US945743A - Envelop-sealing apparatus. - Google Patents

Envelop-sealing apparatus. Download PDF

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US945743A
US945743A US35513807A US1907355138A US945743A US 945743 A US945743 A US 945743A US 35513807 A US35513807 A US 35513807A US 1907355138 A US1907355138 A US 1907355138A US 945743 A US945743 A US 945743A
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envelops
envelop
roll
shaft
rolls
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US35513807A
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Ernest J Brasseur
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AB Dick Co
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AB Dick Co
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65CLABELLING OR TAGGING MACHINES, APPARATUS, OR PROCESSES
    • B65C9/00Details of labelling machines or apparatus
    • B65C9/40Controls; Safety devices
    • B65C9/42Label feed control
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10TTECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
    • Y10T156/00Adhesive bonding and miscellaneous chemical manufacture
    • Y10T156/12Surface bonding means and/or assembly means with cutting, punching, piercing, severing or tearing
    • Y10T156/1317Means feeding plural workpieces to be joined
    • Y10T156/1343Cutting indefinite length web after assembly with discrete article

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  • WITNESSES X d 9% Mi ATTOR N EY E. J. BRASSEUR. ENVELOP SEALING APPARATUS.
  • WITNESSES INVENTOR E. JIBRASSEUR. ENVELOP SEALING APPARATUS. I APPLICATION FILED MAR. 25, 1905. RENEWED JAN. 31, 1907.
  • This invention relates to means for sealing envelops and is directed to the provision of an envelop sealing machine which is particularly ada ted for use in connection with or affixing stamps to the envelop during the operation of sealing the flaps thereof.
  • the object of the invention is to provide anenvelop sealing apparatus which 1s s1m ple in construction, winch is uniform, rel1able and eflicient in its operation and which may be run at high speed.
  • An embodiment of my invention by which these objects are attained is illustrated in the accompanying drawings in which Figure 1 is a front elevation illustrating the mechanism ona scale about one-half size, Fig. 2 is'a top plan view, some of the parts being-omitted, Fig. 3 is a horizontal section on line 4-4 of Fig. 1, Fig. 4 is a similar section on line 66 of Fig. 1, and Fig. 5 is an end view of the machineshowing the sealing aprons and the rolls therefor in section.
  • fr'lhe stamp athxing mechanism partially illustrated in the-drawings is described in 'detail in an application filed by me September 14, 1904 and serially numbered 324,417; I will now describe the mechanism for sealing the flaps of the envelops.
  • A designates the base l and B a shelf-plate over which the envelops are passed, most of the parts wh'mh coact with the envelops being located above the plate B- while the operating mechanism of these parts is-located between that plate and the base A.
  • the envelops are fed fronileft to right (Fig. 1), they beingcollected by and passed through the aprons at the extreme right of the machine after the flaps have been moistened.
  • the main shaft 0 of the machine is shown inFig. 4; it is journaled between the plates A and B and has a spiral gear C mounted thereon to which power is transmitted by a worm C carried by a power shaft C
  • a spur gear C meshing with gearC on a shaft C, mounted for rotation in bearings in plates A and B.
  • Mounted" on the shaft 0 near the base plate A is a pinion e'meshing with a larger pinion e on a stub shaft 6 and directly overlying said pinion e is a beveled pinion c with Which meshes a similar pinion e, mounted on astub shaft 6 supported from the base plate A of the machine.
  • apron E is mounted on rolls adjacent to the apron E with a portion thereofin' contact with the apron E
  • the rolls carrying the aprons E and E guide these aprons so as to form a V shaped space between them at the top thereof into which the sealed envelops drop, the envelops then passing down-between the aprons, the latter serving to press the flaps against the body portions of the envelops while the gum is drying.
  • a hinged extension I) of the shelf-plate is provided over which the envelops are fed.
  • zontally disposed roll G is mounted upon a shaft provided with a spiral gear meshing with a similar ear g (Fig. 1) carried by a shaft on which the vertically disposed- This stub shaft feed roll G is mounted.
  • a pinion g? is loosely mounted thereon to which motion is imparted as hereinafter explained.
  • g designates a clutch on the shaft 9 and g an annulus forming part of the upper member of the clutch.
  • a lever 9 carried by a rock shaft (1 coacts with said annulus so that upon the rocking of shaft 03 the clutch members are separated thereby bringing shaft 9 and feed ,rolls G and G" to rest.
  • the gear g is driven from the power shaft by means of a train of gearing inserted between the gear e and gear 9 this train of gearing including pinion j, gear 7", pinion i and gear i each of these gears and pinions being secured upon a suitable shaft mounted for rotation in bearings provided therefor in the base'A and shelf plate B.
  • a paper stop G comprising two members holdingbetween them tongues or fingers G the ends of which extend in proximity to a wall constituting the side of "he unsealed envelop receptacle, as .shown in Fig. 3.
  • a bracket It carry-' ing a roll H preferably covered with rubber and having a spring b arranged to press thereon as.shown.
  • a roll I Fig. 3
  • both of these rolls are recessed intermediate their ends for the reception of the detent of a trip mechanism.
  • This detent consists of a bifurcated plate 2" carried by a hub 2' which is loose on the shaft 2' ofthe roll I.
  • A. rearwardly extending arm 2' on the detent is connected by means of a rod 2' with the upper end of a lever (Z (Figs.
  • Figs. 1 and 4 it will be seen that the roll I is mounted upon the same shaft as the pinion 2' and that a clutch i is provided between pinion i and roll I in order toperniit roll I and its shaft to rotate free from its actuating mechanism so that an envelop may be moved along in the direction of travel at a greater rate of speed. than the surface speed of theroll I.
  • the shaft J on which the pinion j is mounted is extended upwardly through a bearing in the plate B, and carries a roll J.
  • This roll coacts with a similar roll J 2 whose shaft is carried by arms pivoted upon a shaft i supported in ears 1' forming part of the. moistener frame j hereinafter described, the roll J 2 being pressed toward the roll J by a suitable spring.
  • the shaft C abot e referred to passes upward through the plate B and carries a roll C of considerable diameter, the periphery of this roll being preferably rubber covered.
  • the roll C travels at a surface speed substantially higher than that of the other rolls thereby feeding the envelops from the machine faster than the same are introduced to or fed through the machine.
  • Mounted opposite to and coacting with the roll C is a roll K mounted in a hinged bracket is and hinged at In to the ears 7' of the moistener frame.
  • This bracket is spring-pressed by means of leaf-spring k and has an extension or tail-piece k which serves to guide the envelops passing between the rolls C and K and permits them to fall in proper position between the belts or aprons E E
  • the moistening device comprises a water supply, themoistener proper supplied thereby and milled or knurled roll supporting the envelop flap in its passage between same and the moistener proper.
  • the water cup designates the water cup which may be of any suitable construction; it practically overlies the receptacle in which is preferably placed a pad of felt or other absorbent material Z.
  • a detachable weight Z will bear by its own gravity upon the pad and this has a hole Z in it to permit the drip from the cup L to pass through.
  • the plate B is cut away and within this cut away portion operating in.
  • rollers of one row are indicated b erences 8", 3 ,5 and J, while t e rollers of the other row are indicated by the references s and s on which a belt 8 runs, S and Sf;
  • the mechanism for rotating these rollers is such 1 that one pair operates at a somewhat higher speed than the next preceding pair, so that the stamps of a strip will be thereby severed.
  • the operation of these rollers is such that a stamp is fed from the magazine down to the roller J and its gummed surface moistened just. as the envelop forwarded through the machine reaches the rollers J, J so that the stamp is rolled upon the envelop andaflixed thereto while the latter is passin through the machine.
  • the envelop reaches the rolls C and K which catch it and move it along at a considerably higher rate'of speed than when acted upon only by ,the rolls H and I so that the envelop is quickly carried out of the way of the next succeedin envelop.
  • the envelop guided by the arm 10 drops between the aprons E E.
  • These aprons are slowly rotated by the gearing above described, and as the envelops pass down between them the flaps thereof are pressed against the body portions so as to ef-.
  • the machine thus constructed can be operated at high speed and the sealing of all of the envelops will be reliably efl'ected.
  • This high speed is due to a large extent to the fact that an automatic feeder is employed for feeding the envelops successively from a stack and forwardin them in a single plane through the machme until they reach the sealing device.
  • an automatic feeder is employed for feeding the envelops successively from a stack and forwardin them in a single plane through the machme until they reach the sealing device.
  • the detent mechanism above described when used in a machine for sealing envelops only, precludes the feed of one envelop through the machine until the preceding envelop has passed far enough along to giiard n a ing stamps thereto, this detent mechanism whereby the feed rolls are thrown into and out of operation is of even greater importance for then its action may also depend upon the presence of a stamp in position for aflixing an envelop. It will be seen that this detent device is operated by the advancing envelop and determines when the feed rolls will again operate to feed another envelop into the machine.
  • the combination with a bed ada'ptedto receive a plurality of envelops, of a feedroll coacting with one of the outside envelops, means actuated under predetermined conditions for throwing the same into and out of operation, and mechanism for moistening the flaps of said envelops and fixing the same in position, substantially as set forth.

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Description

E. J. BRASSEUR. ENVELOP SEALING APPARATUS. APPLICATION EILED MAR. 25, 1905. RENEWED JAN. 31, 1907.
945,743. Patented Jan. 11,1910.
IFQEL 5 SHEETS-SHEET 1.
WITNESSES: a
E. J. BRASSEUR. EN VELOP SEALING APPARATUS. APPLICATION FILED MAR. 25, 1905. RENEWED JAN. 31, 1907. 945,743. Patented Jan. 11,1910.
5 SHEETS-SHEET 2.
WITNESSES: X d 9% Mi ATTOR N EY E. J. BRASSEUR. ENVELOP SEALING APPARATUS.
APPLICATION FILED MAR. 25, 1905. RENEWED JAN. 31, 1907.
' 945,743. Patented Jan. 11,1910.
5 SHEETS-SHEET 3.
WITNESSES: INVENTOR E. JIBRASSEUR. ENVELOP SEALING APPARATUS. I APPLICATION FILED MAR. 25, 1905. RENEWED JAN. 31, 1907.
Patented Jan. 11,1910.
5 SHEETS-SHEET 4.
Til
INVENTOR M ATTORNEY 7 WITNESSES: X. M Mflw-MZ E." J. BRASSEUR.
ENVELOP SEALING APPARATUS.
APPLICATION FILED MAR. 25, 1905. RENEWED JAN. 31, 1907.
9&5343; Patented Jan. 11,1910.
5 SHEETS-SHEET 5.
WHNESSES: INVENTOR ATTORNEY mechanism UNITE j STAN FFICE.
ERNEST J'- BRASSEUR, OF GHICAGOQ ILLINOIS, ASSIGNOR TO A. B. DICK COMPANY, OF
- CHICAGO, ILLINOIS, A CORPORATION OF ILLINOIS.
ENVELOP-SEALING APPARATUS.
Specification of Letters Patent. Patented Jan. 11, 1910,
Application filed March 25, 1905, Serial No. 252,023. Renewed January 31, 1907. SeriaLNo. 355,138.
To all whom. it may concern:
Be it known that I, ERNEST J. BRAssnUR, a subject of the King of Belgium, residing at Chicago, inthe county of Cook and State of Illinois, have invented a certain new and useful Improvement in Envelop-Seahn Apparatus, of which the following is a specification.
This invention relates to means for sealing envelops and is directed to the provision of an envelop sealing machine which is particularly ada ted for use in connection with or affixing stamps to the envelop during the operation of sealing the flaps thereof.
The object of the invention is to provide anenvelop sealing apparatus which 1s s1m ple in construction, winch is uniform, rel1able and eflicient in its operation and which may be run at high speed. An embodiment of my invention by which these objects are attained is illustrated in the accompanying drawings in which Figure 1 is a front elevation illustrating the mechanism ona scale about one-half size, Fig. 2 is'a top plan view, some of the parts being-omitted, Fig. 3 is a horizontal section on line 4-4 of Fig. 1, Fig. 4 is a similar section on line 66 of Fig. 1, and Fig. 5 is an end view of the machineshowing the sealing aprons and the rolls therefor in section.
In these drawings I have illustrated a machine which is capable of performing either or both of the functions of sealing the flaps of envelops and atfixing stamps to the envelops and the design of the envelop sealing device here shown is employed because it is well adapted for use in connection with stamp afiixi'ng mechanism of the type shown; however, I wish it understood that my invention maybe employed in a machine for sealing envelops only and that in such case the construction employed may differ widely from that here shown -without departing from the princi les of my invention.
fr'lhe stamp athxing mechanism partially illustrated in the-drawings, is described in 'detail in an application filed by me September 14, 1904 and serially numbered 324,417; I will now describe the mechanism for sealing the flaps of the envelops.
In the drawings, A designates the base l and B a shelf-plate over which the envelops are passed, most of the parts wh'mh coact with the envelops being located above the plate B- while the operating mechanism of these parts is-located between that plate and the base A. The envelops are fed fronileft to right (Fig. 1), they beingcollected by and passed through the aprons at the extreme right of the machine after the flaps have been moistened.
The main shaft 0 of the machine is shown inFig. 4; it is journaled between the plates A and B and has a spiral gear C mounted thereon to which power is transmitted by a worm C carried by a power shaft C Secured to spiral gear 0 is a spur gear C" meshing with gearC on a shaft C, mounted for rotation in bearings in plates A and B. Mounted" on the shaft 0 near the base plate A is a pinion e'meshing with a larger pinion e on a stub shaft 6 and directly overlying said pinion e is a beveled pinion c with Which meshes a similar pinion e, mounted on astub shaft 6 supported from the base plate A of the machine. carries a beveled pinion e meshing with a similar pinion c on a shaft 6 supported in a suitable standard 6 on the base plate of the machine and upon which is mounted a roll E. This roll E forms one of a series of rolls 'over which an elastic belt or apron. E extends. A similar elastic belt or apron. E" is mounted on rolls adjacent to the apron E with a portion thereofin' contact with the apron E The rolls carrying the aprons E and E guide these aprons so as to form a V shaped space between them at the top thereof into which the sealed envelops drop, the envelops then passing down-between the aprons, the latter serving to press the flaps against the body portions of the envelops while the gum is drying.
A hinged extension I) of the shelf-plate is provided over which the envelops are fed.
zontally disposed roll G is mounted upon a shaft provided with a spiral gear meshing with a similar ear g (Fig. 1) carried by a shaft on which the vertically disposed- This stub shaft feed roll G is mounted. At the lower end of shaft-g a pinion g? is loosely mounted thereon to which motion is imparted as hereinafter explained.
g designates a clutch on the shaft 9 and g an annulus forming part of the upper member of the clutch. A lever 9 carried by a rock shaft (1 coacts with said annulus so that upon the rocking of shaft 03 the clutch members are separated thereby bringing shaft 9 and feed ,rolls G and G" to rest.
The means foractuating shaft d and arm g will be hereinafter explained.
-The gear g is driven from the power shaft by means of a train of gearing inserted between the gear e and gear 9 this train of gearing including pinion j, gear 7", pinion i and gear i each of these gears and pinions being secured upon a suitable shaft mounted for rotation in bearings provided therefor in the base'A and shelf plate B.
I he operation of the clutch g is controlled envelop at a time is precluded by a paper stop G comprising two members holdingbetween them tongues or fingers G the ends of which extend in proximity to a wall constituting the side of "he unsealed envelop receptacle, as .shown in Fig. 3.
' Pi,'votally mounted at it upon the rear side of the paper stop G is a bracket It carry-' ing a roll H preferably covered with rubber and having a spring b arranged to press thereon as.shown. Cooperating with the roll H is a roll I (Fig. 3) and both of these rolls are recessed intermediate their ends for the reception of the detent of a trip mechanism. -This detent consists of a bifurcated plate 2" carried by a hub 2' which is loose on the shaft 2' ofthe roll I. A. rearwardly extending arm 2' on the detent is connected by means of a rod 2' with the upper end of a lever (Z (Figs. 1 and 4) the lower end of which is secured upon the rock shaft (1 It will be seen that the end of the detent 2" lies in the path of movement of an envelop advanced by the feed rolls G, G past the end of the fingers G and between the rolls H and I so that each time an envelop is fed forward thus it engages and rocks the detent. 2" and by doing so operates the clutch g to disconnect the feed rollers G. G from the power shaft. A horizontally disposed bar d (Fig. 4) is secured at one end to the shaft (Z The free end of bar (Z is adapted to operate a clutch mechanism between the power-shaft of the machine and the stampafiixing mechanism, so that the feeding of an envelop also automatically controls the feeding and affixing of a stamp to that envelop, the purpose of this detent and clutch mechanism being to preclude thefeeding of more than one stamp for each envelop and thus to guard against the loss of stamps. In order to insure the operation of the-detent z" a tongue 2' is provided on the bracket 72., its end passing between the bifurcated portionsof the detent'z" and being beveled off as shown in Fig. 3. t
In Figs. 1 and 4, it will be seen that the roll I is mounted upon the same shaft as the pinion 2' and that a clutch i is provided between pinion i and roll I in order toperniit roll I and its shaft to rotate free from its actuating mechanism so that an envelop may be moved along in the direction of travel at a greater rate of speed. than the surface speed of theroll I.
The shaft J on which the pinion j is mounted is extended upwardly through a bearing in the plate B, and carries a roll J. This roll coacts with a similar roll J 2 whose shaft is carried by arms pivoted upon a shaft i supported in ears 1' forming part of the. moistener frame j hereinafter described, the roll J 2 being pressed toward the roll J by a suitable spring.
The shaft C abot e referred to passes upward through the plate B and carries a roll C of considerable diameter, the periphery of this roll being preferably rubber covered. The roll C travels at a surface speed substantially higher than that of the other rolls thereby feeding the envelops from the machine faster than the same are introduced to or fed through the machine. Mounted opposite to and coacting with the roll C is a roll K mounted in a hinged bracket is and hinged at In to the ears 7' of the moistener frame. This bracket is spring-pressed by means of leaf-spring k and has an extension or tail-piece k which serves to guide the envelops passing between the rolls C and K and permits them to fall in proper position between the belts or aprons E E The moistening device comprises a water supply, themoistener proper supplied thereby and milled or knurled roll supporting the envelop flap in its passage between same and the moistener proper.
L designates the water cup which may be of any suitable construction; it practically overlies the receptacle in which is preferably placed a pad of felt or other absorbent material Z. Preferablya detachable weight Z will bear by its own gravity upon the pad and this has a hole Z in it to permit the drip from the cup L to pass through. Directly beneath the receptacle Z and the moistening pad Z the plate B is cut away and within this cut away portion operating in.
ably supported in bearings beneath the plate B. Normally and when any envelops are passing through the machine, the weight of themoistener pad Z is borne by the roll Z.
"As the envelop is passed into the machine the flap being first opened at an angle to the body such flap passes over the roll Z be-described in detail, but referrin to Fig.
3, it will be seen that a magazine or strips of stamps is shown at S and that two rows of rollers are provided between which these strips of stamps are fed successively. The
rollers of one row are indicated b erences 8", 3 ,5 and J, while t e rollers of the other row are indicated by the references s and s on which a belt 8 runs, S and Sf; The roller S ds a moistening, as well as a stamp-forwarding roller. The mechanism for rotating these rollers is such 1 that one pair operates at a somewhat higher speed than the next preceding pair, so that the stamps of a strip will be thereby severed. The operation of these rollers is such that a stamp is fed from the magazine down to the roller J and its gummed surface moistened just. as the envelop forwarded through the machine reaches the rollers J, J so that the stamp is rolled upon the envelop andaflixed thereto while the latter is passin through the machine.
As thus constructed, when the power shaft is operated the rolls G, G together with the rolls for forwarding the envelops through the machine are rotated. A stack of envelops is placed upon the plate b with their flaps lowermost and arranged at a right angle to the body portions thereof. The rolls G, G move the envelops forwardly and cause the end one of the stack to pass beyond the ends of the fingers G. Immediately'thereafter the edge of this envelop comes into contact with the detent a" and rocks the latter. This rocking of the detent operates through the link i and lever cl to rock shaft (i thereby operating the clutch 9 so as to bring shaft 9 and rolls G and G to rest. The edge of the envelop, however,
. is gripped between the forwarding rolls H and I and as these are positively driven the envelop is forwarded in a horizontal path over the surface of the plate B, it being carried along in its movement by the rolls J, J C K. After the envelop passes beyond the detent i the latter isactuated by gravity, to return to its initial position thus op erating clutch 9* to connect the power shaft in driving relation to the shaft 9 whereupon the rolls G, G will be again rotated to feed another envelop forward. When the enthe ref velop first forwarded passes beyond rolls H and I the flap thereof passes under the moistener Z and its frame j and the gum thereof is, moistened by contact with the moistener Z. Then the envelop reaches the rolls C and K which catch it and move it along at a considerably higher rate'of speed than when acted upon only by ,the rolls H and I so that the envelop is quickly carried out of the way of the next succeedin envelop. After passing beyond the rol s C and K the envelop, guided by the arm 10 drops between the aprons E E. These aprons are slowly rotated by the gearing above described, and as the envelops pass down between them the flaps thereof are pressed against the body portions so as to ef-.
fectually seat them.
The machine thus constructed can be operated at high speed and the sealing of all of the envelops will be reliably efl'ected. This high speed is due to a large extent to the fact that an automatic feeder is employed for feeding the envelops successively from a stack and forwardin them in a single plane through the machme until they reach the sealing device. By causing the envelop in the latter part of this movement to be carried along at higher speed, greater reliability of operation is secured, since in thisway there can be no interference between an envelop and the succeeding envelop to be passed through the machine.
The detent mechanism above described, when used in a machine for sealing envelops only, precludes the feed of one envelop through the machine until the preceding envelop has passed far enough along to giiard n a ing stamps thereto, this detent mechanism whereby the feed rolls are thrown into and out of operation is of even greater importance for then its action may also depend upon the presence of a stamp in position for aflixing an envelop. It will be seen that this detent device is operated by the advancing envelop and determines when the feed rolls will again operate to feed another envelop into the machine.
Having now described my invention, what I claim as new therein and desire to secure by Letters Patent is as follows:
1. The combination with a bed adapted to support a plurality of envellips, of a feedroll coacting simultaneously with the edges of said envelops for feeding said envelops forward successively, means for automaticallythrowing said feed-roll into and out of operation, and mechanism for moistening the flaps of the envelops fed forward by said roll and fixing said flaps in position, substantially as set forth.
2. The combination with a bed ada'ptedto receive a plurality of envelops, of a feedroll coacting with one of the outside envelops, means actuated under predetermined conditions for throwing the same into and out of operation, and mechanism for moistening the flaps of said envelops and fixing the same in position, substantially as set forth.
3. The combination with a bed adapted to receive a plurality of envelops, of a feed-roll eoacting simultaneously with the edges thereof, another feed-roll coacting with one of the outside envelops, means for automatically throwing said feed-rolls into and out of operation, and mechanism for moistening the flaps of said envelops and fixing the same in position, substantially as set forth.
4. The combination with a bed adapted to receive a plurality of envelops, of a feedroll and means actuated by one of said envelops for throwing the same out of opera tion, substantially as set forth.
5. The combination with a bed adapted to receive a plurality of envelops, of a feedroll, means actuated by one of said envelops for throwing the same out of operation, and mechanism for moistening the flaps of said envelops and fixing the same in position, substantially as set forth.
6. The combination with a bed adapted to receive a plurality of envelops, of a feedroll, means controlled by the movement of the envelops for throwing the same out of operation, and a paper-stop coacting with said envelops, substantially as set forth.
7. The combination with a bed adapted to receive a plurality of envelops, of a feedroll, means for controlling the operation thereof during the passage of an envelop, a paper stop, a fiap moistening device, and means for pressing the flaps against the bodies of said envelops, substantially as set forth.
8. The combination with a bed adapted to receive a plurality of envelops, of a feedroll, means for automatically governing the operation thereof during the passage of an envelop, a flap-moistening device, and endless belts for pressing the flaps against the bodies of said envelops, substantially as set forth.
9. The combination with a bed adapted to receive a plurality of envelops, of a feedroll for feeding said envelops forward successively, means dependent upon the passage of an envelop for governing the operation of said roll, a flapmoistening device for moistening the flaps of the envelops fed forward by said roll, a roll operating at higher surface speed than said feed-roll, and means for fixing the flaps of said envelops in position, substantially as set forth.
10. The combination with a bed adapted to receive a plurality of envelops, of a feed roll, a tripping mechanism actuated by an envelop fed by said roll to throw said roll a times out of operation, a flap-moistening device, and means for fixing the flaps of said envelops in position, substantially as set forth.
11. The combination with a bed adapted to receive a plurality of envelops, of a feedroll, a clutch mechanism coaeting therewith, and a tripping device actuated by the advancing edge of an envelop fed by said feedroll and coacting with sand clutch to throw said feed-roll out of operation, substantially as set forth.
12. The combination with a bed ada ted to receive a plurality of envelops, of a eedroll, a clutch mechanism coacting therewith, a tripping device actuated by the advancing edge of an envelop fed by said feed-roll and eoacting with said clutch to throw said feedroll out of operation, a fiap-moistener, and means for fixing the flaps in position upon the bodies of said envelops, substantially as set forth.
13. The combination with a bed adapted to receive a plurality of envelops, of a feedroll, a moistening device and subjacent roll between which the flaps of said envelops are adapted. to pass, means for pressing the flaps against the bodies of said envelops, and a second roll acting upon the envelops at a higher speed than said feed-roll, substantially as set forth.
14. The combination with a bed adapted to receive a plurality of envelops, of a feed- I roll, a moistening device and subjaeent roll between which the flaps of said envelops are adapted to pass, another roll operating at higher surface speed than said feed-roll, means for guiding the envelops from said last-named roll, and endless belts between which said envelops are adapted to pass successively, substantially as set forth.
15. The combination with a bed adapted to IQCQlXGR plurality of envelops, of a feedroll, means controlled by the passage of an envelop for throwing the same out of operation, a paper-stopping device for precluding the passage of more than one envelopat a time, a fiapunoistener, a roll operating at higher surface speed than said feed-roll, and endless belts adapted to receive envelops from the roll last named and subject the same to pressure, substantially as set forth.
16. The combination of a bed adapted to receive a stack of envelops to be sealed, a feeder for feeding the envelops therefrom, a detent normally projecting into the path of the envelops and operated by an advancing envelop, mechanism for operating upon an envelop controlled by said detent, forwarding rolls for forwarding the envelops at a higher speed than that at which they are fed by said feeder, a moistener, and flapsealing devices, substantially as set forth.
H. The con'ibination of a bed adapted to detent normally projecting into the path of the envelops and operatea by an advancing envelop, mechanism for operating upon anenvelop controlled by said detent, flap-sealing devices, means for guiding the envelops ing the envelops from the feeder to the sealing devices at a higher speed than that at 1 Which they are fed by the feeder, and a 0 moistener for the envelop flaps, substantially as set forth.
This specification signed and witnessed this l lthday of March, 1905. v
ERNEST J. BRASSEUR. Witnesses:
M. H. BURKART, R. R. HARRINGTON.
US35513807A 1907-01-31 1907-01-31 Envelop-sealing apparatus. Expired - Lifetime US945743A (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3253383A (en) * 1962-04-04 1966-05-31 Gen Corrugated Machinery Co In Case sealer for horizontally loaded cases

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3253383A (en) * 1962-04-04 1966-05-31 Gen Corrugated Machinery Co In Case sealer for horizontally loaded cases

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