US774483A

US774483A - Can-end-soldering machine.

Info

Publication number: US774483A
Application number: US12762202A
Authority: US
Inventors: Augustus Lotz
Original assignee: American Can Co
Current assignee: Primerica Inc
Priority date: 1902-10-17
Filing date: 1902-10-17
Publication date: 1904-11-08
Anticipated expiration: 1921-11-08

Description

PATENTD Nov. 8, 1904. A.L0TZ. CAN BND SOLDBRING MACHINE.

APPLICATION FILED owl?. 1902. l

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PATENTED NOV. 8, 1904.

A. LOTZ.

GAN END SOLDERING MACHINE.

APPLICATION FILED OCT. 17. 1902.

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UNTTBU STATES Patented November 8, 1904.

PATENT Ottica.

AUGUSTUS LOTZ, OF SAN FRANCISCO, CALIFORNIA, ASSIGNOR TO AMERI- CAN CAN COMPANY, OF SAN FRANCISCO, CALIFORNIA, A CORPORA- TION OF NEV JERSEY.

GAN-END-SOLDERING MACHINE.

SPECIFICATION forming part of Letters Patent No. 774,483, dated November 8, 1904.

Application filed October 17, 1902.

To all whom it mfr/7] cmd/cern:

Be it known that I, AUGUSTUS LOTZ, a citizen of the United States, residing in the city and county of San Francisco, State of California, have invented certain new and useful Improvements in Can e End Soldering Machines; and I do hereby declare that the following is a full, clear, and exact description The present invention relates to that class of can-soldering machines known as endsolderers, or such as solder the ends or heads onto the ends of the body, the object of the invention being the production of a machine by the use of which the solder required to unite the heads onto the can-body will be reduced to a minimum, thereby lessening the cost of manufacturing cans, also to provide a machine which will permit of the cans being handled with rapidity.

To comprehend the invention, reference should be had to the accompanying sheets of drawings, wherein-- Figure 1 is a side view'in elevation of the entire machine. Fig. 2 is an end view in elevation viewed from the feed end of the machine, the can-conveyer belt, the can-feed'runway, and the discharge-runway being broken away. Fig. 3 is a vertical sectional end view on line a: a', Fig. 1, viewed from the discharge end of the machine.

In the drawings the numerals 1 2 are used to indicate the end pieces of the machine, which are united by suitable connecting side pieces 3. However, any desired form of supporting-frame may be employed.

To the brackets 4 5 are adjustably connected the supporting-plates 6 7, between which plates are mounted the rolls 8 9, working in the bearings 10 of the plates 6 7. Over these rolls work the endless can-conveying belt 11, which bclt shall hereinafter be referred to as the i feed-belt. This feed-belt is driven by any suitable mechanism, preferably by means of a power-belt working' over the belt-wheel 12, secured to axle of the roll 8. The underrun of the feed-belt is held downward by means of a series of weight-rolls 13, each of Serial No. 127,622. (No model.)

which is secured to an arm 13', hinged to the parallel plates 6 7.

From the plates 6 7 upwardly extend the supporting-brackets 14 14, between which are mounted the conveyer-rolls 15 15. These rolls drive the endless conveyer-belt 16, which works thereover. The conveyer-belt is provided with a series of projecting' fingers or studs 16', which extend within the can-runway 17,- and during movement of the conveyer-belt cause travel of the cans therein.

The cans 17' are received from the inclined portion 18 of' the runway 17 onto the conveyer-belt 16, resting between the fingers or studs 16', by means of which the cans are conveyed toward and discharged into the downwardly-curved extension 18 of the runway 17 for delivery onto the hereinafter-described endless carrier.

As the cans are carried through the runway 17 the ends thereof are heated, so as to better take up the solder as carried past the solden ing mechanism. This heating of the can ends is obtained by subjecting each end of the cans, which project beyond the side edges of the endless conveyer 16, to the action vof a heating device. In the present case the heating device consists of two pieces of piping 19 19, secured to the runway 17 immediately below and in line with the projecting ends of the cans, which pipes are provided with either a series of perforations or jet-tips 2O in the up'- per face thereof. Through these outlet-openings gas, admitted thereto from pipe 20', es-

capes, which when ignited forms a series of gas-jets. These jets bear or play against the ends of the cans passed through the runway 17 and heat the same. The admission of gas to the pipes 19 19 is controlled by the valve 21, secured within pipe 20.

A short distance below the endless feed-belt 11 is located an endless carrier 21, which works over sprocket-wheels 22 22. Working in bearings 23 23 of the frame-pieces 3. Bearing 23 is slidable, so as to regulate the tension of carrier 21. This slide-bearing is adjusted by means of the adjusting-screw 24. A series of supporting-rolls 24' are secured to the endless carrier 21, onto which roll the cans as delivered by the curved extension 18 of the runway 17. The endless carrier 21 works between the solder-holding receptacles 25 25, secured within the fire-boxes 26 26, attached to the side pieces 3. Within the solder-holding receptacles 25 25' are arranged a series of solder-applying disks 27. tatably secured to the inner end of the `fulcrumed levers 27, to the outer end or' which levers the weights 28 are adjustably secured. By sliding the weights 28 inward or outward upon the levers 27 the tension of the solderapplying disk against the surface of the canbodies is regulated. By means of the adjusting or set screws 28 the downward movement of the outer end portion of the levers 27 is controlled, so that the inner end of said levers carrying the solder-applying disks cannot move beyond a given distance upward. (See Fig. 3 of the drawings.) r1`he solder-applying-disks turn freely within the sol ;lei'baths, the position thereof being' so arranged as to place the upper edge of each disk in line with that ot' the rolls 24. These solder-applying disks as the cans are carried through the machine by the action of the endless carrier and endless feed-belt bear against the ends of the can-bodies, so as to apply solder thereto at the joint made by the flange of the can heads or ends. It will be understood that the rotation of the solder-applying' disksis dependent upon the rotation of the cans carried between the endless carrier and the endless feed-belt.

Motion is imparted to the endless carrj'er 21 from the drive-pulley 29 by means of the pinion 29, secured to the drive-shaft 30, meshing with the gear 31, attached to one end of the axle 3l for the sprocket-wheel 22, Fig. 2 of the drawings. To the opposite end of the axle 31 is attached a sprocket 32, which engages with the sprocket-chain 32 in order to impart motion thereto for the purpose of d riving' the endless conveyer 16. This sprocketchain works over the sprocket-pinion 33, secured to the frameof the machine, and the sprocket-gear 33, attached to one end of the axle of roll 15, over which the endless conveyer works. By thus connecting the parts an opposite travel is imparted to the endless conveyer to that given the endless carrier.

In order to impart rotation to the cans as propelled by the endless carrier and through, so to speak, the solder-baths, the feed-belt 11, which bears upon the cans, is driven at a higher rate of speed than the endless carrier 21, causing the cans to revolve, although held against longitudinal movement by being seated between the rolls 24. These rolls, while supporting' the cans and holding' the same against longitudinal movement, reduce friction incident to the rotation of the cans. By thus rotating the cans the entire circumference thereof is exposed to the action or' the soldering mechanism, while at the same time the molten These disks are roy solder is prevented from dripping' therefrom during the cooling of the soldered ends.

Any suitable means may be employed for receiving' the soldered cans as delivered from the carrier 21. Preferably the soldered cans are delivered into the curved end 34 of the discharge runway 34, through which the cans are conveyed by the endless belt 35. This belt works over the rolls 35 352, being driven by the belt 36, working over the beltwheel 36, secured to the drive-shaft 30, and the belt-wheel 362, secured to one end of the axle 37 for the roll 35.

To prevent end slippage of the cans during travel between the feed-belt 11 and the endless carrier 24, the guide-bars 37 37Z are provided. These bars are secured to the arms 38, hinged to the frame end pieces 1 2, Figs. 2 and Z3 of the drawings. By thus hinging the end guide-bars either bar may be raised so as to permit of accessibility to the cans in order to remove same in case a damaged can should cause clogging of the line or for any other reason it becomes necessary to handle the cans while being propelled by the endless carrier.

inasmuch as the tension means for the underrun ot' the feed-belt consists of a series of hinged weights,said feed-belt will give upward in case of a can becoming jammed, thereby j in'oviding against injury to the other cans.

As the cans are carried through the soldering mechanism the solder-applying disks raise the required solder from the solder-baths and deposit a film of solder to the desired surface ot' the rotating' cans. The cans being' delivered to the soldering mechanism with their ends heated, less solder is required than where the cans are presented to the solder-applying' disks without being' heated.

The air and gas for generation of the solder-heating iiame is supplied to the burners 39, which extend within lire-boxes 26 26 by the pipes 39 These pipes connect with the pipe 10, to which the burners are connected, which pipe also connects with and supplies the requisite gas mixture to the heating-pipes 1919. Suitable valves (not shown) are provided for controlling the supply of air and gas to the burners.

The ends of the cans are iuxed and the heads applied thereto prior to delivering the cans into the machine to be soldered. By the present machine both ends are soldered at the same time, although this is an immaterial feature of the invention.

As the feed-belt is adjustable vertically the distance between the belt and the endless carrier may be readily increased or decreased, so as to regulate the machine for the soldering' of cans or' different sizes.

The initial heating feature may be omitted, it' so desired; but in such case the cans will have to be subjected to the action of the soldering mechanism for a longer time than where IOO IIO

the cans are delivered thereto with their ends heated.

Having thus described my invention, what I claim as new, and desire to protect by Letters Patent, is-

l. A can-endsoldering machine comprising a feed-belt, an endless can-carrier, solder-receptacles, devices working' therein which raise the solder and apply the same to the ends of the cans as carried past the solder-receptacle by the endless carrier, means for imparting movement to the carrier, and means for driving the feed-belt at a higher speed than the endless carrier whereby the cans are cause to revolve on the endless carrier.

2. A can-end-soldering machine comprising' an endless feed-belt, an endless can-carrier arranged below the feed-belt, a series of hinged tension devices for the feed-belt, solder-receptacles, devices working' therein which raise the solder and apply the same to the ends of the cans as carried past the solder-receptacle by the endless carrier, and means whereby the feed-belt is driven at a higher rate of speed than the can-carrier whereby the cans are caused to revolve on the endless can-carrier.

3. A can-end-soldering machine consisting of stationary solder holding receptacles, means for heating the said receptacles, a series of solder-applying disks working within the solder-holding receptacles and by means of which solder is applied to the ends of the cans, an endless carrier Which receives the cans and propels the same over the solder-applying disks, and means whereby the cans are caused to revolve on the endless carrier as propelled through the machine.

4. A can-end-soldering machine comprising' an endless carrier for the cans, means for imparting movement thereto, solder-holding receptacles, devices working therein which raise the solder and apply the same to the ends of the cans as carried forward by the endles carrier, a feed-belt arranged above the endless carrier and which frictionally engages with the cans, devices whereby vertical adjustment is permitted to be given to the feed-belt, and means whereby said belt is driven at ahigher speed than the carrier so as to cause the cans to rotate on the said carrier as conveyed through the machine.

5. In a can-end-soldering machine, the combination with the endless carrier for the cans, of a feed-belt arranged thereabove, so as to frictionally engage the cans upon the endless carrier, means for driving the endless feedbelt at a higher speed than the endless carrier whereby the cans are caused to revolve in their seats, stationary solder-holding receptacles over which the cans are propelled, and means working therein for applying the solder to the ends of the cans as carried past the solder-receptacle.

6. A can-end-soldering machine comprising soldering means, an endless carrier, for propelling the cans through the machine and in contact with the soldering means, an endless feed-conveyer arranged above the carrier so as to frictionally engage the cans of the carrier, means for driving' the feed-conveyer at a higher rate of speed than the carrier so as to cause the cans to rotate as propelled by the carrier, and hinged 'guide rails or bars for preventing endwise displacement of the cans during travel through the machine.

7. In a can-soldering machine, the combination with a stationary solder-receptacle, of a series of bodily-movable solder-applying rotatable disks therein and means for carrying and rotating the cans over the solder-receptacle in contact with the said solder-applying disks, the bodily movement of the solderap.

plying disks permitting the same to move only in the path of the rotating cans as they pass.

8. In"v a can-soldering machine, the combination with a solder-receptacle, solder-applying disks rotatable therein and means for rotating and conveying the cans along and in fonlact with the rotatable solder-applying c 1s s.

In witness whereof I have hereunto set my hand.

AUGUSTUS LOTZ.

vWitnesses:

N. A. AOKER, D. B. RICHARDS.