Model UVGMD-ALCC R&D Vacuum Seamer

INSTALLATION INSTRUCTIONS

BEFORE OPERATING YOUR DIXIE DOUBLE SEAMER REVIEW THE OPERATOR,S MANUAL, supplementary information pertaining to the Vacuum Pump, Regulator, Motors and other auxiliary or accessory items furnished with this machine.

1. Position the machine and secure to floor.
2. Fill the port on the vacuum pump to the recommended level. A small container of Vacuum Pump Oil is supplied with the seamer.
3. Plug the electrical cord into a 20 amp outlet.
4. Connect air supply to the 1/4" quick-connect fitting on the rear of the seamer. The external air supply must not exceed 125 psi but should not be less than 100 psi. DO NOT CHANGE THE settings of the air regulator on the seamer which has been preset by the factory.
5. For models with gas flush or multiflush modes, connect an external gas tank or cylinder and a regulator to the 3/4" opening of the #666 solenoid valve located on the right side of the seamer just above the #412 Clear-Vu Filter. (The gas tank and regulator are not provided and should be obtained locally.)
6. Lubricate/grease all locations on the seamer indicated in your Operators Manual.
7. Turn on electrical and air supplies. Remove the sample seamed can from the vacuum chamber. (Change parts are installed on the seamer for closing the sample seamed container. Follow the instructions in your Operators Manual for changing from one size can to another.)

EXPORT INSTALLATION
WHEN EQUIPPED WITH TRANSFORMER AND 220-50-1 VACUUM PUMP

1. Position the machine and secure to floor.
2. Fill the port on the vacuum pump to the recommended level. A small container of Vacuum Pump Oil is supplied with the seamer.
3. Two electrical connections are required.
     A.  Connect 220 volts, 50 Hz, 1-Phase electrical supply to the transformer. This will operate the gearhead motor of on the seamer.
     B.  Connect 220 volts, 50 Hz, 1-Phase electrical supply to the vacuum pump motor.
4. Connect air supply to the 1/4" quick-connect fitting on the rear of the seamer. The external air supply must not exceed 125 psi but should not be less than 100 psi. DO NOT CHANGE THE settings of the air regulator on the seamer which has been preset by the factory.
5. For models with gas flush or multiflush modes, connect an external gas tank or cylinder and a regulator to the 3/4" opening of the #666 solenoid valve located on the right side of the seamer just above the #412 Clear-Vu Filter. (The gas tank and regulator are not provided and should be obtained locally.)
6. Lubricate/grease all locations on the seamer indicated in your Operators Manual.
7. Turn on electrical and air supplies. Remove the sample seamed can from the vacuum chamber. (Change parts are installed on the seamer for closing the sample seamed container. Follow the instructions in your Operators Manual for changing from one size can to another.)

The Dixie R&D Model UVGMD-ALCC offers your choice of atmospheric, vacuum only, vacuum then gas, or multiflush double seaming.

RANGE: 1½" to 6¼" diameter, up to 7" tall.
Change parts are required for each size can.

BEFORE OPERATING YOUR DIXIE DOUBLE SEAMER REVIEW THIS MANUAL and supplementary information pertaining to the Vacuum Pump and other accessory items, if any. Also make certain that:

1. The machine is properly connected to your electrical supply.
2. Auxiliary and accessory items are properly attached.
3. Oil filling port on the vacuum pump is filled to recommended levels.
   *IMPORTANT* Use only SAE 20 motor oil. Capacity is 0.5 quart.
4. All moving parts are oiled. These parts will require periodical oiling to prevent unnecessary wear.
5. The machine is properly adjusted for the cans to be closed. Inspect machine adjustments periodically to assure proper results.
6. The machine is cleaned and oiled as needed. Give special attention to servicing before and after a period of inactivity or storage.

Pull red ON/OFF switch to supply power to the machine. The Command Center will initialize and perform self-test. The Command Center screen will display the currently selected Operating Mode. Select or change the Operating Mode as follows.

ATMOSPHERIC:

Press the F1 function key to select ATMOSPHERIC Mode. Position lid and can. Press the ENTER key or simply close the chamber door to start the seaming cycle. When machine stops, remove can. The chamber door remains open if the ENTER key is used.
 

VACUUM ONLY:

Press the F2 key to select VACUUM ONLY mode. Position lid and can; close door. The preset vacuum value is performed; the can is lifted and double seamed automatically then stops turning: remaining chamber vacuum is released. Operator opens door, removes can and repeats the operation.

Preset desired vacuum value (P1) as per instructions on following section describing the Digital Vacuum and Gas Programer (648).
 

VACUUM THEN GAS:

Press the F3 key to select VACUUM THEN GAS mode. Position lid and can; close door. The preset vacuum and gas values are performed; the can is lifted and double seamed automatically then stops turning: remaining chamber vacuum is released. Operator opens door, removes can and repeats the operation.

Preset desired vacuum and gas values (P1 + P2) as per instructions on page 3 for the Digital Vacuum and Gas Programer (648). Also, refer to any instructions provided with your gas regulator [Gas regulator and tank are not provided by Dixie Canner].
 

MULTIFLUSH:

Press the F4 key to select MULTIFLUSH mode. Position lid and can; close door. The preset sequences of vacuum and gas values are performed; the can is lifted and double seamed automatically then stops turning: remaining chamber vacuum is released. Operator opens door, removes can and repeats the operation.

Preset desired vacuum and gas values (P1 + P2 and P3 + P4) as per instructions on page 3 for the Digital Vacuum and Gas Programer (648). Also, refer to any instructions provided with your gas regulator [Gas regulator and tank are not provided by Dixie Canner]. The factory has preset the "hold" time for both vacuum and gas values at 0.1 second, unless otherwise specified at time of order; (i.e., the vacuum value(s) will be held for 0.1 second before another operation is performed and/or the gas value(s) will be held for 0.1 second before another operation is performed or the container is double seamed. The "hold" time for vacuum and gas values may be changed in 0.1 increments up to 9.9 seconds as outlined on the following page. The maximum number of possible multi flushes is 10.

When selecting the number of multiflushes you wish to perform, please follow the guidelines outlined in the following charts as examples. As notated, if the desired number of times selected to perform the vacuum and gas values is and ODD number, then P3 can not be a greater value than P1. [ The values for P1 and P3 are set with the 648 Digital Programer].

Important considerations when choosing the number of multiflushes and preset vacuum/gas values are:

• When in the Multiflush mode, the Model UVGMD-ALCC will only close after either a P3 or P4 value is performed.
• If you desire to pull vacuum one time then close your container, select the Vacuum Only operating mode ­ only P1 is performed.
• If you desire to pull vacuum one time then gas flush one time, select the Vacuum Then Gas operating mode ­ only P1 and P2 are performed.
• P3 and P4 values are only effective in the Multiflush mode.

Note: If the seamer should continue to pull vacuum or attempt to close the container repetitively, turn the power to the machine off and on two or three time in rapid succession to stop the repetitive action. Before resuming seaming functions, check the preset values on the 648 Digital Programer and/or the number of times selected to perform P1 + P2 on the Command Center screen.
 

EXAMPLES OF MULTIFLUSH OPERATIONS WHEN NUMBER OF TIMES TO PERFORM P1 + P2 IS SET AT AN ODD VALUE
No. of Times to Perform Set Values		Vacuum then Gas Sequences	Closes After	Sequence of Vacuum and Gas Values
P1 + P2*	P3 + P4
1	1	VAC GAS	GAS	P1, P4
1	2	VAC GAS VAC	VAC	P1, P2, P3
1	3	VAC GAS VAC GAS	GAS	P1, P2, P3, P4
1	4	VAC GAS VAC GAS VAC	VAC	P1, P2, P3, P2, P3
1	5	VAC GAS VAC GAS VAC GAS	GAS	P1, P2, P3, P2, P3, P4
1	up to 10	... etc.	... etc.	... etc.
3	1	VAC GAS VAC GAS	GAS	P1, P2, P1, P4
3	2	VAC GAS VAC GAS VAC	VAC	P1, P2, P1, P2, P3
3	3	VAC GAS VAC GAS VAC GAS	GAS	P1, P2, P1, P2, P3, P4
3	up to 10	... etc.	... etc.	... etc.
* When "Number of Times to Perform P1+P2" is an odd number [value set on Command Center Screen], then P3 can not be greater than P1 [values set with 648 Digital Programer].

 

EXAMPLES OF MULTIFLUSH OPERATIONS WHEN NUMBER OF TIMES TO PERFORM P1 + P2 IS SET AT AN EVEN VALUE
No. of Times to Perform Set Values		Vacuum then Gas Sequences	Closes After	Sequence of Vacuum and Gas Values
P1 + P2*	P3 + P4
2	1	VAC GAS VAC	VAC	P1, P2, P3
2	2	VAC GAS VAC GAS	GAS	P1, P2, P3, P4
2	3	VAC GAS VAC GAS VAC	VAC	P1, P2, P3, P4, P3
2	4	VAC GAS VAC GAS VAC GAS	GAS	P1, P2, P3, P4, P3, P4
2	up to 10	... etc.	... etc.	... etc.
4	3	VAC GAS VAC GAS VAC GAS VAC	VAC	P1, P2, P1, P2, P3, P4, P3
4	4	VAC GAS VAC GAS VAC GAS VAC GAS	GAS	P1, P2, P1, P2, P3, P4, P3, P4
4	5	VAC GAS VAC GAS VAC GAS VAC GAS VAC	VAC	P1, P2, P1, P2, P3, P4, P3, P4, P3
4	up to 10	... etc.	... etc.	... etc.
* When "Number of Times to Perform P1+P2" is an even number [value set on Command Center Screen], then P3 can be greater than, less than, or equal to P1 [values set with 648 Digital Programer].

The Multiversa Command Center is used to select the operating mode and to reprogram the number of operations for vacuum/gas flushes or to change the "hold" time for vacuum and/or gas values. This unit will display the current operating mode, then change to advise what function is currently being performed during the seaming cycle. The following section describes the functions of the Command Center keys.
 
 
 

, , , : These keys are used to select the Operating Mode as described under Operations.

: The Selection key allow the operator to view the total number of cans seamed in each mode. Continue to press the Selection key to view all menu totals. This will display the total number of cans seamed during each mode, and provide a grand total of cans seamed since the totals were last cleared. All mode totals may be cleared by pressing the Clear key . Pressing the Enter key to return to the current Operating Mode.

: Press the Dixie Logo key twice to enter PROGRAM MODE. The screen will display the current settings for the number of vacuum/gas flushes for the preset P1+P2 and/or P3+P4 vacuum and gas values, and the programed delay for holding vacuum or gas. Use the Selection key to display these menu settings, then use the Plus or Minus keys to increase or decrease the setting. Save the new settings by pressing the Enter key . NOTE: Vacuum (P1 and P3) and gas values (P2 and P4) are set with the Digital Programer (648) as described under the following heading on this page.

: The Enter key is use to store or save settings. In Atmospheric Mode pressing the Enter key activates the seaming cycle.

: The Clear key is used to clear counts of cans closed all operating mode, or to reset the Command Center as described below.

The Command Center is programed to advise pause operation each time 5,000 cans have been closed. The Command Center screen will display the message "Press to Clear." This should remind the operator to "CLEAN AND OIL MACHINE." When the message "Press to Clear" is displayed, the operator should perform necessary maintenance before clearing the message and resetting the Command Center.

NOTE: The machine will not operate while the "Press to Clear" message is being displayed; the Command Center must be reset to resume operation. To reset, press the Clear Key ; turn power to machine off and then back on. Turning power off before pressing the Clear key will not reset the Command Center.

The 648 Digital Vacuum and Gas Programer reads in inches of Hg. Calibrations are in increments of 0.2" Hg. The vacuum pump is rated 29.8" Hg; the maximum recommended vacuum value which may be entered is 29.8" Hg. The lowest recommended value for setting vacuum or gas is 1" Hg. [ The 648-1 Digital Vacuum and Gas Programer is rated ±0.5% accuracy.] Use your finger to set a desired value in the program as explained below.

1. Press the SET button until is indicated (within 1 sec.) NOTE: Release the SET button immediately once has appeared to avoid changing the factory programing.
    
2. Press the SET button until P1 appears on the display followed by the current P1 value. (In the diagram above, 15 represents the current setting for the P1 mode). Release the SET button.
   
   Proceed to Step 3 if you do not want to change the current setting for P1.
   
   Press the key to increase the vacuum value for P1, or press the key to decrease the vacuum value for P1.
    
3. Press the SET button until P2 appears on the display followed by the current P2 value. Release the SET button.
   
   Proceed to Step 4 if you do not want to change the current setting for P2.
   
   Press the key to increase the gas value for P2, or press the key to decrease the gas value for P2.
    
4. Press the SET button until P3 appears on the display followed by the current P3 value. Release the SET button.
   
   Proceed to Step 5 if you do not want to change the current setting for P3.
   
   Press the key to increase the vacuum value for P3, or press the key to decrease the vacuum value for P3.
    
5. Press the SET button until P4 appears on the display followed by the current P4 value. Release the SET button.
   
   Proceed to Step 6 if you do not want to change the current setting for P4.
   
   Press the key to increase the gas value for P4, or press the key to decrease the gas value for P4.
    
6. Press the SET button again. The display will show" 0." The vacuum and gas values selected in the previous steps are now programed into memory and the procedure is complete.

Example - Vacuum Only:

A.  Set the digital programer to stop the vacuum pump at 18" Hg by setting the P1 mode at 18.

B.  See OPERATION for seaming instructions.
 

Example - Vacuum Then Gas:

A.  Set the digital programer to stop the vacuum pump at 20" Hg by setting the P1 mode at 20.

B.  Set the digital programer to replace vacuum (with gas) to 5" Hg by setting the P2 mode at 5.

C.  See OPERATION for seaming instructions.
 

Example - Multiflush:

A.  Set the digital programer to stop the vacuum pump at 25" Hg by setting the P1 mode at 25.

B.  Set the digital programer to replace vacuum (with gas) to 5" Hg by setting the P2 mode at 5.

C.  Set the digital programer to stop the vacuum pump at 20" Hg by setting the P3 mode at 20.

D.  Set the digital programer to replace vacuum (with gas) to 5" Hg by setting the P4 mode at 5.

E.  See OPERATION for seaming instructions.

NOTE:  The number of times the P1 + P2 and P3 + P4 vacuum and gas values will be performed (i.e., number of flushes) is set with the Command Center.

NOTE:  The 648 Digital Vacuum/Gas Programer should display "0" when the machine is turned on under atmospheric conditions. If the display fails to read "0," reset by pressing the and key simultaneously.

(Above examples may be adjusted to change high and low vacuum/gas settings within the entire range.)

CHANGING DIGITAL PROGRAMER (648) TO DISPLAY mm Hg

The 648 Digital Programmer may be programmed to display millimeters of Hg. To change the display settings:

1. Press and hold the SET button until the display reads the current setting. Release the SET button.
2. Press the or key until the display reads mm Hg.
3. Press the SET button to store your changes to the display mode.

Set desired values as per above instructions, substituting mm Hg values for in Hg values. (NOTE: A convenient equation is 25 x in Hg=mm Hg.)

CLUTCH/BRAKE/SOLENOID ASSEMBLY
WARNING: The clutch/brake/ solenoid assembly is very complex. We recommend replacing the entire assembly (502-1) and returning the defective unit for factory repair for later use as a spare. Care should be used when removing this unit to avoid irreparable damage. See separate section for more information on this assembly.

Recommended air supply is 80-100 psi maximum. Different types of containers may require specific psi settings. The air pressure filter/regulator (816) on your machine has been set at the factory for the sample containers submitted with your order. If you find your air supply is inconsistent, or if you change containers or lids, you may need to adjust the air pressure filter/regulator. Too much air pressure may cause your container to crush your lid against the chuck. Too little air pressure will not lift the container against the lid properly. Any adjustments to the air pressure regulator should be made in small increments until a satisfactory pressure is achieved.

As a general rule, composite containers require a pressure setting of 70 psi; aluminum containers, 85 psi; and tin or steel containers require about 95 psi. However, particular container types may require minimal experimentation to determine the optimum pressure setting.

To set or change the air pressure, pull up on the black knob on top of the regulator until the orange band is visible. Turning the adjustment knob clockwise increases the pressure and turning the knob counterclockwise reduces the pressure. Adjust as necessary while observing the pressure gauge. Do not exceed 100 psi. Push down on the adjustment knob to lock air filter/regulator at selected psi to prevent accidental setting change.

The filter element should be changed after 1 year or when a pressure drop of 15 psi is reached. Periodically observe condensate level through sight glass in filter and manually drain as needed.

NOTE: Sufficient air pressure must be provided to cause the plunger of the air lift assembly (803) to extend to its locked position. Do not exceed 100 psi.
 

 
 
Proper base plate pressure is required to produce essential body hook, and also prevents slipping during the seaming cycle.

Initially, the machine was set-up and adjusted to close cans size 603 x 700 then changed and tested for closing other size cans. Before shipping the machine was equipped and tested to close the cans specified on your order. To make minute adjustments in base plate pressure or to change to cans shorter than 7" proceed as follows:

1. Cans 7" tall do not require a height spacer. Base plate pressure adjustments are made by loosening the 5/16" nut at the base of the 805 lift shaft then turning the lift shaft with a 5/8" open-end wrench at the "flats" on the lift shaft.
    
2. Cans shorter than 7" require a height spacer and a separate base plate which has an adjusting screw (57) and set screw (56) in it's stem. After loosening the set screw with a screwdriver inserted into the hole, the adjusting screw can be turned with fingers or carefully with pliers to the proper setting. CAUTION: If using pliers or nippers to turn the adjusting screw, be careful not to damage threads.

After making adjustments, tighten jam nuts or set screw.

There are ten (10) revolutions per seaming cycle, five (5) for each seaming roll. The function of the first operation seam roll is to curl the cover hook and body hook into proper position. The second operation seam roll is to complete the sealing of the can.

1. Put machine in neutral position.
    
2. With power ON, press and release the actuator on the clutch/brake assembly four (4) times. Turn machine OFF, then press the actuator ONE more time to release the clutch brake. Then manually turn the clutch ONE HALF revolution. Grasp the collar (508) by hand, OR, use a wrench to turn the chuck shaft, to turn the assembly in a clockwise direction. These 4½ revolutions of the clutch/brake assembly places the first operation seam roll in its innermost position with the chuck.
    
3. While power to machine remains OFF, loosen lock nut (16) and adjust set screw (17-A) until the first operation seam roll is snugly in position with the chuck. While holding the first operation gauge wire (40) in position between the chuck lip and the ground profile of the first operation seam roll, tighten the lock nut. The larger diameter gauge wire (40) is the approximate THICKNESS of the first operation seam. Final adjustments may be made after a can is closed and the double seam inspected.

1. Turn power to machine ON which will automatically complete the fifth revolution. Press and release the actuator FOUR times and turn power to machine OFF. This is a total of nine (9) revolutions from the beginning and puts the second operation seam roll into its innermost position with the chuck.
    
2. Using your wrench and screwdriver, adjust the second operation seam roll into position. Use the second operation gauge wire (41) to fit the seam roll snugly in position with the chuck then tighten the lock nut. The small diameter gauge wire (41) represents the approximate THICKNESS of the second roll seam. Final adjustments may be made after a can is closed and the double seam inspected.
    
3. Press the actuator ONE time and turn power to machine ON to complete the 10th revolution and cycle. This will return the machine to its neutral position.
    
4. Close a can, tear down and inspect the double seam. Make final adjustments of the seaming rolls and base plate pressure to produce essential body hook, cover hook, overlap and tightness recommended by the container manufacturer or for a hermetically sealed can. NOTE: If you are unable to obtain the essential measurements recommended or a hermetically seamed container, you may need seam rolls with different profiles.

Change parts consisting of a chuck, a base plate and a height spacer may be required for each different can diameter, top or style. Also, a different set of seaming rolls may be required for each. Your can manufacturer or supplier may recommend the seam roll profiles for your cans. Dixie stocks or may be able to furnish the seam roll profile needed. Therefore, make sure you have the correct change parts available when changing your machine from one can size to another, then proceed as follows:

1. Put seam rolls in neutral position.
    
2. Loosen lock nuts (16) and adjust set screws (17-A) until both seaming roll levers (206) are back as far as they will go. If needed, change seaming rolls and/or reposition seam levers on the splined shafts (204). Leave the seaming roll levers backed into this position until after the chuck has been changed.
    
3. Change chucks. Make certain that the new chuck is properly tightened into position against the shoulder of the chuck shaft. CAUTION: (a) Use an open end wrench at the flat surface on the chuck shaft and the chuck wrench while loosening or tightening the chuck. Otherwise, the clutch/brake unit may be damaged. (b) If it is necessary to reposition 206 and 204, make certain the lip of each seaming roll runs freely in the chuck groove when in their innermost (seaming) position after the cap screws (322) are tightened.
   

   CHANGING CHUCKS
     To remove the chuck, hold the chuck shaft with a 5/8" wrench on the cut side of the shaft, located in the exposed area under the gear housing. Then place the two pins of the chuck wrench (44) provided with your seamer) into two of the four holes located on the bottom of the chuck. [The pins of the chuck wrench will fit into either diagonal or adjacent holes depending on the diameter of the chuck.] To loosen, turn the chuck to the left. Finish removing the chuck by hand.
    
   To install a new chuck, hold the chuck shaft with a 5/8" wrench, as described above, while using your hand to thread the chuck onto the lower end of the chuck shaft. Turn to the right to thread the chuck onto the chuck shaft. Use the chuck wrench, as described above, to tighten snugly.

4. When necessary remove and reset the seam roll levers (206) so the seam rolls will be about 1/2" from the chuck lip. Minimum travel of the seam roll levers is desired when turning the adjusting screws. CAUTION: Use a box wrench to loosen or tighten the bolt securing the seaming roll levers in position on the splined seam roll lever drive shaft. After tightening the bolt make certain that the lip of each seaming roll runs freely in the chuck groove when they are in their innermost (seaming) position and if necessary repeat the adjustment until the seaming roll levers are properly secured into position on the splined shaft.
    
5. Install the proper base plate and height spacer for the can to be closed. Adjust the base pressure and seaming rolls as outlined above.

The purpose of the can top retainer (201-5) is to hold the can top in position on the chuck, separated from the can, when desired. It is adjusted into position as follows:

1. After the machine has been properly equipped and adjusted for the size cans to be closed, place can top snugly into position on the chuck.
    
2. Adjust the can top retainer so the plunger is snugly against the can top curled edge and tighten the thumb screw.
    
3. If necessary, relocate the thumb screw to another hole. This allows a greater range of adjustments. Minute adjustments may be made by adjusting the lock nut and plunger.

Magnets are pressed in chucks fabricated for steel or tin can tops to hold the tops in position on the chuck. The can top retainers are not used for chucks with magnets.

The machine is in a neutral position when both cam rolls (20) are in their innermost position and both seaming rolls are in their outermost position.

"Timing" and "in a neutral position" are synonymous. The machine is properly timed (or in neutral position) when both cam rolls (D-20) are at their innermost position and both seaming rolls (1st and 2nd) are at their outermost position. There are ten (10) revolutions per seaming cycle. Therefore, with power to the machine ON, by pressing the actuator on the clutch/brake assembly to turn the clutch/brake assembly one revolution at a time, the machine will have been "timed" by or before the 9th revolution. Then turn the power OFF, which allows the revolutions counter to "reset" while the machine is in a neutral position. Turn power ON again and continue closing cans.

If it should be necessary to turn the clutch/brake assembly less that a full revolution, proceed as follows. Turn power to machine OFF. Press the actuator one time to release the clutch brake. Grasp the collar (508) by hand, OR, use a wrench to turn the chuck shaft, to turn the assembly in a clockwise direction as needed. Turn power to machine ON and verify that the machine is now in time.

• If machine stops and door won't open, turn power OFF then ON again which will allow the vacuum in the chamber to be released so door may be opened. Check machine for proper adjustments before resuming operation.
   
• When 5,000 cans have been closed, the machine will stop; "Press to Clear" will appear on the screen. After you clean and oil the machine, press and turn off power to machine. Then turn power back on to machine and resume closing your cans. NOTE: Machine should be cleaned and oiled daily or before moving parts run dry. This is just another reminder of the importance of proper maintenance.
   
• Machine won't operate:
  1. Solenoid (666) in vacuum and gas pipes won't open or close, or the solenoid in the clutch-brake assembly (502-1) doesn't work.
  2. Air lift doesn't work, or
  3. Direct Drive Motor doesn't run -- check FUSES. Open electrical box on rear of machine. Study the schematic drawing on the inside of the door, which details the fuses (3) and their individual function. The black, 3-section fuse box is located at the bottom-right section in the electrical box. Each of the sections have two (2) fuses -- one is a spare. Proceed to replace the top fuse, one section at a time until problem is solved. Order spare fuses as needed. NOTE: Two fuses are 4 amp and one is 10 amp.

IF PROBLEM is not a "blown" fuse, your electrician may locate and correct a loose connection in the wiring -- or contact the factory.

• Vacuum pump "labors" or cuts off. 1st, check filter (412) and clean if dirty. 2nd, disconnect the union between the filter and vacuum chamber, then swivel elbow to expose inside of pipe and if clogged, clean and reconnect the union.
• Oil in the vacuum pump should be changed after 500 operating hours or every three months, whichever comes first.
• Machine won't stop, continues running. Check the clutch-brake (502-1) to see if the Magnet (664-A) is in place. The Sensor (664) needs the magnet in place on the clutch-brake to count each revolution. Use "Krazy Glue" to replace the magnet if needed.
• Power "accidentally" turned OFF during a seaming cycle will cause the machine to be "out of time" or "not in neutral."
• Close door and machine does NOT start: (659) switch and (659-1) magnet on door may be out of alignment. Realign and adjust to " space when door is closed.
• You may wish to connect your seamer to a power surge suppresser if your electrical supply is subject to electrical spikes or surges.

Photographs or schematics of parts, assemblies, machine sections, base plates and height spacers with the corresponding part number are shown on other pages. A Parts/Price List is furnished separately. When ordering parts, always furnish both the part number and the name of the part. When ordering change parts for cans, always send six (6) loose tops and can bodies of the size can(s) to be closed.

A complete stock of parts is maintained by Dixie Canner Company, Athens, Georgia, USA. Parts may be ordered as needed to replace worn or damaged parts.

Your Dixie Model UVGMD-ALCC Multiversa Can Packaging Machine may be returned to Athens, Georgia for a complete rebuilding at a nominal service charge, plus the cost of parts needed. When returning the machine for the rebuilding service please observe the following:

1. Return the complete machine and include several cans and tops of the exact size and type closed. Properly crate the machine and cans for safe delivery and return shipment, and prepay the shipping cost.
2. Write a letter authorizing the rebuilding service and mention any problem with the machine. Also mention particular instructions concerning return shipment, urgency, and other pertinent instructions.

Until the operator is familiar with the mechanics of your can closing machine and learns to recognize irregularities in the essential requirements of the double seam, the outline below is intended to help notice obvious defects and list some causes that may serve as a guide in correcting minor troubles.

A.  Can slips during seaming operation

1.  Damage or lack of oil in the base plate, lift shaft, height spacer or steel ball

2.  Insufficient base plate pressure

3.  Worn or wrong size chuck

4.  Seaming rolls binding on pins

B.  Machine operates with undue noise or "locks"

1.  Machine not properly timed

C.  Unusually loose seaming rolls

1.  Seaming roll or pins worn

D.  Seaming rolls do not return to neutral position

1.  Seaming roll levers binding

2.  Seaming lever spring weak or broken

3.  Machine not properly timed

E.  Machine seems to "labor" or freeze tight

1.  Needs oil

2.  Too much base plate pressure

3.  Seaming rolls too tight

4.  Misalignment of moving parts

A.  Cut over. Unusually sharp edge at top inside edge of seam

1.  1st or 2nd operation seam roll set too tight

2.  Worn seam rolls or worn chuck

B.  Cut or fractured seam

1.  Seam rolls set too tight

C.  Droop or lap in double seam at or near can body side seam

1.  Too much base pressure

2.  1st operation seam roll set too loose

3.  Worn 1st operation seam roll

D.  Excessive countersink depth

1.  Too much base pressure

2.  1st operation seam roll set too loose

3.  Chuck not properly seated in can top

4.  Chuck groove worn

E.  False seam. Body hook and cover hook do not overlap

1.  Can top not properly seated on can

2.  Damaged can flange or can top curl

F.  Long body hook

1.  Too much base pressure

G.  Long cover hook

1.  1st operation seam roll set too tight

H.  Short body hook

1.  Insufficient base pressure

2.  1st operation seam roll set too tight

3.  2nd operation seam roll set too loose

I.  Short cover hook

1.  Too much base pressure

2.  1st operation seam roll set too loose

3.  Worn 1st operation seam roll

4.  Excessive countersink depth

J.  Cover hook or body hook not uniform

1.  Base plate or plunger worn

2.  Chuck or seam rolls out of alignment

K.  Droops, vees, wrinkles

1.  Excessive base pressure

2.  1st operation seam roll too loose or worn

3.  2nd operation seam roll too tight

4.  Defects in can body or top

5.  Incorrect seam roll profiles