US2027172A - Bag forming machine - Google Patents

Bag forming machine Download PDF

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Publication number
US2027172A
US2027172A US548971A US54897131A US2027172A US 2027172 A US2027172 A US 2027172A US 548971 A US548971 A US 548971A US 54897131 A US54897131 A US 54897131A US 2027172 A US2027172 A US 2027172A
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Prior art keywords
arms
machine
movement
bag forming
shaft
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Expired - Lifetime
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US548971A
Inventor
Irmscher Hans
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MILLIE PATENT HOLDING CO Inc
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MILLIE PATENT HOLDING CO Inc
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Priority to US548971A priority Critical patent/US2027172A/en
Priority to US61180732 priority patent/US1955811A/en
Application granted granted Critical
Publication of US2027172A publication Critical patent/US2027172A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

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    • DTEXTILES; PAPER
    • D05SEWING; EMBROIDERING; TUFTING
    • D05BSEWING
    • D05B13/00Machines for sewing sacks

Definitions

  • This invention is concerned with bag forming machines in which a continuous tube of suitable material is formed into a plurality of bags, the
  • the invention is particularly concerned with mechanism by which the cut lengths of material are advanced into the sewing mechanism.
  • Figure l is a plan view, showing a machine 15 embodying the present invention, the mechanism being illustrated as operating upon a gauze material such as might be desirable in the manufacturing of tea bags.
  • FIG. 1 is a view in end elevation, showing 20 the machine of Figure 1.
  • Figure 3 is a view in side elevation, showing the machine of Figure 1.
  • Figure 4 is a segmental view in section, taken on line 4--4 of Figure 1, and looking in the di- 2 rection of the arrows, this view showing the fingers for advancing successively cut lengths of material into the sewing machine.
  • Figure 5 is a view similar to Figure 4, showing the fingers in their return movement after hav- 1 9 iIig advanced a unit into the sewing machine.
  • Figure 6 is a plan view, showing the advancing mechanism in the position shown in Figure 5.
  • Figure '7 is a detail view, partly in section, showing the driving mechanism for actuating various elements mentioned hereinafter.
  • the frame of the machine constructed in accordance with the present invention is shown at I, being provided with a suitable table 2 and a supporting arm or 5. arms3.
  • a discharge chute 4 is adapted to direct 50 to control the operation of the machine.
  • Power is supplied from the shaft 6 to a driving gear 1' which engages an idler gear 8 to which a pinion 9 is secured.
  • Pinion 9 engages with a large driven gear in which is secured to a shaft 55 ll, shaft ll being mounted in journals I2 upon the frame of the machine.
  • Shaft l I drives a bevel gear l3 which meshes with a cooperating bevel I4 for driving a power shaft I5.
  • Power shaft is journaled upon the frame of the machine by means of bearing l6 and drives a wheel H which is formed with an arm l8 upon which a roller 19 is journaled.
  • the material to be worked is preferably formed as a continuous sleeve in a roll journaled upon the arm 3.
  • the material is threaded under a guide rod 20 (Figure 1) and between guide collars 2!.
  • the guide collars 2! are preferably seciued upon a cross rod 22' and are carried between spaced arms 23 mounted upon the cutter carriage 24.
  • the material is then passed over the cutter bed and between upper cylindrical rollers 26 and a lower cylindrical roller.
  • the upper rollers 26 are journaled upon a shaft 28 which is mounted between arms 29 which are formed upon a sleeve 30.
  • Sleeve 38 is journaled upon the cutter carriage 24 by means of a rod 3
  • the spring arm is preferably formed with bifurcated portions forming spring fingers 34, these spring fingers being adapted to engage the material over the rod 22.
  • Coil springs 35 normally urge the rollers 26 into engagement with the lower roller and thus elevate the fingers 34 from engagement with the material over the roller 2
  • the rollers 26 are preferablyrubber covered to afford suitable friction for controlling more effectively the movement of the material between the rollers and thefeeding thereof to the cutting mechanism.
  • Arms Eli are pivoted .at 93 upon a slide member 94 which moves upon a guide 95 which is secured to a bracket 96 on the bed of the machine, the guide 95 extending in a direction perpendicular to the shaft 91, carried by the slide 94.
  • are journaled at 93 upon a transverse Arms 9
  • Bifurcated member I02 is secured to a link I03 and at its end journaled upon the shaft. 99 to effect the actuation of the slide 94 and the arms 9
  • Link I03 is pivoted to an end of a lever I04 which is pivoted at I05 upon a bracket I06, carried by the bed of the machine.
  • a coil spring I01 connected at one end to the lower extremity of lever I04 and at its other end to a bracket I08 upon the frame of the machine, normally urges the slide 94 into the position shown in Figure 4.
  • Movements of the material to be sewed at right angles to the direction of movement previously described is effected by means of a cam I09 which is secured to shaft II and engages a roller H0 which is journaled upon an arm I I l pivoted upon a bracket IIZ.
  • a link H3 connects the arm III with the lower extremity of lever I04 and thus motion of the cam I09 is transmitted to the slide 94.
  • the initial movement of the lever I04 causes the shaft 99 to be moved into engagement with the stop I00 and subsequently to advance the slide 94 in the direction of the arrow in Figure 4.
  • the presser feet 89 engage the material and move it under a feed belt II I that it may subsequently advance through the sewing machine ( Figures 1 and 2).
  • Reverse movement of the lever I04 moves the shaft 99 into engagement with the stop IOI elevating the presser feet as shown in Figure 5, and subsequently moving the slide 94 in the direction of the arrow of Figure 5.
  • the movement of the presser feet may be synchronized with the cutting mechanism to remove a cut piece of material from the table 86 after each cutting operation and advance the same to the sewing machine.
  • a sewing machine is shown at I I5 and is driven by means of a belt H6 from a pulley II'I carried by the power shaft 6. Thread for the sewing ma chine may be provided by spools carried upon a suitable spool assembly II 8 which is mounted upon a standard I I9.
  • a suitable cutting mechanism I20 is preferably provided to cut the side of the bag to be sewed just prior to the sewing operation in order that the sewing may be effected,
  • the power mechanism for operating the foregoing elements is of suitable form to afford the desired power take-offs which are synchronized in order that each operation may follow the previous operation in any desired sequence.
  • the resulting operation therefor provides for the formation of bags which are closed along three edges and open along a fourth edge to permit the filling thereof and the bag thus formed is automatically fashioned from a continuous tube or sleeve of 5 suitable material. Each operation is coordinated with the other operations in such fashion as to take place fully and efiectively.
  • the mechanism for feeding the material to the first cutting mechanism is, in effect, a metering mechanism and measures a desired length of material to be introduced into the first cutting mechanism.
  • the material is effectively cut by the operation of a movable knife in conjunction with suitable pressure members which hold the material in cutting position upon opposite sides of the movable knife.
  • a member mounted upon the table to slide in the said desired direction, spaced arms pivoted inter- I mediate their ends upon the member, spring pressed feet pivoted on the arms at one end thereof, a rod connecting the other ends of the arms, reciprocating power means connected to the rod, and spaced stops on the slidable member to limit movement of the rod with respect thereto.
  • a member mounted upon the table to slide in the said desired direction, spacedarms pivoted in- 0 termediate their ends upon the member, spring pressed feet pivoted on the arms at one end thereof, a rod connecting the other ends of the arms, reciprocating power means connected to the rod, means to urge the arms normally to a non-engaging and elevated position, means to actuate the power means to move the arms to an engaging position and advance them over the table, and spaced stops on the slidable member to limit movement of the rod with respect thereto.

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  • Engineering & Computer Science (AREA)
  • Textile Engineering (AREA)
  • Sewing Machines And Sewing (AREA)

Description

Jan. 7, 1936. H. IRMSCHER 2,027,172
BAG FORMING MACHINE I Filed July 6, 1931 6 Sheets-Sheet 1 INVENTOR 'f/ /vs (RMsG/LA ATTORNEYS 1935- H. IRMSCHER 2,027,172
BAG FORMING MACHINE Filed July 6, 1951 6 Sheets-Sheet 2 ATrbRNEYg 7 36- HJRMSCHER 2,027,172
BAG FORMING MACHINE Filed July 6, 1931 6 Sheets-Sheet 5 INVENTOR fiflA/s lnnswan [ATTORNEYS Jam 1936- H. IRMSCHER BAG FORMING MACHINE File J ly 6, 1931 6 Sheets-Sheet 4 ATTORN EY ,5
Jan. 7, 1936. H. IRMSCHER BAG FORMING MACHINE v Filed July 6, 1951 I 6 Sheets-Sheet 5 IIIIIIIHIM INVENTOR e7 Haws /l?/Ys OVER 66 BY a A TTQRNEY Jan- 3 H. IRMSCHER' 2,027,172
' BAG FORMING MACHINE Filed July 6, 1931 6 Sheets-Sheet 6 ATTORNEY s patented Jan. 7, 1936 UNITED STATES PATENT OFFICE A'ilplication Jilly 6, 1931, Serial No. 548,971
, 2 Claims.
This invention is concerned with bag forming machines in which a continuous tube of suitable material is formed into a plurality of bags, the
operations comprising the cutting of the tube into a plurality of suitable lengths, sewing one of the opening ends of the portions so cut out by a continuous sewing operation and severing the thread connecting the several bags as a result of the continuous sewing operation.
The invention is particularly concerned with mechanism by which the cut lengths of material are advanced into the sewing mechanism.
the drawings Figure l is a plan view, showing a machine 15 embodying the present invention, the mechanism being illustrated as operating upon a gauze material such as might be desirable in the manufacturing of tea bags.
t Figure 2 is a view in end elevation, showing 20 the machine of Figure 1.
Figure 3 is a view in side elevation, showing the machine of Figure 1.
Figure 4 is a segmental view in section, taken on line 4--4 of Figure 1, and looking in the di- 2 rection of the arrows, this view showing the fingers for advancing successively cut lengths of material into the sewing machine.
Figure 5 is a view similar to Figure 4, showing the fingers in their return movement after hav- 1 9 iIig advanced a unit into the sewing machine.
Figure 6 is a plan view, showing the advancing mechanism in the position shown in Figure 5.
Figure '7 is a detail view, partly in section, showing the driving mechanism for actuating various elements mentioned hereinafter.
Referring to the above drawings, the frame of the machine constructed in accordance with the present invention is shown at I, being provided with a suitable table 2 and a supporting arm or 5. arms3. A discharge chute 4 is adapted to direct 50 to control the operation of the machine.
Power is supplied from the shaft 6 to a driving gear 1' which engages an idler gear 8 to which a pinion 9 is secured. Pinion 9 engages with a large driven gear in which is secured to a shaft 55 ll, shaft ll being mounted in journals I2 upon the frame of the machine. Shaft l I drives a bevel gear l3 which meshes with a cooperating bevel I4 for driving a power shaft I5. Power shaft is journaled upon the frame of the machine by means of bearing l6 and drives a wheel H which is formed with an arm l8 upon which a roller 19 is journaled. The foregoing elements will be more readily understood from an inspection of Figure 7.
As previously stated, the material to be worked is preferably formed as a continuous sleeve in a roll journaled upon the arm 3. From this arm, the material is threaded under a guide rod 20 (Figure 1) and between guide collars 2!. The guide collars 2! are preferably seciued upon a cross rod 22' and are carried between spaced arms 23 mounted upon the cutter carriage 24. The material is then passed over the cutter bed and between upper cylindrical rollers 26 and a lower cylindrical roller. The upper rollers 26 are journaled upon a shaft 28 which is mounted between arms 29 which are formed upon a sleeve 30. Sleeve 38 is journaled upon the cutter carriage 24 by means of a rod 3| and. is formed with a bracket 32 upon which a spring arm 33 is secured. The spring arm is preferably formed with bifurcated portions forming spring fingers 34, these spring fingers being adapted to engage the material over the rod 22.
Coil springs 35 normally urge the rollers 26 into engagement with the lower roller and thus elevate the fingers 34 from engagement with the material over the roller 2|. The rollers 26 are preferablyrubber covered to afford suitable friction for controlling more effectively the movement of the material between the rollers and thefeeding thereof to the cutting mechanism.
;The cutting operation, with which the present invention is concerned; leaves upon a table 86 fliigures l, 5, '6 and 7), a length of material. The position of the material upon the table 86 is limited by means of an end stop plate 81 and a side stop plate 88. The material from the table 86 is next advanced in a direction at right angles to the direction of its movement through the cutting mechanism (Figures 1, 4, 5 and 6) This motion is imparted to the material by means of presser feet 89 which are pivoted at 90 upon arms 9!. Springs 92 normally urge the feet 89 into a position at right angles with respect to i the arms 9!, as shown in Figures 4 and 5. Arms Eli are pivoted .at 93 upon a slide member 94 which moves upon a guide 95 which is secured to a bracket 96 on the bed of the machine, the guide 95 extending in a direction perpendicular to the shaft 91, carried by the slide 94.
direction of movement of the material through the cutting mechanism. As above stated, the arms 9| are journaled at 93 upon a transverse Arms 9| are formed with extensions 98 between which a shaft 99 is secured. In this fashion, simultaneous movement of the arms is effected, such movement being limited by means of stops I and Isl, carried by the slide 94.
Bifurcated member I02 is secured to a link I03 and at its end journaled upon the shaft. 99 to effect the actuation of the slide 94 and the arms 9|. Link I03 is pivoted to an end of a lever I04 which is pivoted at I05 upon a bracket I06, carried by the bed of the machine. A coil spring I01, connected at one end to the lower extremity of lever I04 and at its other end to a bracket I08 upon the frame of the machine, normally urges the slide 94 into the position shown in Figure 4. Movements of the material to be sewed at right angles to the direction of movement previously described is effected by means of a cam I09 which is secured to shaft II and engages a roller H0 which is journaled upon an arm I I l pivoted upon a bracket IIZ. A link H3 connects the arm III with the lower extremity of lever I04 and thus motion of the cam I09 is transmitted to the slide 94.
The initial movement of the lever I04 causes the shaft 99 to be moved into engagement with the stop I00 and subsequently to advance the slide 94 in the direction of the arrow in Figure 4. During this movement .the presser feet 89 engage the material and move it under a feed belt II I that it may subsequently advance through the sewing machine (Figures 1 and 2). Reverse movement of the lever I04 moves the shaft 99 into engagement with the stop IOI elevating the presser feet as shown in Figure 5, and subsequently moving the slide 94 in the direction of the arrow of Figure 5. In thisfashion, the movement of the presser feet may be synchronized with the cutting mechanism to remove a cut piece of material from the table 86 after each cutting operation and advance the same to the sewing machine.
A sewing machine is shown at I I5 and is driven by means of a belt H6 from a pulley II'I carried by the power shaft 6. Thread for the sewing ma chine may be provided by spools carried upon a suitable spool assembly II 8 which is mounted upon a standard I I9. A suitable cutting mechanism I20 is preferably provided to cut the side of the bag to be sewed just prior to the sewing operation in order that the sewing may be effected,
accurately, upon the cut edge thereof.
The power mechanism for operating the foregoing elements is of suitable form to afford the desired power take-offs which are synchronized in order that each operation may follow the previous operation in any desired sequence. The resulting operation therefor provides for the formation of bags which are closed along three edges and open along a fourth edge to permit the filling thereof and the bag thus formed is automatically fashioned from a continuous tube or sleeve of 5 suitable material. Each operation is coordinated with the other operations in such fashion as to take place fully and efiectively. By providing a movable carriage for the cutting mechanism which cuts the material into a plurality of suit- 10 able lengths, variation of cams, one of which is shown at 54 to vary the length of material may be accommodated, thus providing effectively for varying the length of the bags without altering the operation of the mechanism or its efficiency.
The mechanism for feeding the material to the first cutting mechanism is, in effect, a metering mechanism and measures a desired length of material to be introduced into the first cutting mechanism. The materialis effectively cut by the operation of a movable knife in conjunction with suitable pressure members which hold the material in cutting position upon opposite sides of the movable knife.
The cutting of the threads following the sew- 2?, ing of the bag is effected in such fashion as to permit the continuous movement of the bags from the sewing machine to the discharge chute and thus the continuous operation of the sewing machine is not disturbed. a)
While the invention has been described with specific reference to the accompanying drawings, it is not to be limited, save as defined inthe appended claims.
I claim as my invention: 5
1. In combination with a table for receiving articles to be moved in a desired direction, a member mounted upon the table to slide in the said desired direction, spaced arms pivoted inter- I mediate their ends upon the member, spring pressed feet pivoted on the arms at one end thereof, a rod connecting the other ends of the arms, reciprocating power means connected to the rod, and spaced stops on the slidable member to limit movement of the rod with respect thereto.
2. In combination with a table for receiving articles to be moved in a desired direction, a member mounted upon the table to slide in the said desired direction, spacedarms pivoted in- 0 termediate their ends upon the member, spring pressed feet pivoted on the arms at one end thereof, a rod connecting the other ends of the arms, reciprocating power means connected to the rod, means to urge the arms normally to a non-engaging and elevated position, means to actuate the power means to move the arms to an engaging position and advance them over the table, and spaced stops on the slidable member to limit movement of the rod with respect thereto. '6
HANS IRMSCHER.
US548971A 1931-07-06 1931-07-06 Bag forming machine Expired - Lifetime US2027172A (en)

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Application Number Priority Date Filing Date Title
US548971A US2027172A (en) 1931-07-06 1931-07-06 Bag forming machine
US61180732 US1955811A (en) 1931-07-06 1932-05-17 Cutting mechanism for bag forming machines

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US548971A US2027172A (en) 1931-07-06 1931-07-06 Bag forming machine

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2635875A (en) * 1948-10-28 1953-04-21 United States Steel Corp Reciprocating feeder for sheet material
DE1063891B (en) * 1958-10-15 1959-08-20 Reinhart Schmidt G M B H Rotary machine for the production of flat bags

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2635875A (en) * 1948-10-28 1953-04-21 United States Steel Corp Reciprocating feeder for sheet material
DE1063891B (en) * 1958-10-15 1959-08-20 Reinhart Schmidt G M B H Rotary machine for the production of flat bags

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