DE102005039431B3 - Device for reducing the air flow rate in the venting channel of a diecasting mold comprises bends between inflow and outflow sections, where the axes of these sections form acute angles with the tangents to the bends - Google Patents

Abstract

Device for reducing the air flow rate in the venting channel of a diecasting mold, where the venting channel comprises an intermediate section (20) between an inlet section (18) and an outlet section (19), comprises bends (21, 31) between an inflow section (23) and an outflow section (25), where the axes of the inflow and outflow sections form acute angles with the tangents to the bends.

Description

The The invention relates to a device according to the preamble of the claim 1.

At the fill a form, be it in high-pressure or low-pressure casting, the Chill casting or other casting process, which must be in the Formed air can be removed from the mold to make a clean Casting result without voids and porosity to achieve. This can either actively by evacuating the mold before the actual filling process, passively by displacing the air when introducing the casting material or by a combination both methods.

Usually has the form of valve means, which after the complete venting of the Form to be closed. To a permanent function of such To ensure valve devices must be ensured that no casting material from the mold enters the area of the valve devices, as this usually to destruction the valve devices leads, so they need to be replaced. This is high personnel Effort and costs associated.

From the German Utility Model DE 202 08 464 U1 a valve device in the form of a so-called chill valve is known. In this valve device, the venting of the mold is carried out by a labyrinth or washboard-like gap in a block-like valve body of a highly conductive material, wherein after removing the air from the mold casting material from the mold enters the gap in the valve body and freezes there. This ensures that all air is removed from the mold and a satisfactory casting result is achieved.

There due to the high pressure in the mold filling air and casting material emerge from the mold at high speed, the valve body with the splitting device are built comparatively long, so that the Casting material in the valve body freezes. In addition, due to the high flow rate of the casting material in the valve body in the inflow area an elevated one Wear of the valve body on.

Around the flow velocity reduce the casting material immediately in front of the valve body and thus To reduce the necessary length for safe freezing, it is known between Mold and valve means a device for flow reduction provided. Such devices have labyrinthine channels, that of the repressed Air and spilled by leaked casting material. They should do this channels due to their arrangement, training and sizing for the departing Air one as possible low flow resistance and for emerging casting material as high a flow resistance have, so that due to the reduced flow rate of the casting material an earlier one Freezing in the valve device and thus a reduced length of the Valve device allows becomes. A disadvantage of these known devices for flow reduction However, that is either the flow resistance for the air to be discharged too high and / or the flow reduction for the emerging casting material is too low.

outgoing From this prior art, it is the object of the present Invention, a generic device to reduce the flow velocity in the area of a ventilation channel a mold to create, with low flow resistance for the air to be discharged an improved reduction in the flow rate of leaking Casting material has.

These The object is achieved by a device according to the teaching of the claim 1 solved.

advantageous Embodiments of the invention are the subject of the dependent claims.

The inventive device to reduce the flow velocity in the area of a ventilation channel a mold has in a conventional manner, first a Channel arrangement on, during or before filling the mold, at least from the displaced air discharged from the mold, As a rule, however, is also flowed through by escaping casting material. In this case, the channel arrangement with at least one pointing to the mold Inlet duct section and at least one pointing away from the mold Outlet passage section provided, wherein between outlet passage section and inlet channel section at least one intermediate channel section is provided.

in the Contrary to the known devices, however, has the intermediate channel section at least one arcuately curved Section, whose first end with a Anströmkanalabschnitt and the second end thereof connected to a discharge passage portion is that the centerlines of inflow and outflow channel section and the tangents to the arcuate curved section in the area the connections each include an acute angle.

In other words, that means so probably for the air flowing through the device as well as for the casting material in the region of the arcuately curved portion practically a double flow direction reversal, but at least flow direction change by more than 90 degrees, takes place. In particular, in the region of the two ends of the arcuate portion, a turbulent flow region is formed, which obviously represents a considerably lower resistance for the air flowing through than for the flowing casting material. As a result, a high air flow rate at the same time high flow resistance for the flowing casting material is made possible.

The Feature "sharpener Angle "closes first every angle that is less than 90 degrees. Preferably However, the acute angle less than 60 degrees, especially smaller as 45 degrees. The exact choice of the acute angle depends from the flow velocity of air and casting material, the channel cross-sections and the desired Choke degree and can easily by a professional according to the respective requirements are determined.

The exact shape of the arcuately curved portion is initially basically arbitrary and can be done by a professional according to the respective requirements chosen become. For example, the arch can be elliptical, parabolic or to be a freeform. According to a particularly preferred embodiment however, it is arcuately curved Section a circular arc or a circular arc section.

It is basically possible, that the acute angle between the arcuate portion and the Anströmkanalabschnitt on the one hand and the arcuate section and the outflow channel section on the other hand are different. After a particularly preferred Embodiment of Invention, however, is the acute angle between the centerline of the inflow passage section and the associated end of the arcuately curved portion substantially equal to the acute angle between the center line of the outflow channel section and the associated end of the arcuately curved portion.

The Arrangement of inlet duct section, indirectly or directly connects to the mold, and outlet channel portion which directly or indirectly to a connected downstream valve device is initially arbitrary. So can these two channel sections in the flow direction gegeneinender be arranged offset. Likewise, a plurality of inlet channel and / or outlet duct sections conceivable. Preferably, however, are the inlet channel section and the outlet channel section substantially aligned with each other, wherein the arcuately curved portion with its vertex essentially to the escape line through these two Channel sections facing.

In The simplest way is according to the invention a bow-like channel section provided, in the manner described above of air and / or Flows through casting material becomes. However, according to a preferred embodiment at least two arcuately curved Provided sections that are axisymmetric to the alignment line, the is called in the flow direction essentially side by side, are arranged. This results a symmetrical uniform flow through the Contraption. In similar Way you can essentially in the flow direction also several channel arrangements with arc-like curved sections be arranged in cascade behind one another.

Anströmkanalabschnitt and / or outflow channel section can in any geometry. According to a preferred embodiment run Anströmkanalabschnitt and / or outflow channel section straight from the inlet duct section and / or outlet duct section to the respective arcuate Section. In particular, the on both sides of the inlet channel section and / or outlet channel section arranged inflow channel sections and / or outflow channel sections aligned.

To a further embodiment are the two sides of the inlet channel section and / or outlet channel section arranged inflow channel sections and / or outflow channel sections at least in sections opposite angled away from the alignment.

To a particularly preferred embodiment According to the invention, the device has a block-like housing body and removable lid, wherein the entire channel arrangement in body and / or lid is arranged or formed such that the Parting line through all Channel sections runs. In other words, this means that when in the device solidified or frozen casting material by separation of body and Cover this easily demoldable.

To a further embodiment the outlet channel section leading to the downstream valve device essentially in the lid and the remaining channel sections substantially in the main body arranged or formed.

Preferably, the device according to the invention is used in conjunction with a downstream chill valve or the like. Use in combination with any valves However, this type, such as piston valves or other switchable valves, or even without downstream valves is also conceivable.

in the The following is the invention with reference to only one embodiment showing drawings closer explained. It shows

1 an arrangement of a mold, a downstream valve device and a device for reducing the flow velocity according to the prior art in a schematic representation in a broken view from above;

2 in one of the 1 corresponding enlarged view of an embodiment of a device according to the invention; and

3 the device after 2 in section along the section line FF in a schematic representation.

The arrangement after 1 has a mold 1 with a mold nest 2 on, in the not shown sprues casting material is introduced with pressure. Here is the mold in the nest 2 Air through the introduced casting material through the casts 3 . 4 . 5 and 6 repressed. The casts open into a ring channel 7 that has a central casting 8th flows outwards.

In the flow direction of the central casting 8th downstream, is a valve device 9 arranged in the form of a chill valve. This valve device has a washboard-like or labyrinth-like-shaped gap in which the casting material escaping from the casting mold solidifies or freezes.

Between the valve device 9 and the mold 1 or the central casting 8th is a device 10 arranged to reduce the flow rate, in particular for flowing through casting material according to the prior art. The device 10 has a butterfly shaped channel arrangement 11 on that via an inlet channel section 12 with the mold 1 and a discharge passage section shown by a dashed line 13 with the valve device 9 connected is.

When filling the mold 1 For example, the air therein is passively displaced by the casting material introduced into the mold and, on the other hand, actively displaced by a vacuum device indicated only schematically 14 aspirated. After complete filling of the mold 1 Excess casting material passes through the casts 3 to 8th first in the device 10 in which a reduction of the Strömungsgeschwin speed of the casting material takes place. The casting material then passes into the valve device 9 and freezes there. To remove the casting from the mold at the same time the mold 1 , the device 10 and the valve device 9 open along a common parting line, so that at the same time the casting and the solidified casts of the casting mold, device and valve device can be removed.

The in the 2 illustrated device 15 to reduce the flow velocity in particular for flowing through casting material basically has the same structure as the device 10 According to the state of the art.

In a basic body 16 is a channel arrangement 17 educated. The channel arrangement 17 has an inlet channel section 18 on, permeable to air and casting material with the central casting 8th the mold 1 is connectable. Likewise, the channel arrangement 17 a dashed line, in a in the 2 lid, not shown, arranged outlet channel section 19 on, with which the device 15 with the in the 2 not shown valve device 9 is connectable.

Between the inlet channel section 18 and the outlet channel section 19 is an intermediate channel section 20 arranged. The intermediate channel section 20 has a bow-like curved section 21 in the form of a circular arc. The first end 22 of the section 21 is with a Anströmkanalabschnitt 23 and the second end 24 of the section 21 with a discharge channel section 25 connected. This includes both the center line 26 of the inflow passage section 23 with the tangent 27 to the section 21 an acute angle α and the center line 28 the outflow channel section 25 with the tangent 29 to the section 21 an acute angle β. In the illustrated embodiment, the angle is about 30 degrees.

The inlet duct section 18 and the outlet channel section 19 are along the line of flight 30 in the illustration 2 , that is, in the projection on the drawing plane, arranged in alignment with each other. This is the line of flight 30 simultaneously symmetry axis for the entire channel arrangement 17 , Accordingly, it is axisymmetric to the alignment line 30 a second arcuate section 31 arranged in arrangement and connection to inlet duct section 18 and outlet channel section 19 completely the section 21 equivalent. Both sections 21 and 31 point with her vertex to the line of flight 30 ,

The two to the outlet channel section 19 pointing ends of the sections 21 and 31 are through the associated outflow channel sections 25 and 32 just so interconnected that the two outflow channel sections 25 and 32 aligned.

The inflow channel sections 23 and 33 have an angled course, so that together with the inlet channel section 18 gives an arrow-like design.

In 3 is a section along the section line FF to 2 shown. In particular, this illustration shows that the device 15 a block-like housing 35 with a basic body 16 and a lid 34 having. The two housing parts 16 and 34 are along a parting line 36 separated and stand out from each other. The outlet channel section 19 is in the lid 34 arranged or formed while the remaining channel sections, in particular the inlet channel section 18 and the discharge channel sections 25 . 32 , in the main body 16 are arranged or formed. Due to this design, a slight demolding after freezing of the casting material is possible.

Claims (12)

A device for reducing the flow velocity in the region of a ventilation duct of a casting mold with a channel arrangement, which is flowed through during the filling of the mold from the displaced air discharged from the mold, wherein the channel arrangement at least one pointing to the inlet duct portion and at least one away from the mold wherein there is at least one intermediate channel section between outlet channel section and inlet channel section, characterized in that the intermediate channel section ( 20 ) at least one curved section ( 21 . 31 ) whose first end ( 22 ) with a flow channel section ( 23 ) and its second end ( 24 ) with a discharge channel section ( 25 ) is connected in such a way that the center lines ( 26 . 28 ) of inflow and outflow duct section ( 23 . 25 ) and the tangents ( 27 . 29 ) at the arc-like curved portion ( 21 . 31 ) in each case include an acute angle (α, β) in the region of the connections. Device according to claim 1, characterized in that that the acute angle (α, β) is smaller than 60 degrees. Device according to Claim 1 or 2, characterized that the acute angle (α, β) is smaller than 45 degrees. Device according to one of claims 1 to 3, characterized in that the arc-like curved portion ( 21 . 31 ) is a circular arc. Device according to one of claims 1 to 4, characterized in that the acute angle (α) between the center line ( 26 ) of the inflow passage section ( 23 ) and the associated end ( 22 ) of the arcuately curved portion ( 21 ) substantially equal to the acute angle (β) between the center line ( 28 ) of the outflow channel section ( 25 ) and the associated end ( 24 ) of the arcuately curved portion ( 21 ). Device according to one of claims 1 to 5, characterized in that the inlet channel section ( 18 ) and the outlet channel section ( 19 ) are arranged substantially in alignment with each other and the arc-like curved portion ( 21 . 31 ) with its vertex substantially to the line of flight ( 30 ). Apparatus according to claim 6, characterized in that at least two arc-like curved sections ( 21 . 31 ) are provided, the axisymmetric to the alignment line ( 30 ) are arranged. Device according to one of claims 1 to 7, characterized in that Anströmkanalabschnitt ( 23 ) and / or outflow channel section ( 25 ) straight from the inlet channel section ( 18 ) and / or outlet channel section ( 19 ) to the respective arcuate section ( 21 . 31 ). Apparatus according to claim 8 in conjunction with claim 7, characterized in that the double-sided of inlet channel section ( 18 ) and / or outlet channel section ( 19 ) arranged inflow channel sections ( 23 ) and / or outflow channel sections ( 25 ) are aligned. Apparatus according to claim 8 in conjunction with claim 7, characterized in that the double-sided of inlet channel section ( 18 ) and / or outlet channel section ( 19 ) arranged inflow channel sections ( 23 ) and / or outflow channel sections ( 25 ) at least in sections opposite the line of flight ( 30 ) are angled at an angle other than 90 degrees. Device according to one of claims 1 to 10, characterized in that the device ( 15 ) a block-like housing ( 35 ) with basic body ( 16 ) and removable lid ( 34 ), wherein the entire channel arrangement ( 17 ) in the main body ( 16 ) and / or lid ( 34 ) is arranged or formed such that the parting line ( 36 ) passes through all the channel sections. Apparatus according to claim 10, characterized in that the outlet channel section ( 19 ) substantially in the lid ( 34 ) and the remaining channel sections substantially in the main body ( 16 ) arranged or formed.