Claims
- 1. A method for replacing broken conveyor belt means with intact conveyor belt means in a stacker apparatus used for the formation of aligned stacks of signatures from one or more incoming streams of partially overlapping signatures in shingled form, said stacker apparatus having
- a.) an outer framework having an input end and an output end; and
- b.) means for accepting at least one stream of partially overlapping signatures in shingled form at the input end and passing said signatures to compression conveyor means; and
- c.) said compression conveyor means being adjacent to and in line with the input end of the outer framework; said compression conveyor means having first and second floating conveyor belt means in compressing opposition to one another; said compression conveyor means following an upward arcuate path from the input end to the output end defined by a plurality of idler rollers mounted in juxtaposition to one of said conveyor belt means; said compression conveyor means being capable of transferring said partially overlapping signatures in shingled form from said input end to said output end between said first and said second conveyor belt means; and
- d.) a receiving station located adjacent to and in line with the compression conveyor means at the output end of the outer framework, said receiving station guiding successive signatures into aligned stacking registry with one another; and
- e.) means for driving the compression conveyor means along said path,
- the method comprising mounting said idler rollers to said outer framework by quick release mounting means; releasing said idler rollers from said outer framework via said quick release mounting means to form a space between said rollers and said outer framework; removing broken conveyor belt means; winding intact conveyor belt means through said space and juxtapositioning said intact conveyor belt means with said idler rollers; and re-mounting said rollers to said outer framework with said quick release mounting means.
- 2. The method of claim 1 wherein the means for driving the compression conveyor means comprises at least one drive shaft pulley assembly mounted on said outer framework which engages said compression conveyor means, the method further comprising either a or b:
- a.) mounting said at least one drive shaft pulley assembly to said outer framework by a quickly releasable bearing; releasing said drive shaft pulley assembly from said outer framework via said bearing to form a space between said drive shaft pulley assembly and said outer framework; removing broken conveyor belt means; winding an intact compression conveyor means through said space and juxtapositioning said intact conveyor belt means with said drive shaft pulley assembly; and re-mounting said drive shaft pulley assembly to said outer framework with said quickly releasable bearing; and
- b.) mounting said at least one drive shaft pulley assembly to said outer framework and wherein said drive shaft pulley assembly comprises quickly releasable connector means intermediate to ends of and spanning said drive shaft pulley assembly; releasing said connector means thereby forming a space between the ends of the drive shaft pulley assembly; removing broken conveyor belt means; winding an intact compression conveyor means through said space and juxtapositioning said intact conveyor belt means with said drive shaft pulley assembly; and reconnecting said drive shaft pulley assembly with said quickly releasable connector means.
- 3. The method of claim 2 wherein said quickly releasable bearing is a two bolt flanged bearing with a screw clamp collar.
- 4. The method of claim 1 wherein each idler roller has a central shaft extending longitudinally therethrough and a pair of ends; one of said ends being mounted for rotation on said outer framework and the other end being mounted to an inner framework, said inner framework being mounted to said outer framework by quick release mounting means.
- 5. The method of claim 4 wherein the means for driving the compression conveyor means comprises at least one drive shaft pulley assembly mounted on said outer framework which engages said compression conveyor means, the method further comprising either a or b:
- a.) mounting said at least one drive shaft pulley assembly to said outer framework by a quickly releasable bearing; releasing said drive shaft pulley assembly from said outer framework via said bearing to form a space between said drive shaft pulley assembly and said outer framework; removing broken conveyor belt means; winding an intact conveyor belt means through said space and juxtapositioning said intact conveyor belt means with said drive shaft pulley assembly; and re-mounting said drive shaft pulley assembly to said outer framework with said quickly releasable bearing; and
- b.) mounting said at least one drive shaft pulley assembly to said outer framework and wherein said drive shaft pulley assembly comprises quickly releasable connector means intermediate ends of and spanning said drive shaft pulley assembly; releasing said connector means thereby forming a space between the ends of the drive shaft pulley assembly; removing said broken conveyor belt means; winding an intact conveyor belt means through said space and juxtapositioning said intact conveyor belt means with said drive shaft pulley assembly; and re-connecting said drive shaft pulley assembly with said quickly releasable connector means.
- 6. The method of claim 5 wherein said quickly releasable bearing is a two bolt flanged bearing with a screw clamp collar.
- 7. The method of claim 4 wherein said inner framework has an arcuate configuration complementary to said upward arcuate path.
- 8. The method of claim 1 wherein said compression conveyor means comprises at least one timing belt.
- 9. A method for replacing a broken endless conveyor belt with an intact endless conveyor belt in a conveyor apparatus, which apparatus has a plurality of rollers mounted for rotation therein, the method comprising mounting said rollers for rotation within an inner framework, mounting said inner framework to an outer framework by quick release mounting means; releasing said inner framework from said outer framework via said quick release mounting means to form a space between said inner framework and said outer framework; removing said broken conveyor belt; winding said intact endless conveyor belt through said space and juxtapositioning said intact endless conveyor belt with said rollers; and re-mounting said inner framework to said outer framework with said quick release mounting means.
Parent Case Info
This is a divisional of application Ser. No. 08/009,774 filed on Jan. 27, 1993 now U.S. Pat. No. 5,380,148.
US Referenced Citations (21)
Divisions (1)
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Number |
Date |
Country |
Parent |
09774 |
Jan 1993 |
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