msautomation

Principle of operation

The operator places the detail in a specially designed socket and closes the door. The machine independently bases the element in the correct position, seals the connection points and pressure is applied to the interior. In the first phase of testing, the machine roughly detects the correctness of the element - whether all parts of the workpiece (gaskets and O-rings) have been attached to it. When the initial test indicates the correctness of the detail, the machine starts checking for leaks. Test parameters such as pressure or test time are fully programmable from the control panel. After completing the proper part of the test, based on the pressure drop, the machine analyzes whether the detail is tight or whether its leakage is within the tolerance specified in the standard. The results of each test are saved on a data carrier, so that they can be later transferred to another device and further processing. The machine has two chambers, thanks to which the operator can remove or place an element in the second chamber during the test.

Description

The device can be made in various designs:
- measuring track in a narrow or wide pressure range
- laboratory or exact process testers can be equipped with an external ATEQ testing module, which tests the tightness using hydrogen or other gases with a small particle size

Leak testerdepaletyzer depaletyzator rozsztaplarka do palet nośnik form

Principle of operation

The operator loads a stack of pallets onto the loading conveyor, positioning it between the side buffers. The standard length of the conveyor is one pallet stack. When the device reports readiness by displaying an appropriate message on the HMI panel, the stack enters the depalletizing column stopping at the sensor. The position of the pallet placed at the bottom of the stack is checked by means of an additional induction sensor. Tower support with grippers controlled by a hydraulic drive goes to the appropriate height determined from the operator panel. The stack is picked up and raised to its maximum height, thus releasing the pallet at the very bottom. The transport system transfers the pallet to the rest of the line and stops at the next sensor. In a situation when it is inverted, pneumatic cylinders start working at the station, which rotate the pallet 180 degrees, relative to its current position. A correctly placed pallet is pushed over to the other part of the line, after checking if it is empty. The column leaves the stack to the appropriate height, then the grippers are separated and the cycle is repeated until the whole is unloaded. During the tower's operation, the operator can place another stack on the loading conveyor, which ensures the continuity of the machine's operation.

Principle of operation

The operator inserts the manifold into the threading chamber in a suitable place, placing the manifold on the positioning heads and presses the start button. The scissor system lifts the distributor up and after a moment the tap turns clockwise, driven by two motors. The table goes up and taps rotate at the same time until the table reaches the appropriate height. Tap lubrication using the nozzles immediately after the taps occurs throughout the entire scissor table up process. During the threading process a compensating mechanism was used to protect taps and the manifold against damage. After the signal from the limit switch symbolizing access of the scissor mechanism to the maximum position, the rotations are switched and the table begins to slide down. After unscrewing the taps from the manifold, the scissor table speed increases. At the very end of the cycle, the machine proceeds to clean taps. A brush extends to clean the rotating taps and a blow is activated inside the machine. The opening of the threading chamber is a sign of the end of the cycle.

Principle of operation

Our mold carriers are hydraulically or pneumatically driven, thanks to which the blocking and lifting force of the whole structure is very high. The device aims to multiply the pressure force, and thus imprint on the material shape determined by the form placed on the mold carrier. The appropriate form is applied to our machine, followed by a protective film and the material from which the final product is to be made. After preliminary operations, the upper part of the press is closed and the lower part is extended upwards. The material is pressed from two sides and formed into the right shape. After measuring the appropriate amount of time the carrier is opened and it is possible to collect the finished product.

Description

The device can be made in various designs:
- construction adapted to different transport heights
- modular construction on a common support frame
- modular construction with loading transport
- different transporter lengths

Moulding carrier tester szczelności depaletyzator rozsztaplarka do palet gwiciarka

Description


The device is adapted to the following customer guidelines:
- suggested carrier movements
- the weight of the insert mold
- the time of closing the mold and the forces blocking it

Depaletiser tester szczelności depaletyzator rozsztaplarka do palet nośnik form

Description

The device can be made in various configurations:

- different number of spindles
- adjustable threading speed
- adjustable threading depth

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Leak tester

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Opening hour

 

Monday - Friday

8:00 - 16.00

 

Contact us

Mateusz Opuchlik

+48 728 446 620

 

biuro@msautomation.pl

automatyka

Visit us

 

ul. Nowopogońska 98

41 - 250 Czeladź

Poland