-26 | Bell Machine Company | Automatic mortising and tenoning machine |
US2747627A (en) * | 1955-01-05 | 1956-05-29 | Havlik Jaroslav | Semi-automatic dovetailing machine |
US2764191A (en) * | 1953-08-18 | 1956-09-25 | Porter Cable Machine Co | Dove-tail template |
-
1955
- 1955-10-17 US US540830A patent/US2893449A/en not_active Expired - Lifetime
Patent Citations (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US920513A (en) * | 1908-03-09 | 1909-05-04 | Ohio Match Company | Machine for making matches. |
US1058441A (en) * | 1911-09-09 | 1913-04-08 | Kelbur Mfg Company | Woodworking-machine. |
US1651510A (en) * | 1926-11-08 | 1927-12-06 | Ray L Carter | Dovetailing mechanism |
US2299602A (en) * | 1940-06-17 | 1942-10-20 | Monroe M Teague | Dovetailing machine |
US2586798A (en) * | 1946-11-13 | 1952-02-26 | Bell Machine Company | Automatic mortising and tenoning machine |
US2764191A (en) * | 1953-08-18 | 1956-09-25 | Porter Cable Machine Co | Dove-tail template |
US2747627A (en) * | 1955-01-05 | 1956-05-29 | Havlik Jaroslav | Semi-automatic dovetailing machine |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3232327A (en) * | 1963-02-11 | 1966-02-01 | James G Baranczyk | Dovetailing machine |
US4875510A (en) * | 1989-02-21 | 1989-10-24 | Muellers John H | Dovetail machine |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
JPH0565273B2 (en) | ||
US1958734A (en) | Universal grinder | |
US3739826A (en) | Feed device | |
US2893449A (en) | Dovetailing machine | |
US419A (en) | Machine fob boring and mortising wheel-hubs and other articles | |
US2691206A (en) | Contour cutting saw | |
US1839196A (en) | Automatic machine for forming ironing boards and the like | |
SU470101A3 (en) | Angle bending device | |
US1715119A (en) | Sewing machine | |
US2225263A (en) | Tenoning machine | |
US2626487A (en) | Chain and gear driven semiautomatic buffing machine | |
US2187827A (en) | Paper cutter | |
US1363238A (en) | Machine for making airplane-propellers, &c. | |
JPH07148710A (en) | Double end tenoner | |
US1375326A (en) | Copying-lathe | |
JPS5823118B2 (en) | Program-activated suturing device drive | |
US1893957A (en) | Carving machine structure | |
US757152A (en) | Automatic carving-machine. | |
US1628680A (en) | Multiple scoring machine | |
US653494A (en) | Sculpture-copying machine. | |
US2174782A (en) | Log rossing machine | |
CN114873290B (en) | Intelligent finished product stacking and arranging mechanism for plastic bucket production | |
US2017913A (en) | Milling machine | |
US2778625A (en) | Pipe cutting machine of the pantograph type | |
US1588345A (en) | Stave machine |