EP0184196A1 - Plastic water header tank for a cross-flow radiator for internal-combustion engines - Google Patents

Abstract

A cross-flow cooler for internal combustion engines is equipped on its supply side with a plastic water tank and a storage, ventilation and compensation chamber attached to it and flowing through the bypass. Between the water box and the chamber, a vent line is formed in one piece with these components from a high point of the water box via a liquid barrier into the chamber. The vertical main part of the vent line has a lower shaping opening which controls a drain valve with drain connections that can be connected to one another or are visible to the water tank, to the chamber and to a drain opening.

Description

The invention relates to a water box made of plastic for a cross flow cooler for internal combustion engines of a type with the features according to the preamble of claim 1.

In a known water tank of this type according to DE-A 33 30 710, the vent line requires a separate component and its fastening an additional manufacturing effort when it flows into the compensation chamber at a lower level. The separate emptying of the water tank and the compensation chamber also requires considerable maintenance for the separation of both line connections or, if necessary, additional construction for a drain plug.

In a known cooler of a similar design according to DE-A 33 41 390, the ventilation line connects the chamber to a high point of the cooler in the water box opposite the confluence of the flow line from the machine and the cooler. In its bottom area, the chamber has an open connection to the one-piece water box to the area from which the return line from the cooler to the machine opens out of the water box. This training is not very suitable for a cooling circuit for liquid-cooled internal combustion engines with a return mixing thermostat, because the ventilation bypass flow remains inoperative until the cooling circuit is opened, or the ventilation bypass flow by including the cooler the warming up time Machine extended. From DE-A 20 44 033 a cooler of a similar type is also known, in which a ventilation line from a radiator high point for a low-lying hydraulic lock serving U-loop is connected to a high point of the chamber and at the lowest point of the ventilation line a connection to one Common drain valve for the vent line, for the chamber and via a connection opening to the chamber for the water tank is arranged. This publication does not contain any suggestions for production-oriented training as plastic components.

The object of the invention is to develop a water _C type of the type according to the features of the preamble of claim 1 so that the combination with a return mixing thermostat is possible without functional disadvantages at low manufacturing costs. The warm-up time should be short, the one-piece design of the various cooler components should be favored and the cooling circuit should be easy to empty. To achieve this object, the invention provides the features in the characterizing part of patent claim 1. As a result, for a short warm-up time, the venting bypass flow in the water box flows a short way out of the supply line into the venting line, the venting line is directly molded onto the water box and the chamber when it is formed, with low manufacturing costs, and the drain opening in the lower molding opening accommodates a drain valve, that allows easy simultaneous emptying of the cooler and the chamber as well as the ventilation line itself.

According to the features of claim 2, a favorable shape of the opening of the vent line in the chamber is achieved, so that special closure measures for the form openings are unnecessary.

The features of claim 3 provide a further development of the invention with a control line connected to the vent line to the pressure control valves in the filler cap without additional construction work for separate parts. When the control line is filled and the mouth of the control line is open, the control line acts as an additional ventilation opening and thereby accelerates the filling if the opening of the ventilation line into the chamber has a restricted cross-section.

The features of claim 4 enable a particularly favorable arrangement of the ventilation and / or control lines for the plastic molding, which avoids material accumulation.

The features of claim 5 contain a further development of claim 4, which favors the one-piece connection of the water tank and chamber.

The features of claim 6 additionally favor a shaping of the ventilation and / or control lines and the one-piece molding of the filler neck on the chamber, and the formation of the upper part of the chamber for monitoring the coolant level from transparent or translucent plastic according to claim 7 is made possible without to affect the formation of the water box from an opaque material with high strength and thus low wall thickness and light weight. The independent, approximately circular and therefore deformation-proof design possibility of the cross section of the upper part of the chamber favors the use of a transparent or translucent plastic with lower strength but still low wall thickness and low weight.

The arrangement of the mouth of the ventilation line according to the features of claim 8 favors the shaping of this mouth by means of a mold slide provided in a molded part for the chamber near the parting plane and movable transversely to the molding direction.

The features of claim 9 favor the shape of both the connection of the control line to the ventilation line in the lower part of the chamber and the arrangement of the control line parallel to the ventilation line in the region of the upper part of the chamber.

The features of claim 10 include a spatially compact arrangement of the chamber to the water tank with ventilation and control lines running between them.

• Fig. 1 einen Kühlkreis für eine flüssigkeitsgekühlte Brennkraftmaschine mit einem erfindungsgemäßen Querstromkühler in schematischer Darstellung,
• Fig. 2 einen Teilausschnitt der Darstellung nach Fig. 1 mit abgewandelter Ausbildung der einem Wasserkasten des Querstromkühlers angeformten Enlüftungskammer,
• Fig. 3 eine Teil-Seitenansicht des Wasserkastens mit Vorrats-, Entlüftungs-und Ausgleichs-Kammer zum Quetstromkühler nach Fig. 1,
• Fig. 4 eine Draufsicht zur Fig. 3,
• Fig. 5 eine weitere Seitenansicht gemäß Pfeil V in Fig. 3 ohne Oberteil der Kammer,
• Fig. 6 den Oberteil der Kammer in Richtung des Pfeiles VI in Fig. 3,
• Fig. 7 einen Teilschnitt nach der Linie VII-VII in Fig. 3 und
• Fig. 8 einen Teilschnitt nach der Linie VIII-VIII in Fig. 3.

Exemplary embodiments of the invention are shown in the drawing. Show it:

• 1 shows a cooling circuit for a liquid-cooled internal combustion engine with a cross-flow cooler according to the invention in a schematic representation,
• 2 shows a partial section of the illustration according to FIG. 1 with a modified design of the ventilation chamber molded onto a water tank of the cross-flow cooler,
• 3 is a partial side view of the water tank with storage, ventilation and compensation chamber for the quench flow cooler according to FIG. 1,
• 4 is a plan view of FIG. 3,
• 5 shows a further side view according to arrow V in FIG. 3 without the upper part of the chamber,
• 6 shows the upper part of the chamber in the direction of arrow VI in FIG. 3,
• Fig. 7 is a partial section along the line VII-VII in Fig. 3 and
• 8 is a partial section along the line VIII-VIII in Fig. 3rd

A liquid-cooled internal combustion engine 1 is connected to a cross-flow cooler 2 directly through a flow line 3 and via a thermostat 4 and a coolant pump 5 through a return line 6. A short-circuit line 7 connects the flow line 3 directly to the thermostat 4. The cooler 2 has a flow and return plastic water tank 8 and 9, respectively. According to FIGS. 1 and 3 to 8, a lower part 9 of a storage, ventilation and compensation chamber 10 is integrally formed on the flow water tank 8. In the area of a parting plane 11, an upper part 12 of the chamber 10 is fastened to the lower part 9 and thus to the water tank 8. While the water box 8 with the lower part 9 consists of an opaque fiber-reinforced plastic, the upper part 12 can consist of a transparent plastic due to its pressure-resistant, approximately circular cross-section, so that the coolant level 13 can always be observed from the outside. The water tank 8 and the chamber 10 are connected to a vent line 14, which opens out from a high point 8 'of the water tank 8 and in one The mouth 15 ends in the chamber 10. The mouth 15 has a throttled cross section and is optionally starting from the chamber, starting from a molding opening 15 ′ which is closed towards the water tank 8 and lies in its molding direction, or in the parting plane 11 between the two chamber parts 9 and 12, which are connected, for example, by gluing or welding molded. A control line 16 connects to the vent line 14 and opens through the filler neck 17 of the chamber 10 into a control chamber of the filler cap 18. The latter contains pressure control valves in the usual way, which connect via a drain line 19 to the atmosphere in the event of excess or. Control falling below predetermined maximum and minimum pressure values in the water tank 8 or in the chamber 10. The vent line 14 and the control line 16 are integrally formed on the ribs 20, the water tank 8 and the lower part 9 and the upper part 12 of the chamber 10. The ribs 20 are thickened tubularly at a distance from the walls of the water tank 8 and the chamber 10 for the lines. This avoids material accumulations that could adversely affect the shape of the plastic parts.

The vent line 14 continues downward to a shaping and emptying opening 21 which contains a multi-way emptying valve 22 and to which an emptying nozzle 23 for connecting an emptying hose 24 is molded. A drain connection 25, 26 from the water tank 8 and from the chamber 10 also opens into the drain valve 22. These drain connections 25 and 26 are either formed continuously towards the water tank 8 in the direction in which it is formed, or are formed separately towards the water tank or the chamber 10. On the lower part 9 of the chamber 10, a filling and bypass return line 28 to the coolant pump 5 connects to a molded hose connector 27. In the upper part 12 of the chamber 10, an electrical float switch 29 is installed, which indicates an excessive drop in the coolant level 13 via a control lamp.

The vent line 14 contains in the area of the parting plane 11 of the chamber 10 a connecting part 14 'to which the control line 16 is laterally offset in the parting plane 11 to the main part of the vent line 14 connects. A horizontal end section of the control line 16 opening into the filler neck 17 is formed by an outer opening 16 ′ which is closed by a stopper.

As can be seen in particular from FIGS. 3 and 4, the vent line 14 and the control line 16 are protected and arranged in a space-saving manner at a close distance between the water tank 8 and the chamber 10. Instead of long, thin form slides, they can be formed using molded metal pipes without a draft, which is favorable for production.

The embodiment according to FIG. 2 contains a chamber 10 'which is integrally formed on the water tank 8 and which has a smaller volume and which can be shaped into the filler neck 17'. For the coolant supply, an atmospheric reservoir 19 'is connected to the drain line 19, which also acts as a water reservoir for the complete ventilation of the cooling circuit including the chamber 10'.

In this embodiment, the control line 16 branches off from the ventilation line 14 directly in the region of the high point 8 ′ of the water tank 8. The mouth 15 of the control line 14 into the chamber 10 'branches off directly from the main part of the vent line 14 and is formed towards the water tank 8 via a shaping opening 15' which is closed by a stopper. The water tank 8 and the chamber 10 'are integrally connected by a rib 20' which contains the vent line 14 approximately in the middle between the water tank and the chamber in a tubular thickening.

Due to the features according to the patent claims, both designs of a cross-flow cooler according to the invention enable rational production with a few plastic parts which can be formed inexpensively while ensuring an advantageous cooling system function with regard to filling, emptying, venting and supply pressure control, in particular with a separate return connection on a supply pipe -Water tank arranged compensation chamber.

Claims (10)

1. Water box made of plastic for a cross-flow cooler for internal combustion engines,
which has a molded compensation chamber (10) with a filler neck (17) and with a filler cap (18) containing pressure control valves,
with a ventilation line (14) which connects a high point (8 ') of the water box (8) having a flow connection (3) and a lower-lying junction (15) into the equalization chamber (10), and
with a connection (27) formed in the base area of the equalization chamber (10) for a secondary flow return line (28) to the suction side of a coolant pump (5) which is separate from the cooler return line (6),
characterized,
that the ventilation line (14) is formed in one piece and is extended from the approximately vertically running main part to a lower forming and emptying opening (21), in the area of which an integrally formed emptying connection (25 and 26) from the water tank (8) and from the compensation chamber (10) open, and
that the shaping and emptying opening (21) contains a drain valve (22) which the vent line (14) and Drain connections (25 and 26) and a drain outlet (drain port 23) in the open position with each other or seals against each other in the closed position. 2. Water tank according to claim 1, characterized in that the mouth (15) of the vent line (14) into the chamber (10) from this starting by means of a slide valve and / or in a parting plane (11) between two chamber parts connected by gluing or welding (9 and 12) is formed. 3. Water box according to claim 1, characterized in that the vent line (14) via a piece integrally formed on the water box (8) and / or on the chamber (10) control line (16) with a mouth connected to a control chamber of the filler cap (18) is connected in the filler neck (17). 4. Water tank according to one of claims 1 to 3, characterized in
that the ventilation line (14) and / or the control line (16) are essentially formed on the outside in the water tank (8) and / or the chamber (10) and are arranged at a distance from these tubular ribs (20). 5. Water tank according to claim 4, characterized in that the water tank (8) and chamber (10) are integrally connected by a rib,
which contains the ventilation line (14) and / or the control line (16) at a distance from the water tank and the chamber. 6. Water tank according to one of claims 1 to 5, characterized in
that the chamber (10) consists of a lower part (9) integrally formed on the water tank (8) and an upper part (12) attached to the lower part. 7. Water tank according to claim 6, characterized in that the upper part (12) consists of a transparent or translucent plastic at least in the region of the coolant level (13). 8. Water tank according to claim 6, characterized in that the mouth (15) of the vent line (14) in the chamber (10) in the area on both sides of a parting plane (11) between the upper and lower part (9 and 12) of the chamber (10) is arranged. 9. Water box according to claim 3, characterized in that in the region of the parting plane (11) between the upper and lower part (9 and 12) of the chamber (10) in the lower part (9) a connecting part (14 ') of the vent line (14) is formed is
which opens into an opening in the parting plane (11) which is laterally offset from the main part of the ventilation line (14) and
which continues in the control line (16) which adjoins the opening, is formed on the upper part (12) and is formed towards the parting plane (11). 10. Water tank according to claim 9, characterized in
that the molded on the parting plane (11) on the one hand on the water tank (8) and on the other hand on the upper part (12) parts of the vent or control line (14 or 16) arranged in a free distance between the water tank (8) and chamber (10) and
are connected to these by means of a rib (20),
which are arranged approximately parallel to each other and overlapping.

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