US3478709A - Sewing machine - Google Patents

Sewing machine Download PDF

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Publication number
US3478709A
US3478709A US595092A US3478709DA US3478709A US 3478709 A US3478709 A US 3478709A US 595092 A US595092 A US 595092A US 3478709D A US3478709D A US 3478709DA US 3478709 A US3478709 A US 3478709A
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Prior art keywords
shaft
housing
looper
bearing
arm
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US595092A
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Irving George Fischbein
Harold Fischbein
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    • DTEXTILES; PAPER
    • D05SEWING; EMBROIDERING; TUFTING
    • D05BSEWING
    • D05B13/00Machines for sewing sacks

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  • This invention relates to power driven sewing machines and is particularly adapted for stitching and closing sacks and bags.
  • Many types of such machines, both portable and stationary are well known in the prior art, usually producing a chain stitch of either the single thread or double thread variety.
  • the stationary machines in the prior art often operate in conjunction with an endless conveyor or other carrier line disposed at one side of the machine and upon which filled bags or sacks are vertically disposed for successive stitching of the upstanding edges thereof.
  • Lubrication of the bearings and pivotal connections of the essential cooperating elements of the machine have for the most part been manual, applying the lubrication from time to time through fittings disposed in various spaced parts of the machine.
  • the same sealed housing for the respective driving mechanisms and linkage of the essential related sewing machine elements excludes-dust, lint and other foreign material which has heretofore been prevelant in the prior ,art machines, causing frequent repair and cleaning of bearing surfaces and closely working driving linkage.
  • Another object is the provision for use in conventional sewing machine structures of a substantially simplified and compactly arranged looper Idriving mechanism for simultaneouly reciprocating and slightly oscillating the looper shaft and which simplified construction lends itself particularly to a sealed-in lubrication system of the class described.
  • FIG. 1 is a side elevation of an embodiment of the invention with a portion of the main housing structure broken away to show working parts therewithin;
  • FIG. 2 is a side elevation taken from the opposite sideA of said embodiment with the portion of the two housings broken 4away to show working parts and driving mechanism therewithin;
  • FIG. 3 is a vertical section taken subtantially along the line 3-3 of FIG. l;
  • FIG. 4 is a bottom elevation-al view looking upwardly with the sump or bottom of the main housing removed;
  • FIG. 5 is a detail cross sectional view taken substantially along the line 5 5 of FIG. 1, showing the hollow ltop cross shaft upon which the needle lever arm and presser foot arm are pivotally mounted;
  • FIG. 6 is a detail horizontal section taken substantially on the line 6-6 of FIG. 3, and showing the driving connections for operating the lubricating pump;
  • FIG. 7 is a diagrammatic view showing Ithe path of travel of the tip of the looper element during a cycle of operation.
  • FIG. 8 - is a partial rear elevation of boot-equipped gasket for sealing an upper opening in the main housing through which the needle lever and presser arm extend.
  • a vertical inverted L-shaped box type mounting housing 10 having a substantially continuous Vertical rear wall 10c, a top wall 10b, and continuous inverted L-shaped side walls 10c and 10d respectively.
  • the bottom of the housing is closed and sealed by a removable oil sump S equipped with a gasket 10g.
  • main housing 10 overhangs the lower portion of the bottom of the overhang being defined by a horizontal wal110e.
  • the forward end of the upper portion of the housing is rectangular in shape, leaving a large opening for accommodation of the needle lever and presser foot arm later to be described.
  • This gasket is constructed of such material as neoprene or the like having the requisite flexibility and elasticity. As shown, the central and elliptical portion of the body is offset outwardly and forwardly from the body proper to facilitate requisite ilexibility in boot action.
  • a vertical main shaft 11 of tubular construction revolubly mounted in a bearing 12 at the upper end of the housing and in a suitable bearing 12a at the lower end of the housing.
  • Main shaft 11 as shown, has suitably aixed to the top end a belt pulley 13 or other torque-receiving element and is adapted to be connected with a source of rotary power such as a motor or equivalent (not shown).
  • a collar 11a is secured by suitable means to the upper portion of shaft 11 below the bearing 12.
  • the bore 11x of tubular shaft 11, as will later be seen, is an important manifold for our lubricating system.
  • a horizontal tubular cross shaft 14 having its axis parallel to the front Vof the machine (see particularly FIG.
  • the hub 15a of an elongated and curved needle arm 15 is affixed, spaced from the hub 17a of an elongated and similarly curved presser foot arm 17 as by means of a thrust washer 16.
  • Arm 17 is rotatably mounted on shaft 14.
  • Needle lever 15 affixed to cross shaft 14 has a short Vactuated arm 15b disposed below and eccentrically of its hub 15a, said arm 15b terminating in a horizontal, thick disc 15C which has a vertical bore 15d for receiving an upstanding actuating pin 18 (see FIG. 5), later to be described.
  • the curved needle lever 15 and curved presser foot arm 17 work side-by-side in closely spaced relation and a common guard housing 19 of curved hollow construction surrounds all but the terminal portions of said needle lever and presser foot arm having a rectangular upper end 19b which is flanged at 19C for attachment to and support from the widened flange f of the upper portion of housing 10, said boot gasket 20 being inserted therebetween and the said two flanges being clamped together by a plurality of bolts 21.
  • the two boot sleeves 22a and 22b snugly surround and seal against the upper portions respectively of presser bar 17 and needle lever 15.
  • a chuck element 22 is mounted for clamping and supporting the shank 23'a of a needle 23.
  • the curved presser arm is backed for adjustable pressure by a series of curved leaf springs 24 which extend symmetrically within the curved guard or frame housing 19 having secured adjacent their upper ends a wear plate which has a retaining or strap portion 25a pivotally mounted on a cross shaft 26 (see FIG. 2).
  • a contact plate 27 is aixed near the lower end of presser foot arm 17 having an enlarged lower portion which is engaged by the springs 24.
  • the upper ends of the springs 24- are adjustably engaged at their forward sides by an adjustment screw 28 which is threaded in a tapped socket 28a formed near the upper end of the guard housing.
  • Leaf springs 24 are preformed in curved shape so that normally tension and pressure are imparted to the contact plate 27 aixed to the lower portion of presser arm 17. Pressure to urge the presser foot arm 17 inwardly against the work piece may lhe adjusted through the screw 28. Thus when the screw is loosened, less pressure will be applied.
  • a feed dog 30 Cooperating with the presser foot 29 is a feed dog 30 (see FIGS. 4 and 2) which is driven in gyratory fashion through an elongated elipse travel to move the bag or sack material being stitched in synchronism with the stitching and other operations of the machine.
  • a substantially vertical looper shaft 31 is mounted for sliding action and oscillation in an elongated bearing 31e aixed to a hollow ⁇ boss 33 formed in the integral housing (see FIG. 3).
  • Looper shaft 31 at its lower extension beyond the housing carries a substantially rectangular split head 31a at its lower end, said head including a chuck element 31b offset from the axis of shaft 31.
  • the looper element 32 is removably affixed to chuck 31b.
  • Needle actuating mechanism The needle lever arm 15 is swingably reciprocated through a short arc, power being derived from the main shaft 11 ⁇ through simple and ecient driving connections. These connections (see FIGS. 3 and 1) comprise an eccentric 34 axed to the upper portion of the main tubular shaft 12. Eccentric 34 has its periphery seated within a heavy rectangular pitman arm 35 (see FIGS. l and 3) which arm at its forward end has a ball seat 35a for accommodating the ball or spherical sector 18a of the upstanding actuating pin 18 previously referred to. Thus the pitman arm 35 in its cycle of movement causes the actuating pin 18 to move tbackward and forward, thereby swinging the needle lever in its operating strokes.
  • Looper actuating mechanism Drive for the looper shaft 31 and the looper 32 is derived from the main tubular shaft 11 0f the machine, primarily by a simplied cam assembly identied as an entirety ⁇ by the numeral 36 which imparts up and down movements as well as slight oscillations to looper shaft 31 during the cycle of operation (FIGS. 3 and l).
  • the assembly in the form shown, comprises a relatively thick body 36a constituting a looper cam element of generally cylindrical configuration but mounted eccentrically upon and secured to the tubular shaft 11, and having an annular peripheral channel 36e which is rotatably surrounded by a two-piece strap or annulus cornprising a pair of semi-annular parts 37 secured together as by cooperating attachment ears through the medium of clamping bolts or other means.
  • the two-piece annular member comprising parts 37 is thus carried (see FIG. 3) in a position disposed obliquely of the axis of the tubular main shaft 11.
  • the cylindrical body member 36a is drilled to form a bore 36b, the axis of which extends at an acute angle to the longitudinal axis of shaft 11 and the eccentric and the body 36a is affixed thereto in the manner shown.
  • One of the semi-annular pieces 37 carries an elongate slide rod or waggle pin 38 which extends generally radially of the cam member 36a and as shown, in a direction toward the right side wall 10d of the housing, for combined up and down swinging movement and also through a loop segment in the terminal portions of the up and down swinging movement.
  • a cross head bearing or knuckle which is indicated as an entirety by the numeral 39 (see FIGURE 3), has a lower tubular bearing element 39a which surrounds the slide rod 38, journaling the same and also providing a slide bearing.
  • a second bearing element 391 Rigidly affixed to the lower bearing 39a and extending above it in crossed relation is a second bearing element 391; of rigid tubular construction, in which is mounted a pin 40 which is connected at its forward end Iby a clamp 41 with the upper diminished cylindrical extremity of the reciprocating looper shaft 31.
  • the crosshead bearing 39 with the lower tubular element 39a maintains the cam-surrounding split annulus 37 in proper relation throughout the revolutions of the body 36a and furthermore, because of the positioning of lower bearing 39a with reference to connection of the upper bearing 39b through its pin 40 impart slight oscillations to the looper shaft 31 resulting in a loop pattern, as generally shown in FIG. 7.
  • our simple looper eccentric cam assembly and connection of its waggle pin or slide rod 38 by knuckle joint with the upper end of the looper shaft in cycle the looper shaft is longtiudinally reciprocated and at the terminal portions of each of the reciprocating strokes, is oscillated properly to swing the looper head 31'a and looper 32 for operative relation with the cooperating needle 23.
  • Our structure eliminates a considerable number of parts and linkage elements of the prior art and also lends itself particularly well for compact positioning of the parts relative to the main driving shaft 31.
  • a compact pump structure of conventional type indicated as an entirety by the letter P has its assembly extending through an aperture in the left hand side c of the housing and as shown is attached to the exterior of the upper left hand side of the housing by bolts or other means passing through the attachment ange 42 of the external pump structure.
  • a short reciprocating piston 42b extends into the mounting housing having an outer end which is link connected by a link 43 with a central lug 44a of a short walking beam 44.
  • the walking beam 44 as shown in FIG. 6, has its rearward end pivotally connected to a pitman arm 45 and its forward end pivotally connected with a suitable bearing lug 46 furnished by the inwardly projecting portion of the pump structure.
  • the dotted lines in FIG. 6 show the moved positions of the described parts near the completion of the compression stroke of pump piston 42b.
  • a heavy pitman arm 45 is actuated by an eccentric disc 47 secured appropriately to main shaft 11 by a set screw or the like. It will be noted that the eccentric disc 47 (see FIG. 3) is disposed compactly just above the looper-cam assembly 36 and just below the eccentric 34 which controls swinging of the needle lever.
  • the pitman 45 is gyrated by revolution of the eccentric disc 47 aflixed to the common main shaft 11.
  • the walking beam or link 44 is thus swingably reciprocated which in turn, through connection of the short linkage 43, reciprocates piston 42h of the pump.
  • the driving mechanism and linkage for actuating the feed dog 30 as well as the automatic stitch cutting mechanism per se, are old in the prior art.
  • Feed dog drive Feed dog 30 is actuated through a narrow elliptical path.
  • the lengthwise reciprocation for such actuation is derived through an eccentric 48 affixed to the medial portion of the main vertical shaft 11, just below the wobble plate structure 36 (see FIGS. l and 3).
  • the connector pitman 49 surrounds eccentric 48 and is gyrated( thereby, having an outer arm provided with a depending connector pin 49a which is clamped in a socket of a connector block 50.
  • Said block 50 has linkage for rocking the sleeve 51 upon a fixed shaft 52, which shaft is affixed at one end to the left wall 10c of the general housing and at the other end to a depending web ofthe casting of the housing (see FIG. 3).
  • Slide sleeve 51 has an upstanding bearing 51a in which the feed dog mounting shaft 53 is journaled. This shaft 53 is reciprocated slightly in a direction at right angles to the axis of the slide sleeve 51 during its cycle of operation. Mechanism for imparting this small reciprocation is only partially shown but is mainly actuated by integral,
  • a conventional stroke link 54 (FIGS. 3 and 4) is gyrated through the joint actions of said eccentric 11b and the pitman 49. Its outer end is adjustably pivoted by an adjustment pin 55 in conventional manner in an arcuately slotted lever 56 (FIGS. 3 and 4).
  • the toothed feed dog 30 has its teeth, which oppose the presser foot 29 working through a slot or slots formed in a rigid throat plate 30a, suitably supported on the exterior of the lower portion of the main housing.
  • This same plate 30a carries the stationary knife 57 of the cutting mechanism.
  • a exible and elastic boot gasket 30h snugly surrounds the dog connector shaft 53 and in the gyratory movement of such connector shaft, seals it with the opening -in the bottom portion of the housing through which it projects.
  • the bore 11x of tubular main shaft 11 is utilized as a manifold for communication of oil to the bearing areas of many parts which are driven by shaft 11.
  • the approximate level of liquid lubricant during operation of the machine is indicated at L in FIG. 3.
  • An elongated tubular conduit a extends upwardly from adjacent the bottom of sump S along the side wall 10c of the housing and connects with the intake b of the pump (see FIG. 3).
  • the discharge c of the pump communicates through a short upwardly extending conduit d with a reservoir chamber e formed in the upper portion of housing 10 at one side thereof.
  • a relief valve d is interposed between the pump discharge and the upper conduit d, having an adjustable spring-pressed valve therein (not shown) which controls a small orifice.
  • the outer side of reservoir chamber e is closed by a gasket-equipped closure plate f, preferably removable for cleaning the chamber.
  • the chamber e (see FIG.
  • a plurality of radial ports j communicate the lubricant liquid from the bore to the bearings for shaft 14 and also to the bearings for hubs 15a and 17a respectively of the needle lever 15 and presser arm 17.
  • the radial port k extends through shaft 11 intobearing 12 for oiling the bearing surfaces at the upper portion of the main shaft.
  • a similar radial port m extends through shaft 11 and through eccentric 34 for supplying lubricant to the bearing surfaces of pitman 35 which actuates the needle lever,
  • a similar radial port n extends through shaft 11 and the eccentric 47 which actuates the pump mechanism.
  • a port o extending through shaft 11 and radially through the thick eccentric-cam disc 36a supplies lubricant to the split annulus 37 surrounding the eccentric and also since the member is split and has a Waggle movement in operation, supplies lubricant to the exterior of the wobble pin or slide rod 38 and thence to bearing 39a.
  • Another radial port p extends through the intermediate lower portion of shaft 11 and through eccentric 48 into communication with the bearing area of the pitman 49 which is a factor in driving dog 30 and also in actuating the cutter mechanism.
  • the bore of the shaft extension 11b is diminished, but is in communication with the main bore of the shaft, and communicates through radial ports q with the exterior of the diminished eccentric 11b depending below the main portion of shaft 11.
  • a spiral oil channel r is formed in the interior of the upstanding bearing 31C which receives and journals the looper shaft 31.
  • a splash system is set up relative to the exterior of all parts and bearings. Below the pump, actuating eccentric 47 and the gyratory travel of the cam eccentric 36a and rapid waggle of the pin shaft 38 and the knuckle joint 39, contribute materially to the effective splashing of oil within the intermediate portion of the sealed housing 10.
  • the interior of the entire main housing with the exception of an air-breather orifice O formed through a screw-threaded plug 60 in the rear wall of the housing is sealed from communication with the surrounding atmosphere.
  • Plug 60 as shown contains a small cylindrical air filter F constructed of porous, spongy material.
  • the said sealing of the main housing includes the use of the gasket with the exible section carrying bosses 20a and 20h for sealing with the upper portions of needle lever and presser arm, and also the sealing afforded by the boot gasket b (see FIGS. 2 and 4) which seals the periphery of the feed dog supporting shank 53 with the apertured portion of the housing through which shank 53 extends.
  • an access door 61 is provided, hinged by a pintle 61a for downward swinging forwardly of the rear portion of sump S and being retained in closed position by a spring actuated bolt 61b which not only gives access to the looper head 31a and the needle chuck, but it shields these parts from dust and other material.
  • suitable manually controlled means for elevating the presser arm 17, suitable manually controlled means is provided, which employs the shaft 26 previously described as a rock shaft, carrying a lever arm 26a which has slot connection with a pin 17b fixed to the medial portion of arm 17 (see FIG. 2).
  • a handle 26b (see FIG. 4) is affixed to a portion of shaft 26, projecting beyond the left hand side of the housing. By manipulation of this handle, the presser arm may be adequately raised when desired.
  • the structure is particularly adapted for stationary machines which operate in con- ⁇ junction with an elongated horizontal bag-carrier or slide.
  • the level of the upper leaf of the endless conveyor or other medium used is disposed the appropriate distance below the needle so that the bag or sack, after filling, may proceed to the throat and presser foot and then to the feed dog mechanism through the machine without intermittent motion of the carrier.
  • a powered rotary main shaft extending substantially through said housing
  • an elongate looper shaft mounted within said housing for provision of sliding reciprocation as well as oscillation and having an extension passing through a portion of said housing, means for sealing said extension with said housing, drive mechanism within said housing for longitudinally and slidably reciprocating and simultaneously slightly oscillating said looper shaft, including a cam element affixed to said main shaft and linkage between said cam element and said looper shaft, the cam element having bearing surfaces and said linkage having bearing surfaces, a material-feed dog mounted outside of said housing, ⁇ a carrier shaft which extends within said housing,
  • said driving mechanism all within said housing connected with said dog at its outer end for gyrating said dogcarrier shaft through a narrow elliptical path, said driving mechanism including an element affixed to a portion of said rotary shaft,
  • said main shaft having a lubricant-transmitting bore formed internally thereof, said system including said bore, said lubricating system including a pump mounted within the confines of said housing and linkage for driving said pump from the power of said main shaft, said pump having an intake in communication with said oil reservoir media and having a discharge communicating with the lubricant bore of said main shaft, an oil passage, communicating lubricant through the bore of said main shaft and the cam element of said looper drive mechanism to said bearing surfaces of said cam and to said bearing surfaces of said linkage between said cam ele-ment and said looper sh-aft, and
  • mechanism for driving automatic stitch cutting means is disposed wholly within said housing, and wherein the elements thereof are lubricated by the splash system.
  • annular member surrounding said cam track and journaled therein, said annular member carrying a fixed waggle pin extending radially thereof and towards one side of said housing adjacent part of said looper shaft, connections between said waggle pin and said shaft including a slide sleeve in which said waggle pin is mounted for sliding and oscillation, an oil passage means communicating the bore of said main shaft and extending through said eccentric cam member for lubricating the cam track and for passing oil outwardly alng said waggle pin and to said slide sleeve.
  • a' looper shaft supported in said mounting with provision for sliding reciprocation as well as oscillation j and having a looper holder operatively associated .
  • drive mechanism for longitudinally reciprocating and simultaneously slightly oscillating said looper shaft comprising, an eccentric cam assembly having an eccentric element affixed to said main shaft and having a peripheral cam track disposed obliquely to the axis of said shaft, an annular member surrounding said cam track and journaled therein,
  • said annular member carrying a generally radially dis- Y posed waggle pin extending towards one side of said housing and adjacent a portion of said looper shaft,

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  • Engineering & Computer Science (AREA)
  • Textile Engineering (AREA)
  • Sewing Machines And Sewing (AREA)
US595092A 1966-11-17 1966-11-17 Sewing machine Expired - Lifetime US3478709A (en)

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US59509266A 1966-11-17 1966-11-17

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Cited By (10)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3716007A (en) * 1972-03-31 1973-02-13 Fischbein Mfg Dave Automatic stitch-cutting mechanism for bag-closing sewing machines
US4122789A (en) * 1976-12-24 1978-10-31 Pfaff Industriemaschinen Gmbh Sewing machine having an oil filter
DE3112857A1 (de) * 1980-04-01 1982-01-28 Bliss & Laughlin Industries Inc., Minneapolis, Minn. Selbstoelende tragbare sackschliess-naehmaschine
US4487143A (en) * 1983-05-25 1984-12-11 Axia Incorporated Self-oiling bag-closing sewing machine with improved lubrication system for drive shaft and feed dog assembly
US4572092A (en) * 1983-09-21 1986-02-25 The Merrow Machine Company Handwheel modified for improved lubrication and cooling
US4708070A (en) * 1983-10-19 1987-11-24 Axia Incorporated Looper assembly for a two thread bag closing sewing machine and two thread looping process for closing bags
USRE33382E (en) * 1980-04-01 1990-10-16 Axia Incorporated Self-oiling portable bag-closing sewing machine with pump
FR2713673A1 (fr) * 1993-12-15 1995-06-16 Union Special Gmbh Machine à coudre à dispositif d'avance inférieur pour la pièce à coudre.
FR2949124A1 (fr) * 2009-08-13 2011-02-18 Lucien Perisse Machine a coudre industrielle au point de chainette avec aiguille horizontale
CN112796041A (zh) * 2020-12-30 2021-05-14 广州黄程科技有限公司 一种布袋封口缝纫机

Families Citing this family (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4441442A (en) * 1982-06-07 1984-04-10 Axia Incorporated Self-oiling portable bag-closing sewing machine with pump
GB2175319A (en) * 1983-07-06 1986-11-26 Kostantinos Kasiaras Sewing machines
GB2288612A (en) * 1994-04-22 1995-10-25 Fang Shih Hsiung Portable industrial sewing machine lubricating system
FR3109586B1 (fr) * 2020-04-23 2022-05-13 Andritz Asselin Thibeau Aiguilleteuse elliptique à carter étanche et pot de guidage de traversée basculant

Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US591634A (en) * 1897-10-12 Sewing-machine
US1258965A (en) * 1914-09-11 1918-03-12 Economy Bag Closing Company Sewing-machine.
US1461428A (en) * 1919-09-23 1923-07-10 Frederick Osann Co Sewing machine
US2431292A (en) * 1944-09-04 1947-11-18 Singer Mfg Co Hook lubrication for sewing machines
US2721528A (en) * 1951-05-26 1955-10-25 Union Special Machine Co Lubrication system for sewing machines
US2749859A (en) * 1951-04-18 1956-06-12 Union Special Machine Co Sewing machines

Patent Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US591634A (en) * 1897-10-12 Sewing-machine
US1258965A (en) * 1914-09-11 1918-03-12 Economy Bag Closing Company Sewing-machine.
US1461428A (en) * 1919-09-23 1923-07-10 Frederick Osann Co Sewing machine
US2431292A (en) * 1944-09-04 1947-11-18 Singer Mfg Co Hook lubrication for sewing machines
US2749859A (en) * 1951-04-18 1956-06-12 Union Special Machine Co Sewing machines
US2721528A (en) * 1951-05-26 1955-10-25 Union Special Machine Co Lubrication system for sewing machines

Cited By (11)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3716007A (en) * 1972-03-31 1973-02-13 Fischbein Mfg Dave Automatic stitch-cutting mechanism for bag-closing sewing machines
US4122789A (en) * 1976-12-24 1978-10-31 Pfaff Industriemaschinen Gmbh Sewing machine having an oil filter
DE3112857A1 (de) * 1980-04-01 1982-01-28 Bliss & Laughlin Industries Inc., Minneapolis, Minn. Selbstoelende tragbare sackschliess-naehmaschine
US4348970A (en) * 1980-04-01 1982-09-14 Bliss & Laughlin Industries, Incorporated Self-oiling portable bag-closing sewing machine
USRE33382E (en) * 1980-04-01 1990-10-16 Axia Incorporated Self-oiling portable bag-closing sewing machine with pump
US4487143A (en) * 1983-05-25 1984-12-11 Axia Incorporated Self-oiling bag-closing sewing machine with improved lubrication system for drive shaft and feed dog assembly
US4572092A (en) * 1983-09-21 1986-02-25 The Merrow Machine Company Handwheel modified for improved lubrication and cooling
US4708070A (en) * 1983-10-19 1987-11-24 Axia Incorporated Looper assembly for a two thread bag closing sewing machine and two thread looping process for closing bags
FR2713673A1 (fr) * 1993-12-15 1995-06-16 Union Special Gmbh Machine à coudre à dispositif d'avance inférieur pour la pièce à coudre.
FR2949124A1 (fr) * 2009-08-13 2011-02-18 Lucien Perisse Machine a coudre industrielle au point de chainette avec aiguille horizontale
CN112796041A (zh) * 2020-12-30 2021-05-14 广州黄程科技有限公司 一种布袋封口缝纫机

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FR1514590A (fr) 1968-02-23
BE694968A (en:Method) 1967-08-14
GB1170296A (en) 1969-11-12

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