DE102008059277A1 - Dosing container for cooling or refrigerant circuit of motor vehicle for supply additive accommodated in inner chamber of dosing container, has connection for connecting dosing container at cool or refrigerant circuit - Google Patents

Abstract

The dosing container has a connection (4) for connecting a dosing container at a cooling or refrigerant circuit (8). The dosing container has an opening (14), and a flow connection is produced between dosing container and cooling or refrigerant circuit over the opening. The additive is enclosed in the dosing container by unit, which releases the additive by a pressure difference. An independent claim is included for a cooling or a refrigerant circuit with an evaporator and butterfly valve for motor vehicle.

Description

Technical area

The The invention relates to a metering container for a cooling or refrigerant circuit of a motor vehicle, via the the cooling or refrigerant circuit a in the dosing added additive fed is. This is the dosing at the cooling or refrigerant circuit connected.

State of the art

motor vehicles with cooling or refrigerant circuits, for Example of cooling or refrigerant circuits of Air conditioners are well known. Such cooling or Refrigerant cycles are mostly under an overpressure and point beyond that mostly antifreeze, which are known to seals and to attack lines. As a result, older vehicles occur sometimes leaks, which can lead to leakage of refrigerant or refrigerant.

to Warning the driver are in the cooling or refrigerant circuits partially Pressure sensors installed, which provide a pressure drop in case of leakage can recognize and give a warning to the driver. Until such a noticeable pressure drop occurs, the leaks are usually already so big that there is a risk that larger quantities at cooling or refrigerant from the cooling or Refrigerant circulation resign or have already resigned.

to Detecting minor leaks that are not yet noticeable Lead to pressure drop in the system and / or within the pressure tolerances of the system it is still known to the refrigeration or refrigerant of the cooling or refrigerant circuit Add fragrances that are perceptible through leaks. The fragrances need the refrigerants however, be metered, due to the volatility of the odorant only immediately before filling an air conditioner performed can be. Furthermore, the concentrations of the fragrances are in the PPM area, so that only very small quantities have to be added, which special metering devices in the production and workshops required.

such Dosing devices, however, are comparatively expensive and must, moreover in every production and workshop be provided.

Manually Dosing odorous substances should be avoided as this is the case in everyday workshop life forgotten or could be too inaccurate.

task

task The invention is therefore to provide a device which metering from additives, for example fragrances, to cooling or refrigerant circuits automatically when filling of the cooling or refrigerant circuit with cooling or refrigerant allows.

Presentation of the invention

The Invention is solved through a dosing tank for one Cooling or Refrigerant circuit according to claim 1, a cooling or refrigerant circuit according to the sibling Claim 12 and by a motor vehicle with a cooling or refrigerant circuit according to the independent claim 15. Advantageous embodiments of the invention are the subject of Dependent claims.

One Dosing container according to the invention for a Cooling or Refrigerant circulation a motor vehicle is adapted to the cooling or Refrigerant circulation a in the dosing added additive to feed. This is the dosing with a connection provided with the dosing to the cooling or Refrigerant circulation connectable is. Such a connection can be used, for example, as a screw connection be formed or as a flange.

Of the dosing has an opening up, over the one flow connection between the dosing tank and the cooling or refrigerant circuit can be produced. This allows the recorded in the dosing Additive in the cooling or refrigerant circuit or in the cooling or refrigerant circuit absorbed cooling or refrigerant be dosed.

According to the invention, it is provided the additive is included in the dosing container by means is that release the additive by a pressure difference. These Pressure difference refers to a difference in the pressure of the additive and in the pressure of the cooling or refrigerant. The additive and / or a carrier gas is preferably under atmospheric pressure included, so a common in the cooling or refrigerant circuit existing overpressure relative to atmospheric pressure used to release the additive.

With the aid of the invention, an automatic metering of an additive to a cooling or refrigerant circuit is achieved, since the means which include the additive in the metering container, when filling the refrigerant circuit or when establishing an overpressure in the refrigerant or refrigerant circuit by commissioning For example, an air conditioner whose part of the cooling or Käl is to be activated.

Furthermore let yourself by means of the dosing tank one to be supplied Set the amount of additive exactly, so neither too little nor too much of the additive in the cooling or refrigerant circuit is delivered. This can be z. B. with odors the additions of additives in the PPM range.

Thereby, that the additive will continue to be readily stored in the dosing container can, that it does not lose its properties, can be the additive in the dosing over a long time Store time.

A first embodiment of the invention provides that the means as one the opening closing the connection, pressure-actuated Closure are formed, which in turn is formed is, by a certain pressure difference between cooling or Refrigerant circulation and dosing tank open to become. The dosing tank itself then has a chamber closed by the closure, which is opened by a pressure difference acting on the closure.

A Development of the invention provides that the closure to do so is formed, at an overpressure in the cooling or refrigerant circuit across from a pressure in the dosing open to become. This has the effect of only opening the closure if the dosing tank correctly to the cooling or refrigerant circuit is connected so that in the cooling or refrigerant circuit, an overpressure can build up. In this way, beyond an unwanted Actuate the closure of an unused dosing largely avoided.

A Further development of the invention provides that the closure is spring-loaded is. In this case, the closure preferably as a spring-loaded obturator be educated. In such spring-loaded flaps a to open adjust the pressure required by the obturator particularly easily, because the obturator area as well as the spring hardness easy to handle sizes are. Such a spring may also according to a Development of the invention on the dosing or in the dosing itself support, so that a compact unit can be specified with this development can. About that In addition, a dosing with reusable spring-loaded shut-off.

alternative can the closure according to a development the invention as a layer which can be destroyed by a pressure difference, preferably a membrane, be formed. The layer or

membrane can according to a Training in the opening of the dosing tank be arranged so that by a pressure difference inside of the dosing tank and the cooling or refrigerant circuit The membrane, for example, when filling the cooling or refrigerant circuit with cooling or refrigerant destroyed becomes. Such a destructible layer let yourself to realize particularly cheap.

A Another alternative provides that the agent containing the additive releases as one including the additive and by a pressure difference destructible Sheath trained is. The additive is then in a capsule in the same way Interior of the dosing tank, wherein the capsule has a pressure inside, with which the additive is introduced into the capsule, for example atmospheric pressure, the capsule being overpressured from the outside destroyed becomes.

According to one Development of the invention is in the variants with a destructible Layer, membrane or shell means operable as a pressure difference are formed, a grid, mesh or filter provided, which Layer, membrane or shell parts after the destruction of layer, membrane or shell from the cooling or keep the refrigerant circuit away.

According to one Development of the invention may be the grid, network or the filter in or at the opening be arranged such that the layer, membrane or shell in contrast in a Inside the dosing tank are arranged and through the grid, the grid or the filter of the cooling or refrigerant circuit permeable to pressure and liquids are.

According to one Further development of the invention, the additive is gaseous, liquid or solid. Gaseous additives have the property in a leaking refrigerant or refrigerant circuit quickly to escape, so that even very small leaks can be seen. liquid Additives are very well distributed in the coolant or coolant of the cooling or cooling system Refrigerant circuit and are therefore well suited for leak detection. Leave lubricant Especially good as a liquid Provide additives. Solid additives dissolve on contact with the Cooling or Refrigerant on and distribute well in the cooling or refrigerant.

A further development of the invention provides that the additive contains an odorant, a leak detector and / or a lubricant. Odors have the property that they are volatile and thus leak through small leaks in the cooling or refrigerant circuit and are perceptible from the outside. Leakage agents sidn z. As fluorescent substances that make leaks visible under UV light. With the help of lubricants can be moving components of the cooling or refrigerant circuit, such as pumps and compressors lubricate and thus increase the life of the components.

According to one Further development of the invention, the additive also exclusively an odorant, leak detector or lubricant.

If the dosing tank an additional valve it is possible the additive by an overpressure in the cooling or refrigerant circuit release and through the additional Valve in another area. This can be more Provide functions.

A Such function is according to Further education. the invention provides the creation of a bypass valve the dosing tank, so that the interior of the dosing is always flowed through and distribute the additive particularly evenly in the cooling or refrigerant circuit can. This is the extra Valve preferably connected to an area with other system pressure. A possibility, implement this, is the connection of the dosing in a high-pressure area, z. B. on the evaporator of an air conditioner, and the connection of the bypass valve in the low pressure range, for example after a throttle valve.

One independent The invention relates to a cooling or refrigerant circuit of a motor vehicle, which a dosing according to the above described invention and a connection for connecting the metering container at the cooling or refrigerant circuit. With the help of such a cooling or refrigerant circuit, the in the case of an air conditioner, for example, an evaporator, a Compressor, a throttle valve and various lines, Additives can be particularly easy when filling the cooling or refrigerant circuit with a fresh coolant or refrigerant in exact dosages, z. B. in the PPM area, enforce.

According to one first embodiment of the cooling or refrigerant circuit according to the invention is the Connection of the cooling or refrigerant circuit on an evaporator or a relief valve of the cooling or Refrigerant circuit arranged. At this point, the cooling or refrigerant circuit has a special high pressure, so that the dosing at this point especially is well activated.

One last independent The invention relates to a motor vehicle with a cooling or refrigerant circuit according to the above described independent Inventive idea. In such a motor vehicle according to the invention let yourself already detect a small leakage easily, if the additive as Odor is formed or a long shelf life of the moving Components of the cooling or refrigerant circuit achieve when the additive is designed as a lubricant.

Further Objectives, features and advantageous applications of the invention will become apparent from the following description of an embodiment with reference to the Drawings. All form described and / or illustrated features in their meaningful combination the subject of the present invention, too independently from the claims and their remittances.

Brief description of the figures

The Invention will be explained with reference to second embodiments. It show schematically:

1 a section through a first variant of a metering container according to the invention and

2 a section through a second variant of a metering container according to the invention.

embodiments

1 shows a schematic sectional view through a first embodiment of the invention. An inventive dosing 2 has a connection 4 on, with which the dosing tank 2 to a corresponding connection 6 a cooling or refrigerant circuit 8th is connectable. The connections 4 . 6 are designed as flange connections with suitable seal.

The dosing tank 2 has an interior 10 in which an additive 12 , in the present case a fragrance, is taken up in a metered quantity.

The dosing tank 2 has an opening 14 on, passing through a shut-off 16 is closable. In the interior 10 of the dosing tank 2 is a spring 18 arranged on the one hand on the dosing 2 and on the other hand on the obturator 16 supports and this, if no pressure is applied, liquid and / or gas-tight. This is the additive 12 in the interior 10 of the dosing tank 2 kept.

An optional valve 20 Used to connect to another location of the refrigerant or refrigerant circuit to provide a bypass through the dosing tank 2 , The valve 20 is connected to a point in the cooling or refrigerant circuit with different system pressure, so that the pressure difference between the connection 6 and valve 20 a Flow through the dosing tank 2 is produced.

The metering container according to the invention 2 will with his connection 4 in the connection 6 of the cooling or refrigerant circuit 8th screwed. When filling the cooling or refrigerant circuit 8th with coolant or refrigerant 22 builds up in the cooling or refrigerant circuit 8th a pressure p _A , which is greater than a pressure p _i in the interior 10 of the dosing tank 2 , p _{i usually} corresponds to the atmospheric pressure. When the external pressure p _{A of} the coolant or refrigerant tank becomes so large that through the opening 14 a force on the obturator 16 acts, which is greater than the force of the spring 18 , the shut-off will be 16 pressed backwards and the opening 14 Approved. The additive 12 mixes with the coolant or refrigerant 22 ,

2 shows an alternative embodiment of the invention. Like-acting components are provided with the same reference numerals for the sake of simplicity.

2 shows an alternative dosing 2 ' , which also has a connection 4 for connection to a corresponding connection 6 a cooling or refrigerant circuit 8th having. In an interior 10 is a destructible shell 32 arranged in their interior the additive 12 receives. The destructible shell 32 consists of a bursting at a given pressure difference material. The additive 12 is under atmospheric pressure in the destructible shell 32 , z. B. Bersthülle, added.

The opening 14 is from a grid 34 completed, which prevents fragments of destructible shell 32 after their bursting into the coolant or refrigerant 22 of the cooling or refrigerant circuit 8th arrives.

2, 2 '

dosing

4

connection of the dosing tank

6

connection a cooling or refrigerant circuit

8th

Cooling or Refrigerant circulation

10

inner space

12

additive

14

opening

16

shutoff

18

feather

20

Valve

22

Cooling or refrigerant

32

Destructible shell

34

grid

p _a

print Cooling or refrigerant

p _i

internal pressure

Claims (14)

Dosing container for a cooling or refrigerant circuit ( 8th ) of a motor vehicle for supplying a in an interior of the dosing ( 2 ; 2 ' ) received additive ( 12 ) to a cooling or refrigerant circuit ( 8th ), with a connection ( 4 ) for connecting the dosing container ( 2 ; 2 ' ) to the cooling or refrigerant circuit ( 8th ), the dosing container ( 2 ; 2 ' ) an opening ( 14 ), via which a flow connection between metering container ( 2 ; 2 ' ) and cooling or refrigerant circuit ( 8th ), characterized in that the additive ( 12 ) in the dosing container ( 2 ; 2 ' ) by means ( 16 ; 32 ) containing the additive ( 12 ) by a pressure difference (P _a -P _i ) release. Dosing container according to claim 1, characterized in that the means as an opening ( 14 ) closing, pressure-actuated closure ( 16 ) are formed, wherein the closure ( 16 ) is designed, by a certain pressure difference (P _a -P _i ) between the refrigerant or refrigerant circuit ( 8th ) and the interior ( 10 ) of the dosing container ( 2 ) to be opened. Dosing container according to claim 2, characterized in that the closure ( 16 ) is designed to be at an overpressure in the cooling or refrigerant circuit ( 8th ) to be opened. Dosing container according to claim 2 or 3, characterized in that the closure as a spring-loaded obturator ( 16 ), z. B. flap is formed. Dosing container according to claim 2 or 3, characterized in that the closure as by a pressure difference (P _a -P _i ) destructible layer, preferably membrane, is formed. Dosing container according to claim 1, characterized in that the means as one of the additive ( 12 ) enclosing and destructible by a pressure difference envelope ( 32 ) are formed. Dosing container according to claim 5 or 6, characterized in that in front of the layer, membrane or shell ( 32 ) a grid ( 34 ), Mesh or filter is arranged to layer, membrane or envelope parts ( 32 ) from the cooling or refrigerant circuit ( 8th ) keep away. Dosing container according to one of the preceding claims, characterized in that the additive ( 12 ) is gaseous, liquid or solid. Dosing container according to one of the preceding claims, characterized in that the additive ( 12 ) an odorant, a leak detector and / or contains a lubricant. Dosing container according to one of the preceding claims, characterized in that the dosing container ( 2 . 2 ' ) an additional valve ( 20 ) having. Dosing container according to claim 10, characterized in that the additional valve ( 20 ) for forming a bypass in the cooling or refrigerant circuit ( 8th ) is provided. Cooling or refrigerant circuit of a motor vehicle with a metering container ( 2 ; 2 ' ) according to one of the preceding claims and a connection ( 6 ) for connecting the dosing container ( 4 ). Coolant or refrigerant circuit according to claim 12, wherein the connection ( 6 ) on an evaporator or a throttle valve of the cooling or refrigerant circuit ( 8th ) is arranged. Motor vehicle with a cooling or refrigerant circuit ( 8th ) according to one of claims 12 or 13.