DE29720837U1 - Blocking device for casting channels - Google Patents

Description

The invention relates to a testing device for castings with cast channels. With improved casting techniques, it is now possible to create long and complicated cast channels, the complete demolding of the casting core components of which cannot be easily checked visually. Likewise, with improved casting techniques, cast channels with an extremely small cross-section can now be created, which previously could only be drilled. Removing the casting cores from such channels is particularly problematic. A visual check of the complete molding of the core used is also difficult.

Based on this, the present invention is based on the object of providing a device with which cast channels in castings can be automatically checked for blockages, whether due to defects in the casting or due to core components not being removed. A testing device for solving this problem comprises

a casting holder in which a casting is held so that a channel to be tested is aligned with a geodetic gradient

is,

a test specimen feed device which introduces a test specimen into the geodetically higher end of a channel to be tested and

can release and

a sensor arrangement that can monitor and detect the passage of the test body through the geodetically deeper end of the channel to be tested.

Using a device of this type, a casting can be monitored in a fully automated manner to determine whether a cast channel has a desired minimum open cross-section over its entire length from one end to the other, even if the shape or diameter of the channel makes a visual inspection impossible. A device of this type also allows for automatic inspection of cast channels in series production with additional automated handling of the castings, even if only cast channels of a short length or simple shape are to be inspected.

Steel balls whose diameter corresponds to a minimum channel cross-section are particularly suitable as test specimens. The test specimen feed device can, in its simplest form, consist of a funnel or a pipe with a control slide for releasing a single test specimen.

In a first simple embodiment, the switching pulse for enabling the control slide can be used at the same time to arm the sensor arrangement at the geodetically lower end of the channel to be tested. The test object must then be detected by the sensor arrangement at the geodetically lower end of the channel to be tested within a specified time. Otherwise, an error message would be issued or the tested casting would be automatically rejected.

In order to avoid errors that can arise from arming the sensor arrangement when there is no test specimen in the test specimen feed device, a further sensor arrangement can also be provided at the geodetically higher end of the channel to be tested, which monitors and detects the introduction of the test specimen into the channel and only causes the sensor arrangement to be armed at the geodetically lower end of the channel to be tested when a test specimen passes through it.

Optical or electromagnetic sensors that are controlled by the shadow image or the mass of a ball are suitable as sensor arrangements, but simple mechanical sensors that can be triggered by the weight of the ball sliding past or falling are also possible.

In the simplest version of the test device, used test specimens can be collected under the casting holder and from time to time manually returned to a magazine or reservoir for test specimens on the test specimen feed device. In a further embodiment, however, a test specimen collection and return arrangement can be provided which transports used test specimens individually immediately after passing through a channel to be tested from the sensor arrangement at the lower end to a test specimen feed device at the higher end. A collection and return arrangement of this type can in particular comprise a pipe that can be pressurized with compressed air. In a further embodiment, the test specimen feed device can also be pressurized with compressed air, so that in particular in the case of small, low-weight test specimens, these can be transported from a lower position to the upper end of the channel to be tested. At the same time, it is possible that the test specimens are subsequently pressed through the channel to be tested with greater energy so that they cannot be held in place by smaller contaminants or unevenness that are harmless to the function of the channel.

In a preferred embodiment, the collection and return arrangement with the test specimen feed device forms a closed line circuit when the casting is inserted into the casting holder, in which a test specimen is conveyed by a control slide from a compressed air supply located below the control slide in a complete circuit to above the control slide, provided that there are no obstacles in the cast channel. If a sensor is arranged directly above the control slide and only one test

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body is inserted, this sensor can monitor both the correct fitting of the device with a test body, to which release by the slide can be linked, and the return of the test body to the device after it has correctly passed through the channel to be tested. If a test body is lost in a defective casting, a new test body must be inserted. For this purpose, a closable filler neck must be provided on the pipe circuit mentioned, in particular directly above the control slide.

If a cast channel is so complicated that it cannot be aligned with a constant geodetic gradient, it is possible to equip the cast piece holder with a movement mechanism that brings individual sections of the channel into a gradient position one after the other so that a test specimen can pass completely through the cast channel, provided there are no obstacles.

Alternatively, it is possible to shoot the test specimen through the channel to be tested using high air pressure.

Usually, however, compressed air is only used to feed the test specimens to the cast channel in the pipe circuit mentioned, whereby a vent can be provided in front of the geodetically higher opening of the channel to be tested, so that the test specimen has to pass through the test section in the form of the channel to be tested solely due to its weight.

A preferred embodiment of the invention is explained below using a schematic diagram.

A casting 2 with a cast channel 1 is inserted into a casting holder symbolized only by the ends (3, 6) of a pipeline 8. The casting 2 is aligned in such a way that the channel 1 to be tested has a constant gradient from a geodetically higher end to a geodetically lower end.

Ie. A test specimen feed device 11 is located below the casting 2 in the pipeline 8 and has a sensor 5 which detects the arrival or availability of a test specimen 4, and a slide 10 which can carry a test specimen 4 or release it when the pipeline 8 is released for feeding to the upper end of the channel 1 to be tested. On the test specimen feed device 11 there is a compressed air nozzle 7 below the slide 10 through which compressed air can be fed into the pipeline 8. This conveys a test specimen 4 through the pipeline 8 to a mouthpiece 3 of the pipeline 8 which is attached directly to the upper opening. The mouthpiece 3 can be attached to the casting 1 in a pressure-tight manner or can optionally also allow the compressed air to be blown off. In this case it must be ensured that the test specimen 4 reaches the channel 1. If the channel is faultless, the test body 4 passes through the channel 1 under the influence of at least its weight, and possibly also of the compressed air. At the lower end of the channel 1, a collecting arrangement 6 for the test body is shown, for example in the form of a funnel, which can receive the test body 4 and return it to the test body feed device 11. The funnel-shaped collecting arrangement 6 leads in a piece of pipe directly to the test body feed device, where the test body 4 is held by the closed slide 10. When the test specimen 4 arrives, the sensor 5 detects the positive completion of the test procedure and the readiness for operation for the next test procedure using the same test specimen 4. Above the device 11, a filling nozzle 9 is provided on the receiving nozzle 6 for inserting new test specimens 4, provided that a test specimen 4 remains stuck in the channel 1 of a casting 2 in the event of a negative test and the casting 2 is consequently discarded.

Claims (8)

VAW mandl & berger GmbH 19 November 1997 Zeppelinstraße 24 Ne/win (allO658) A-4030 Linz P97548DE00 Testing device for cast iron channels for blockage Protection claims 1. Testing device for castings with cast channels, comprising a casting holder in which a casting (2) is held so that a channel (1) to be tested is aligned with a geodetic gradient, a test specimen feed device (H) ₇ which introduces and releases a test specimen (4) into the geodetically higher end of a channel (1) to be tested, and a sensor arrangement (5) which monitors and detects the passage of the test body (4) through the geodetically deeper end of the channel (1) to be tested. 2. Test device according to claim 1,
characterized, that the test specimen feed device (10) activates the sensor arrangement (5) when a test specimen (4) is released. 3. Test device according to claim 1,
marked by a further sensor arrangement at the geodetically higher end of the channel to be tested (I)/ which activates the sensor arrangement (5) when a test body (4) is inserted into the channel (1). 4. Test device according to one of claims 1 to 3,
marked by a collecting and return arrangement (6) for returning a test specimen emerging from the channel (1) to the test specimen feed device (10). 5. Test device according to one of claims 1 to 4,
characterized, that the test specimen feed device (11) comprises a pipe (8) that can be pressurized with compressed air. 6. Test device according to one of claims 1 to 5,
characterized, that the collecting and return arrangement (6) comprises a pipeline (8) connected to the test specimen feed device (11). 7. Test device according to one of claims 1 to 6,
characterized, that the test specimen feed device (11) with the channel (1) of a casting (1) inserted into the casting holder and the collecting and return arrangement (6) form a closed line circuit. 8. Test device according to one of claims 1 to 7,
characterized, that the test specimen feed device (11) comprises a slider (10) for receiving a test specimen (4) and that the sensor arrangement (5) is aligned with a test specimen (4) resting on the slider (10) in the rest position.