Not applicable.
Not applicable.
Not applicable.
Not applicable.
1. Field of the Invention
The present invention relates to a process for manufacturing a part having a fluid circuit, and to a part obtained by the process.
2. Description of Related Art Including Information Disclosed Under 37 CFR 1.97 and 37 CFR 1.98.
More particularly, the invention aims to solve the problems encountered when producing a channel for transferring fluids (liquid or gas) through the wall of a part, that is to say for transferring fluid from the inner cavity of the part to its outer surface (and vice versa). This invention is preferentially applicable in molds intended for the field of plastics processing (polystyrene injection molding, thermoforming), the foundry-work field (sandcasting), the mechanical field (tooling manufacture), the hydraulics field (manufacture of filters), and the glass-making field, this list not being exhaustive.
In particular, the object of the invention is to replace and/or improve, in tooling, the use of holed filters or of drilled microholes on the surface of the tooling, these microholes serving usually:
The problems of the prior art are solved thanks to the invention, which consists in using the Stratoconception (TM) method in order to apply it to the manufacture of a part and of its integrated fluid circuit.
The Stratoconception (TM) method is described in the following patents and patent applications: FR 2 673 302, WO 00/31599 and WO 00/31600.
The subject of the present application is a novel application that solves abovementioned problems of the processes of the prior art.
The invention will be more clearly understood with the aid of the description below, given with reference to the following appended figures.
a and 4b are part perspective and sectional views for defining the composition of the fluid transfer channels and view of G in detail.
a and 6b are perspective and isolated perspective views of the tooling according to the invention, produced with inter-stratum flat-surface planes, and of H in detail.
a and 7b are perspective and isolated perspective views of the tooling according to the invention produced with warped-surface inter-stratum planes, and of I in detail.
a,
16
b,
16
c are schematic views showing the position of the angle of inclination (α) relative to the angle (β).
The producing of fluid discharge or diffusion channels in a portion of tooling intended for a motor vehicle will be described, byway of a non-limiting example of the application of the invention, in conjunction with
Of course, the invention may applied to any part, other than tooling, which includes a fluid circulation channel.
The invention consists in using the Stratoconception (TM) method to produce, in the various inter-stratum planes (these may be flat or warped), channels (2) for allowing a fluid to pass through the tooling (1) and around an object when molding the latter (
Said cooling is formed from a rear face (7) and from a front face constituting the plane of opening of the tooling and including a molding cavity (9) for molding an object (not shown). According to this process, the tooling (1) is, by its design, subdivided into strata ( . . . *6i, 6i+1 . . . ) which, after being joined together, form a tooling (1) (
These channels are thus closed and emerge at one end in the molding cavity (9) and at the other end on the rear face (7) so as to allow a fluid to pass from one side of the tooling or part to the other.
This set of channels (2) is formed from a feed portion (3) and a diffusion portion (4) connecting, on one side, the molding cavity (9) and, on the other side, the rear face (7) of the tooling (
The use of “warped-surface” stratification makes it possible to eliminate in-fill problems (
The channels (2) of one and the same inter-stratum plane (whether flat or warped) (Pi), which are produced, entirely or partly, in one face of a stratum (6i), are open towards said inter-stratum plane (Pi) whereas the face facing the next stratum (6i+1) (whether flat or warped) may include the complementary shape of the channels (2) (
In one and the same inter-stratum plane, the separation of the feed portion (3) from the diffusion portion (4) is calculated, by an offset of a value (d), from the profile (10) of the part (
The inter-stratum plane is formed from channels (2) (hatched zone in
When the bearing zones (5) are located in the feed portion, the latter is then formed from feed ducts (12). This configuration defines a first variant (
Likewise, in a second design variant, the diffusion portion is provided with bearing zones and is formed from “diffusion” ducts (13) (
A third design variant has also been proposed (
The geometry of the channels (2) width (w) and pitch (p) between two successive ducts (12) or (13) and the constant or variable thickness (es) of the strata can be parameterized according to the flowrate of fluid which has to pass from one face of the tooling to the other. The pitch “p” is defined by as the center-to-center distance between two ducts (12) in the case of a system of parallel ducts (
The geometry of the ducts ((12) or (13) or (14)) is defined by its depth (Pr) and its cross section (14) in a plane perpendicular to the inter-stratum plane, which may be straight (
The angle (β) is parameterizable and calculated numerically, and this may vary over the entire length of the part so as to enable the pressure drops to be minimized (mainly for the third variant).
This angle (β) is defined in the plane of the stratum, but it may also be supplemented with a second angle (α) defined in the thickness of said stratum (
All these parameters make it possible, when designing the tooling, to optimize and homogenize the flow of fluid over the entire molding surface so as to ensure the best performance for the tooling so that it can produce parts of optimized quality and/or with a minimal cycle time. Software packages dedicated to the Stratoconception (TM) method carry out, mathematically and numerically, the decomposition into strata, the creation of said fluid transfer channels and the optimization of their parameters by implementing a specific algorithm.
Number | Date | Country | Kind |
---|---|---|---|
0205657 | Jun 2005 | FR | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
---|---|---|---|---|
PCT/FR2006/000661 | 3/27/2006 | WO | 00 | 11/27/2007 |