DE10306245A1 - Leak test apparatus, e.g. in automotive climate control systems, whereby a flushing gas arrangement is used to ensure that there is no background concentration of test gas in the testing area - Google Patents

Abstract

Method for detection and or evaluation of leaks using a leak test gas in a climate control plant with a leak test apparatus that has a sniff probe that reacts to the test gas. In the test area a leak test free gas flow (15) is provided from a fan (13) so that the sniff probe detects only gases from the measurement area. An independent claim is made for a device for detection and or evaluation of leaks of a leak test gas that has a housing for forming a gas tight envelope around a possible leakage point of a test volume, with a sniff probe that is attached to the envelope.

Description

The invention relates to a method and a device for detecting or evaluating leaks Leakage gas to be detected using a leak detector, the has a sniffer probe reacting to the leak gas.

DE 101 18 085 A1 (Inficon GmbH) describes a leak detector that is able to recognize various special leak gases and also evaluate their quantity or concentration. Such a leak detector is used, for example, in the refrigerant industry and in the automotive industry for testing test objects or assemblies. The leak detector has a sniffer probe that draws the gas into the device. Helium is often used as the test gas for a system to be tested for leaks. It is also known to use the gases which are in any case in test objects or assemblies as test gas, for. B. SF6, or halogen gases in the refrigerant industry. A commonly used test gas or leak gas is CO ₂ . With CO _{2 in} particular, there is a risk that the gas will be contaminated by the breathing air, which also contains CO ₂ . Such unintentional admixtures of a falsifying component result in "background conditions".

The invention is based on the object Procedure for the detection or evaluation of leaks of a detected Form leak gas in such a way that underground concentrations of the environment be locked out so that even the smallest concentrations or Leakage rates can be determined.

A first variant of the method according to the invention has the features of claim 1. After that, at an open air conditioning system installed at a functional location Test volume charged with a gas stream free of the leak gas. The measurement with the sniffer probe takes place at the installation site of the installed air conditioning system on the gas flow emerging from the measuring volume. Such a process does not require an enclosure of the measurement volume. It is also known as a "fresh gas shower". To the one to be examined There is a gas purge around generated. The purge gas is preferably lighter than air so that it flows through the volume from bottom to top. Above of the test volume can then be determined with a sniffer probe whether there is a leak gas in the gas stream. It can also at the same time the location of leakage gas leakage can be localized. This type of leak detection is extraordinary easy and doesn't need any complex equipment. Expediently pure air or nitrogen for the gas purge used so that people are not endangered by the gas flow.

A second variant of the method according to the invention provides for a housing to be arranged around the measuring point at the functional location that is a test volume delimited from the environment. This enables the leak detection on Function location of the unit. So it is not necessary that Check the unit in the factory or, if it is already installed, dismantle it and place it in a measuring chamber to convict.

The fact that at the measuring point casing is arranged, in which the measurement takes place, the unit on Check the place of use in the installed state. Here there is two options. In the first variant, the housing is pliers-like hinged so that it is temporary be attached to the unit that is installed at the functional location can. In the second variant, at least part of the housing is on Functional location of the unit permanently installed. In the second variant is the environment of the test item Aggregates as part of the housing or as an entire housing trained and thus for a leak test prepared. This is often useful when the unit in the Close to one Wall or other components are arranged so that for a temporary housing to be attached there is no space.

The method according to the invention can be carried out in such a way that the leakage gas accumulation in the housing by concentration measurement is detected. In the case of air conditioning, leaking accumulates refrigerant in the test volume. In doing so, underground concentrations from the environment are determined by the Delimitation of the test volume locked out. The leakage gas concentration can of course be smallest leak rates - depending on the waiting time - measured become.

A second alternative provides that from the housing the gas is drawn off and then a leak rate measurement is carried out in the housing. First becomes from the test volume Aspirated gas, which creates a negative pressure. After some time only leaking gas is measured as the ambient gases be kept away. The suction is preferably carried out by the sniffer probe therethrough.

The invention further relates to a Device for the detection or evaluation of leaks of a detected Leak gas. The device has a housing for forming a gas-tight enclosure a test volume and one mounted on the case sniffer probe on. The suction nozzle of the sniffer probe protrudes into the interior of the housing into it. The sniffer probe can permanently on the housing be attached, it is also suitable for suction and on a suction source can be connected, or it can be removable be inserted into a corresponding recess in the housing.

In the case of a case that can be opened like a pliers the housing temporarily be attached to a unit, the surroundings of which are sufficient Has free space. The housing enables that easy installation at the functional location of the unit to be tested.

The second alternative is at least one Part of the housing on the test item Fixed unit installed. This means that the environment of the Unit for the permanent sealing of the unit is prepared. The function location is therefore with a corresponding one Provision Mistake.

In the following, embodiments of the Invention explained with reference to the drawings.

Show it:

1 1 shows a schematic representation of the first variant of the invention with a gas ventilation system,

2 an embodiment of the second variant of the invention with an encapsulated test volume,

3 an embodiment of the third variant with suction of gas from the test volume and

4 an embodiment with a permanently encapsulated test volume.

In 1 is an automobile 10 shown, the unit in the engine compartment 11 air conditioning. The air conditioning system contains a refrigerant circuit that must be tight and from which leakage gas must not escape. The refrigeration unit is used for leak gas testing 11 over a gas purging device 12 positioned on a blower 13 connected. The blower 13 sucks through an inlet 14 Fresh air or another gas free from the leak gas to be tested. From the gas purging device 12 a gas flow free of leakage gas rises 15 on the on the aggregate 11 along strokes. This creates a test gas-free environment in which the location of the leak or test gas agent with a sniffer probe 16 that over the aggregate 11 can be localized. The sniffer probe is connected to a leak detector (not shown) which analyzes the gas drawn in and out of the unit 11 leaked gas originating.

The gas flow 15 is an evenly distributed, slowly rising laminar gas flow. The gas purging device 12 is preferably portable and can be brought to any required location in order to create a gas atmosphere with a stable composition in the test environment.

In the embodiment of 2 is about the body to be checked 18 around a delimited or encapsulated test volume 19 created. The body to be checked contains fittings 20 of interconnected pipe sections of a refrigerant line. To delimit the test volume 19 serves a housing 21 from two half shells 22 . 23 under a gasket intermediate storage 24 are composed. The half shells 22 . 23 form an opening 25 for the passage of a pipe 26 , being between opening 25 and pipe 26 an annular seal 27 is available.

The housing halves 22 . 23 are connected by a hinge and are pressed into the closed position under spring force so that they fit tightly around the fitting connection. The sniffer probe 16 is with their suction nozzle 16a into an adapter 30 used by the wall of the housing half 23 passes. The adapter 30 contains a gas-tight valve 31 by inserting the suction nozzle 16a can be opened. The sniffer probe is over a flexible hose 32 connected to the leak detector. The leak detector is designed, for example, in the manner shown in DE 101 18 085 A1 described.

The sniffer probe 16 can to the housing 21 be firmly connected, or it can be through the initially closed adapter 30 be introduced for measurement.

The embodiment of 2 is particularly suitable for mobile use, the housing 21 temporarily attached to the measuring point for leak testing, but is not permanently installed.

3 shows a housing 21 that the interconnected fittings 20 of two pipes 26 surrounds. The housing 21 encloses the test volume 19 gas-tight. It consists of a shell permanently installed at the measuring point 33 that with a lid 34 , which is only attached for leak measurement, is sealed gas-tight. The lid 34 here consists of a foil 35 that are on the circumferential edge of the bowl 33 rests and is absorbed by the sniffer probe 16 sucking fast. The suction nozzle 16a is through an implementation 36 the slide 35 inserted and either permanently connected to the film or replaceable. Instead of the flexible film 35 can of course also be a relatively rigid lid 34 used, then between shell 33 and lid 34 appropriate seals are provided.

4 shows a housing permanently installed at the measuring point 21 the fittings 20 containing test volume 19 encloses. This permanently attached housing 21 here consists of two half shells 40 . 41 that with flanges 42 including a ring seal 43 are placed axially against each other. The flanges 42 are from a tension ring 44 attacked and held together. The one half shell 41 contains an adapter 30 with valve 31 for inserting the suction nozzle 16a a sniffer probe 16 , Here, too, a hermetically sealed test volume 19 created. The bushings of the pipes 26 through the housing 21 are also sealed. The housing can be routed for access to the enclosed components.

Claims (11)

Method for detecting or evaluating leaks of a leak gas to be detected at an air conditioning system installed at a functional location Use of a leak detector which has a sniffer probe which reacts to the leak gas, characterized in that a gas stream free of the leak gas ( 15 ) and that the measurement with the sniffer probe ( 16 ) on the gas stream emerging from the measuring range. Method for the detection or evaluation of leaks of a leakage gas to be detected at a unit installed at a functional location using a leak detector which has a sniffer probe which reacts to the leakage gas, characterized in that a housing ( 21 ) is arranged that a test volume ( 19 ) delimited from the environment. A method according to claim 2, characterized in that at least a part ( 33 ) of the housing ( 21 ) is permanently installed at the functional location of the unit. A method according to claim 2 or 3, characterized in that the accumulation of leakage gas in the housing ( 21 ) is determined by measuring the concentrate. A method according to claim 2 or 3, characterized in that from the housing ( 21 ) Gas is sucked off and that a leak rate measurement is then carried out in the housing. A method according to claim 5, characterized in that the suction of the gas through the sniffer probe ( 16 ) he follows. Device for detecting or evaluating leaks in a leak gas to be detected, with a housing ( 21 ) to form a gas-tight enclosure of a test volume containing a possible exit point ( 19 ) and with one on the housing ( 21 ) mounted or mountable sniffer probe ( 16 ). Apparatus according to claim 7, characterized in that the housing ( 21 ) to delimit the test volume ( 19 ) is designed like pliers and a tube ( 26 ) removably and sealingly encloses. Device according to claim 7, characterized in that at least one part ( 33 ) of the housing ( 21 ) is permanently installed on the unit to be tested. Apparatus according to claim 9, characterized in that the housing ( 21 ) with a lid that can be temporarily placed for measuring purposes ( 34 ) is sealed. Apparatus according to claim 10, characterized in that the cover ( 34 ) from a foil ( 35 ) with the sniffer probe ( 16 ) connected is.