At least one embodiment of the present invention relates to a method of aligning a flat or profiled metal sheet with preformed notches directly opposite to each other on two sides of a sheet. In particular, in at least one embodiment, there is a profiled HVAC ducting sheet which is configured to be shaped by a rollformer which requires the first fold line of the metal sheet to be properly aligned on the folding line of the mechanical folder for accurate folding of the profiled metal sheet. The rollformer has two sets of rollers which move the metal sheet while forming the profile on the flat sheet with preformed notches.
Currently, in the production line of HVAC duct fabrication, the process from a profile formed on the preformed notched flat metal sheet by a rollformer to the next process of folding the profiled metal sheet by a folder, the folder is not directly joined or linked together with the rollformer.
Before feeding the profiled metal sheet from exiting the rollformer into the folder, there is either a mechanical transfer table as a go between to link and join the rollformer and the folder together, or if the rollformer and the folder are separated, not linked nor joined; manpower is used to transfer the profiled metal sheet from the rollformer into the folder for folding.
Each of the exiting profiled metal sheets from the rollformer has to be aligned with its first fold line to the folding line of the folder before precise folding can be effected by the folder. This alignment can be done manually by aligning the first fold line formed from the first corresponding set of preformed notches directly opposite each other on the two sides of the metal sheet with the folding line of the folder.
Once the profiled metal sheet first fold line is aligned by sitting or positioning itself directly ontop of the folding line of the folder, the folder will carry out the first folding on the fold line and subsequent folds on the same profiled metal sheet will be carried out on the subsequent fold lines accurately as the first fold is aligned. The number of folds on the metal sheet will depend on the number of fold lines created by the preformed notches. The number of folds ranges generally from one fold which formed a L shaped product to three folds forming a box up.
Where alignment is carried out by a transfer table to align a profiled metal sheet before entering the folder, a mechanical pusher is used to square and align the metal sheet first. In manual alignment, the metal sheet is manually placed on the folder with the first fold line positioning directly ontop of the folding line of the folder.
The traditional and current solution normally provides for mechanical alignment using a transfer table with gripper and pusher or manual alignment by transferring and positioning the profiled metal sheet exiting the rollformer onto the folder.
Without the mechanical transfer table or aligning table, it will be troublesome, problematic, time and labour consuming to physically align each profiled or flat sheet on the folder.
The current or traditional solution using a transfer table or manually to align the profiled or flat metal sheet on the folder has the following disadvantage—
a) Additional space is required to place the transfer table or space required for labour to work between the rollformer and the folder;
b) Additional cost and maintenance expenses of the mechanical transferab e or the extra labour to carry out the alignment before folding or bending;
c) The additional time travelled on the transfer table or space between rollformer and the folder;
d) Additional utility cost of operating the transfer table; and
e) Extra manpower to operate the transfer table or anual alignment.
Thus, there is a need to provide a method of aligning the profiled sheet directly from the rollformer before folding by the folder which overcome the need of having the transfer table or manual feed from the rollformer to the folder and aforesaid disadvantages.
In at least one embodiment there is an aligning method for flat or profiled metal sheets with preformed notches on the two parallel sides of the metal sheet in which the direct opposite side preformed notches will match each other to create a fold line and the first fold line will have to be aligned to the folding line of mechanical folder before the folding of the metal sheet.
The profiled metal sheet first fold line has to be effectively aligned to the folding line of the folder, to avoid potential damages and disruption to the production line due to inconsistent angularity problems of the sheet when folding, thus reducing the production time and manpower in producing the folded products of HAVC ducts.
This design and process is used to negate the use of transfer table or labour for alignment of the metal sheet which translate to cost, time and space savings.
Therefore, at least one embodiment of the present invention is configured to provide an aligning method for aligning the flat or profiled metal sheet with preformed notches exiting from the rollformer machine before folding by the preceding folder machine.
The method is configured to have controllers control sensors so that they co-operate on the folder with rollformer valves and hydraulic motors, which allows the first fold line of the profiled metal sheet to be aligned with the folding line on the folder before folding.
Further features and advantages of the invention will be more apparent in light of the detailed description of a preferred, but not exclusive, embodiment of the method of aligning each of the fold lines of the metal sheet with the folding line of the mechanical folder, shown by way of non-limiting example, with the aid of the accompanying drawings in which:
In the drawings, wherein similar reference characters denote similar elements throughout the several views:
The same reference numbers in the figures identify the same elements or components.
Referring to the drawings,
For the metal sheet to be folded properly without damage, each of the fold lines 49, 50, 51 need to be aligned to the folding line 44 of the mechanical folder 52, with the metal sheet first fold line 49 sits directly on top of the folder folding line 44 for the first folding of the sheet to begin.
Subsequent folding of the metal sheet will occur on the remaining fold lines 50, 51 being aligned with the folding line 44 of the folder 52. The number of required folds on the metal sheet will be dictated by the equal number of fold lines on the metal sheet.
The aligning method encompassed the use of sensors 40, 41, 42, 43, valves 61, 65, 71, hydraulic motors 4,5 and controller 45.
The description of this method applies also to the case of alignment of plates before folding on exit from a rollformer or any conveying machine.
Aligning the preformed notched metal sheet 34 means placing or positioning each fold line 49, 50, 51 of the metal sheet 34 directly on top of the folding line 44 of the folder 52 for folding by the folder 52.
The metal sheet 34 is moved by the two working sets of rollers of the rollformer 6 to 19 & 20 to 33 for the metal sheet 34 to exit the rollformer 1 and to enter directly into the mechanical folder 52.
The two sets of rollers 6 to 19 & 20 to 33 are individually actuated by each respective hydraulic motors 4 & 5 in a series circuit.
In the series circuit, the direction of hydraulic oil flow is in one single line of flow 55-56-58-59-60-62-63-64-66-67-68-69-70-73-74-55 with the two valves 65 open and 71 closed directing this single directional continuous oil flow to the both hydraulic motors 4 & 5.
In a series circuit of oil flow the two motors 4 & 5 are actuated simultaneously hence driving the both sets of rollers moving at the same speed. If the fold line 49 of the metal sheet 34 is not parallel to the folding line 44 of the folder, there is misalignment of the metal sheet and the two set of rollers moving at the same speed which in turn move the sheet plate at the same speed will not able to correct the misalignment.
Therefore, the metal sheet first fold line 49 will not be parallel to the folding line 44 of the folder 52 which will not be aligned upon reaching the folder 52 folding line 44. Hence, all other subsequent fold lines 50, 51 if any will not be aligned too.
To adjust the alignment so that the fold line 49, 50, 51 of the metal sheet will sit or position directly above the folding line 44 of the folder 52, the motors 4,5 must move individually driving both sets of the rollers 6-19 & 20-33 at different speed in which the oil flow must be in a parallel circuit See
One method of aligning the metal sheet invention is by:
A Arranging, positioning and configuring the sensors 40, 41, 42, 43 mounted on the folder 52 to detect and track the position of the metal sheet on entering and during its journey in the folder 52;
B The first sensor 40 upon detecting the metal sheet 34 first entry into the folder will signal the programed controller 45 to trigger the motors 4, 5 to slow down the speed of all the rollers 6-19 & 20-33;
C When the 2nd sensor 41 detects the metal sheet 34, a signal will be sent to the controller to activate the switching of the hydraulic oil flow powering the motors from the initial series circuit See
D The 3rd or 4th sensor 42, 43, is positioned as shown in
E Thereby, the metal sheet will stop with its first fold line 49 aligned by being seated directly on top of the folding line 44 of the folder 52.
F The controller 45 is programed to control the opening and closing of the valves 61, 65, 71 which in turn control the amount of oil flow through the valves actuating the two motors from series circuit to parallel oil flow. The oil flow is configured to control the motors 4 & 5 actuating the movement of the respective rollers 6 to 19 & 20 to 33 moving the sheet 34.
G The controller 45 is also programed to control the folding operation of the folder 52. Upon the completion of all the folds along the fold lines 49, 50, 51 of the metal sheet 34, the controller 45 will trigger the reversion of the parallel circuit oil flow to series lEl oil flow hence both motors 4 & 5 will move simultaneous likewise the two sets of rollers 6 to 19 & 20 to 33 moving at the same speed.
H The process of alignment will repeat for the next incoming metal sheet.
A preferred variation depicting the method is shown in
All sensors 40,41,42,43 are of laser source type AND alternative to sensor 40, optical or LED type can be used instead.
The positions of the sensors are important to accurately detect the metal sheet and is preferred to be mounted on the position as in
Sensor 41 being the 2nd sensor positioned along either ends of the edge of the folder 52 facing the rollformer when the metal sheet will first enter the folder 52 and at the height of the folder 52 that the side of the metal sheet will definitely pass to be detected by the sensor.
Sensor 43 and 42 being the 3rd & 4th sensor at the position is just before the folding line 44 and height of the folder where the notches at sides of the metal sheet that will pass to be detected by the sensor.
Alternatively, any of the sensors can be at any position that can detect the above specific parts of the metal sheet. All of the sensors are linked to the pre-programmed controller 45 and on each sensor detecting the specific parts of the metal sheet, it will signal the controller 45 to respond by the first sensor 40 upon detecting the metal sheet 34 first entry into the folder will signal the controller 45 to trigger the hydraulic motors 4, 5 to slow down all the speed of all the rollers 6 to 19 & 20 to 33. The second sensor 41 upon detecting the side of the metal sheet will signal the controller to switch the hydraulic oil flow powering both motors 4 & 5 from the initial series circuit of single line flow chart of
When either one of the third or fourth sensors 42, 43 first detects the preformed notch 37 on the sides 35 and 36 of the metal sheet, it will signal the controller to trigger the respective motor sensor 43 to motor 4, sensor 42 to motor 5 to actuating the respective set of rollers motor 4 to rollers 6 to 19 & motor 5 to rollers 20 to 33 to stop. Subsequently, the other sensor will detect the preformed notch and will signal to the controller to trigger the stopping of the motor which in turn stopped the moving roller.
Thereby the metal sheet will stop with its first fold line 49 aligned being seated directly on top of the folding line 44 of the folder 52 ready for folding by the folder 52. The controller is pre-programed to control the opening and closing of the valves 61, 65, 71 and also the amount of oil flow which will actuate the two motors from series circuit oil flow to parallel oil flow.
The notches 37, 38,39 are formed on the sides 35, 36 of the flat sheet before entering the rollformer 1. Each notch on each side of the flat sheet are formed to match each other creating a fold line 49, 50, 51 for each fold on the metal sheet.
For better understanding, if the metal sheet is to be folded into a box shape as in closed box duct, there will be three (3) folds to complete a box hence there will be three (3) notches on each side of the metal sheet. If just a L shaped product, then a single fold with one fold line is suffice. The rollformer is to create profile at the sides 35, 36 of the metal sheet where the profile formed on the flat sheet is created by the rollformer.
Upon exiting the rollformer 1 into the adjacent mechanical folder 52 where both the rollformer 1 and the mechanical folder 52 are actuated by the pre-programmed controller 45 relying on the sensors 40, 41, 42, 43 detection to control each phase of movement in aligning the metal sheet.
The fold line 49, 50, 51 of the metal sheet on exiting the rollformer 1 will not be parallel to the folding line 44 of the folder 52; hence not aligned and each fold line 49, 50, 51 will not sit directly on top of the folding line 44.
Thus, this system and process removes the requirement for a multi-step process requiring multiple users to move different sheets to different machines to effect folding of materials.
Accordingly, while at least one embodiment of the present invention have been shown and described, it is to be understood that many changes and modifications may be made thereunto without departing from the spirit and scope of the invention as defined in the appended claims.
Number | Date | Country | Kind |
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10201704185Y | May 2017 | SG | national |
Filing Document | Filing Date | Country | Kind |
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PCT/SG2018/050241 | 5/17/2018 | WO | 00 |