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LT1-2 Twin Channel Leak DetectorLeak Tester Features |
 | Reliable - Hardened against very high levels of mains spikes and static discharges. |
| Flexible - can quickly be re-programmed for special needs. |
| Future-proof - Large number of spare inputs and outputs to allow future expansion provided at no extra cost. |
| Easy to Set - Two line alpha-numeric display allows quick, accurate setting and display of test parameters. |
| Easy to Fault Find - Diagnostics are provided from the front panel, allowing engineers to quickly verify every part of the system. |
| International - Since all information is presented on the front panel display, it is easy to change the program to use another language (where the system is to be used in a non - English speaking country). |
Allows quick customization for special needs.
Allows easy expansion of system to include extra facilities even after installation.
The circuit cards have been designed and programmed specifically for this application. Great care has been taken to ensure that the system is easily re-programmable, expandable and reliable. This means that the performance and cost limitations of using a bought-in Programmable Logic Controller are avoided.
The leak tester design is highly flexible with respect to software, electronics, pneumatics and mechanics. This allows a wide range of options (see below) to be added at any time, even after installation.
A probe fitted to the test head checks whether the neck is occluded or deformed.
A fibre-optic sensor checks that the bottle is not too tall. This can detect folded over base flash on some bottles, as well as neck flash.
This can be used to periodically check the operation of the leak tester. Every 100 cycles (or any other number), a valve is turned on which introduces a known leakage into the system. A leak test is then performed. If the known leak is not detected, then the system will halt with an alarm.
This technique can reduce the use of "test bottles" to a minimum.
This is recommended since it improves leak tester accuracy. However, this is not always practical when the leak tester is attached to an existing conveyor system.
Spare inputs are available which can be used to connect other sensors which examine the bottle during the leak test. Examples might be label sensors, flash detection sensors or vision systems. The leak tester would fail the bottle if any of these inputs are triggered.
A variety of bottle transport options can be fitted to replace the standard method. It is recognised that the standard method may not always be suitable, although we have found that is the most flexible as well as the most cost effective. Other methods include side clamps and holding moulds.
A pneumatically operated mechanism can be fitted to the infeed of the leak tester. This is only required when the conveyor is to be fed directly from the output of a blow moulding machine with violent take-out movements. The queue of bottles is supported by the plate when push-out occurs. The plate then opens, allowing the bottles to travel down the conveyor.
The system usually pressurises the bottles during the leak test. However, it is possible to supply the system for vacuum operation where required.
The system test pressure is adjustable over a limited range (see specification). If this range is not sufficient, a different transducer can be fitted to allow any test pressure desired.
The standard system maintains counts of passed and failed bottles. More extensive data logging and SPC features can be implemented by exchanging the controller PCB for one with the SPC option fitted.
| Electrical Power Supply | 110/120 or 220/240 VAC single phase |
| Electrical Power consumption | 300 VA maximum |
| Air Supply | 4-10 bar |
| Air Consumption | 1 litre / minute typical |
| Minimum bottle volume | No lower limit |
| Maximum bottle volume | 20 litres (unit will still work with any volume, but cycle time would be improved using another model). |
| Test Pressure | Adjustable, 5 - 50 mB. This range can easily be changed on request. |
| Cycle Time | 1.0 - 20.0 seconds, adjustable. |
| Hole Size Detected | Dependent on cycle time and container size. (See graph below). For a 1l bottle and at 20 bottles per minute, the hole detected would be 0.1mm. |
| Leak Test Method | Pressure Decay, Auto-zero, Auto-Scale. |
| Transducer | Semiconductor strain gauge diaphragm, 0.00 - 65.00 mB, 0.02% resolution, 20 x Overpressure Protection. |
To use the graph above, select the size of bottle from the table on the right. Look along the line of that colour. Select the Bottles per minute required from the scale at the bottom and read off the hole size detectable from the scale on the left.
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