DE826539C - Reflector and mold for its manufacture - Google Patents

Description

Reflector and mold for its manufacture The invention relates to on pressed or molded prismatic triple reflectors and their manufacture.

The invention seeks in particular to perfect such reflectors, those made from a sheet of glass or malleable synthetic plastic. like synthetic resin, Cellulose acetate o. The like., Consist, on one side at right angles or substantially right-angled triple reflectors are arranged in the form of tetrahedra, which stand out Reflect light towards the light source. The invention relates simultaneously on the design of the molds for the production of such reflectors.

In a known embodiment of such reflectors are Triple reflectors arranged in groups that form a repeating geometric Pattern of recurring circular groups of six triple reflectors each form; these groups repeat themselves in quick succession. The layout of each group has six sides in the shape of a regular hexagon; one side of the triangular The base of each of the six triple reflectors forms one side of this hexagon; the other sides of the base of the triple reflectors, of which always two Sides of adjacent triple reflectors coincide, meet in a common Point, namely the center of the hexagon.

It has been shown that a hexagon forms in the center of each Group a dark spot that affects the efficiency of the reflector as a whole degrades.

In the manufacture of triple reflectors, at (conduct all three reflecting surfaces at right angles or essentially at are at right angles to each other, it is essential that the corresponding, the reflective surfaces forming faceted parts of the shape with the greatest possible optical quality Accuracy are established; It is also important that the molded parts which produce the reflective surfaces are 'economical' to manufacture and easy to manufacture and can be exchanged or overtaken quickly.

In the manufacture of triangular surface reflectors is known that the reflective surfaces producing molded parts from a rod profile of rhombus-shaped or to cut out a cross-section in the shape of a bal'brliombus. When using rhombus-shaped Moldings are cut out two shape-forming surfaces at one end. the sic] i cut on the longer diagonal of the molding and each of them with the axis of the molded part forms an angle of about 35 ° 16 '. The outer ones Molded parts with a half-rhombus profile only have one shape-forming surface, which is shown in cut at the required angle.

The non-reflective parts of such reflectors can be eliminated be by taking each of the three vertices of the base of such tetrahedra cut off and a set of three molded parts, each with a reflective molding surface used to form each tetrahedron.

The invention provides a simplified form that makes it possible. the non-reflective areas in the center of each group in a simple manner to suppress and to replace with additional triple reflectors.

As before, a form according to the invention is made up of a number with Forming surfaces composed of provided parts. In its simplest form in which it is used to create a group, it consists of sets of three single-sided Elements for making -the central triple reflector of the group, a number of elements insulated with two faces, which have a hexagonal opening for the let the former parts, and a number of faceted edge parts that form the molded parts complete such a group.

The edge parts can each have only one shape and form a continuous regular hexagon. The molded parts kömieli can be viewed as derived from rhombus-shaped profiles. The edge parts of the form were created from lialbrhombus-shaped profiles to <steer, i.e. left. of triangular profiles, the base area of the triangle corresponding to the larger axis of the rhombus and one outside of the hexagonal outline of the shape grouping. Each of the three central molded parts with a surface can also be derived from such a semi-diamond-shaped profile; However, the acute-angled apex edges have progressed to form a pentagon, so that the three parts together form a hexagon after their assembly. The arranged between these molded parts advised parts are from a complete rlioruirLis- profile, but one of the two acute-angled ligen parting edges advanced so that this Group of molded parts according to their assembly a hexagonal opening in the middle Including the three niittlereii molded parts with _je Leave blank space. Two or more such groups can be in any expedient _ @ nordn @ .: n, @ to education a reflector summarized Nverden. But where more than one such group to the Amvendtitig g, - long, they should preferably be arranged in this way \\ - "- r- the fact that the base surfaces are reflective Surfaces that form the outer edges of the entire Svstein form a single hexagon @ rel-mfai: form a line. The. Form for making e_rie: solclicu reflector is characterized by it. that the molded parts are finite; c two shaped surfaces are rhombus-shaped profiles which the apex edges heicler pointed \ 'v'ink: l advanced and the marginalized arranged components by further such form parts with two shaped surfaces each, by parts finite each two shaped surfaces of rboinbus-shaped transverse cut, in which the crown edge of a point Winkel has progressed through sets of three of Moldings, the uni the middle three substitute, your they resemble, around in hexagonal are grouped by the named components are formed with two shaped surfaces each, as well as finally through external molded components each with one Form surface are formed. The openings that dis surrounding sets of three aufnelinieli, can through three of the components with two forniflächeti each both of which have sharp-angled apex edges steps and three more 13atiteile are formed are "where ntir the one sharp-angled Parting edge is advanced and the one with dei outer half-lemon bus-shaped parts, which have a Connected hexagonal border lines: make up the whole arrangement, fit together. Additional parts with z @ vei Flielieri can be used in front of # Me- to see more than a ki-ice series of Sets of three from the parts with a flat ° to form, One with the help of a forni after -cler L-riiiidtin '. manufactured reflector in simple execution form consists of a 'central triple reflector and a group around it six triple reflectors, with the baselines the outwardly lying reflective surfaces of these Group form a connected hexagon. There can also be a number of groups of each Triple reflectors: @n \\ - find endless of which each has a central triple reflector, and some of these reflectors being more than one Group and the base lines of the im System for extremely lying reflective surfaces form a contiguous hexagon. Example There can be six groups around a group be arranged by seven triple reflectors each, with two reflectors in each of these six Groups are tetrahedra. where only one Base apex fortlesclmitt; n ist.zi @ ei @ etra- eder, l; ci which have two base areasusclieitel fc »-tge- are sclinitten and the other two tetrahedra, in which all vertex tips are cut away are; the center reflector of each group is also a tetrahedron in which all three base areas seheitel are cut away. If a number of such groups come into play dung, the central reflectors become ztveckiform oriented differently from each other. The reflector surface is expediently by a Includes annular rib that surrounds the triple reflectors there and cut off with their tips or still about it himvegragt. The invention is for her better @ -crst @ indnis illustrated on the drawing, for example. In this two known reflectors are shown and also reflectors and manufacturing formsc # ii Therefore. which, for example, the invention veraiischati- lic.heri. Fig. I illustrates one in plan Reflector. of the adverse appearance has dark spots; Fig. 2 illustrates a known reflector, which avoids this disadvantage, but is too difficult at the first; # all given the form .Anlal.l Has; Fig.3 is an urgent plan of the simplest form a reflector according to the invention; Fig.4 is a plan of another Atis = Guide form of a reflector according to the invention; Fig. 5 illustrates a: läuderungsmö g @ ich- compared to F * 9. .I; Fig. 6 is a plan view and Fig. a sub view of a mold for making the reflector according to Fig. 3; FIGS. 8 and 9 illustrate in a corresponding manner I) arstellurig a form for the productioniii; g voti reflective goals according to claim .I; Fig. 10 illustrates top views of @ ol-m- elements for making molds according to 6 to 9, and hig. ii gives the associated: \ uessicht: Ft-. 12 is C # in section through the two "files" one form. The i> recognized shape of a reflector according to I # ig. t has repeating circular groups of each six I) maturity reflections in the form of tetra- c # (learn ailf. every tetrahedron i has an equal sided triangular base. The inside left, # - the vertices of the base of the six Tetrahedra in a group fall in a central point together. As said at the beginning, with sol- chen reflectors dark spots, such as those around the Schraftur indicated in Fig. i of the drawing are. These dark spots are covered by the all could be avoided. \ iiorcliiting according to Fig. 2 avoided, where a central triple reflector 2 innerlialb each Group: of six 1) multiple reflectors 3 arranged is. Each reflector is similar in shape to the "the tetrahedra of Fig. 1, but the three cut away at the tip of the base. 1) The shape. which is used to manufacture such a reflector used consisted of three separate parts with a form-forming surface for each reflector, and this meant an undesirable complication for the manufacture and construction of the form.

The reflector in FIG. 3, which is produced according to the invention, consists of a group of seven triple reflectors which are arranged within a hexagonal circumferential line. The central reflector d is surrounded by six reflectors 5. The apexes of the base of the tetrahedron forming the central reflector are all cut away Of the tetrahedra, however, which form the ring of the six reflectors arranged around it, only the inwardly directed vertices of the base are cut away. The base edges 6 of the outer reflecting surfaces of all reflectors, with the exception of the central reflector, form a continuous hexagonal boundary line. A plurality of such groups may be provided in any convenient arrangement, Figure 4 illustrates a preferred embodiment in which: A number of groups of triple reflectors each surround the outer parts of the central group with which it is completed ig cover. In this case the angles of the hexagonal figure, which was normally formed by the central group, are interrupted by the protruding part: the triple reflectors, which, as a result of the repetition and mutual overlap of the illustrated - '\, ltisters the central reflectors of the arranged in a circle and one another Form overlapping groups of reflectors, each consisting of seven. To make this arrangement easier to understand, the boundary lines of the parts of one of the groups of circles of seven reflectors are drawn out in Fig. 4 stank and additionally shaded. One sees that two of each group, namely 8 and 9, are tetrahedra, with thin only one vertex of the base is removed; two more, namely io and tt, are tetrahedra ,. in which two apexes of the base are removed; the remaining two finite, namely 12 and 13, are tetrahedra in which all apexes of the base are cut off. The central reflectors 1q of these groups are also those tetrahedra whose three vertices are removed from the base.

Although the - center reflectors of the more diverse groups of sevens as in Fig. 4 can be aligned in the same direction, it is more appropriate to to orient them differently, as it is drawn, for example, in Figure 5. These different; Orientation 'can of course be realized in many ways, Fig. 5 illustrates only one embodiment of this.

The molds according to the invention consist of a number of mold parts, each of which is provided with either one or two shape-forming surfaces which correspond to the reflecting surfaces of the final triple reflectors. For animal positioning of reflectors according to the type of FIGS. 3, 4 and 5, it appears expedient to produce these shaped elements from rhombus profiles. In FIGS. 1 and 2, the rhombus-shaped starting profile is denoted by A, the molded parts developed therefrom by B, C, D and E. The molded parts B and C have two surfaces, the molded parts D. And E only one. The cross-section of the parts C is hexagonal, with two opposite sides being longer than the other sides. Parts B have the shape of an irregular pentagon, just like parts E. Part B is made by cutting off the sharp angle of the rhombus profile over about a third of the length of the larger diagonal. Part C is produced by cutting both sharp-angled edges of the rhombus profile about a third of the length of the diagonal connecting the cut edges.The base line of the pentagon of part E is equal to the length of the base of the pentagon of part B or the same as the Length made of long sides of the irregular hexagon of element C.

For the production of a mold according to FIGS. 6 and 7, the molded parts B and E required. `Fenn six parts B with two shaped surfaces in a ring to form a group of six are assembled, they form a hexagonal central opening 15 for receiving of three parts E each with a shaped surface. The six components D each have a shaped surface match the six parts B and form a hexagonal enclosure. To 'regarding Eliminating the dark spot to get the best efficiency should turn out to be the distance between opposite sides of the hexagonal opening 15 is a Third of the distance between opposite sides of the outer hexagonal The boundary line. The shape of the reflectors represented by a three number of the Elements E are formed and fill the central opening, eliminated altogether the dark point in the center of each hexagonal group according to FIG. 1.

By using further parts C with two shaped surfaces and a larger number of parts B, D and E and by repeating them accordingly, a central group of seven reflectors can be surrounded by a number of mutually overlapping additional groups, the whole system being arranged in a hexagonal boundary line . Such an arrangement can be achieved with a shape as shown in FIGS. The middle group in this design consists of three parts E, for which a hexagonal central opening is formed by six parts C with two shaped surfaces. These parts C work together with six other parts C, each of which is adjacent to two parts C of the first row. These further parts C are followed by a wreath made up of parts B with two shaped surfaces and together with them forms a wreath of six further hexagonal openings, each of which accommodates three components E. The shape is completed by an outer rim on the edge of. twelve elements D Init each with a shape surface, which form the hexagonal boundary line of the shape. In the form just described, only the middle group consists entirely of hexagonal components; however, two or more groups of this type can be assembled into a repeating and mutually overlapping pattern of the desired shape and size. In this way, more wreaths than one can be built from middle sets of three of E components.

U m the composite arrangement of one or both types of the described To hold components together in the main part of the mold, it is necessary to create a subdivided, socket ring consisting of two or more parts, 16 to use its shape corresponds exactly to the shape of the assembled arrangement and its parts through suitable fasteners are held together. The ring 16 is accordingly Fig. 12 is expediently designed so that the tips of the molded components used protrude freely over the edge of the sleeve.

The other mold half 17 is so deep that the between the two mold halves produced reflector receives a ring-like wall part 18, the upper edge of which with the tips of the triple reflectors cuts off or protrudes beyond and protects them from damage.

The reflectors are then shaped especially with the tips down if glass is used as a molding material. This creates a collapse or other deformations avoided after casting and a more accurate reproduction of the Shape ensured as w elili the reflectors are shaped with the tips upwards would. On the other hand, if the reflectors are molded from synthetic resin, 'It has turned out to be useful', the shaping process in a vertical direction Make position of the mold, taking the pressure on the plastic or molten Jlaterial is maintained long enough to properly form the reflector ensure in shape.

The reflectors can be formed on the rear side with a convex lens as indicated at 17 in FIG.

Another disadvantage of the known reflector shown in FIG Incidentally, it still consists in the fact that it has strong, continuous, L-literbrecl: uiigslinien has, as for example in \ -X ang, -interpret. For example, along these lines There is a considerable risk of breakage during the molding process. A reflector avoids this disadvantage, which is made with the aid of the form described and claimed.

Claims (13)

PATENT CLAIMS: 1. Form, in particular casting or compression mold, made from consists of a union of faceted parts to produce a reflector with a group of triple reflectors consisting of a central triple reflector and a number of triple reflectors arranged around it consists, characterized in that the central reflector has a single shaped surface provided shaped elements (E) generated and a hexagonal opening for these shaped parts is formed by a number of molded parts, each with two molded surfaces, with finite an edge row of moldings needed to form the group Components completed. 2. Form according to claim i, characterized. That the row of molded parts arranged on the edge each have only one molded surface and form a continuous hexagon in their outer contour. 3. Form according to claim 2, characterized in that all molded parts are made from parts of rhombus-shaped Cross-section are derived, the row (D) arranged on the edge with one each Form surface 'semi-homo' bus-shaped profiles, d. H. are of triangular cross-section, the base of the triangular profile cross-section is the larger axis of the rhombus represents and forms one side of the hexagon, furthermore each of the three central ones Components (E) each with a shaped surface also represents a semi-diamond shaped profile, in which, however, the apex edges of the acute angle are cut away in this way are that a pentagon is created as a cross-section, so that the three central components form a hexagon according to their composition, and finally the intervening Components (B) each with two shaped surfaces form complete rhombus profiles with the Exception that one of the two sharp-angled apex edges cut away in this way is that these components have a hexagonal central opening after their assembly to accommodate the three middle components, each with a form surface. 4. Shape according to claim 1, 2 or 3, characterized in that the reflector is made up of a plurality consists of groups. 5. Form according to claim i, characterized in that the molded parts with two shaped surfaces each are rhombus-shaped profiles, in which the apex edges both acute angles are cut away and that the components arranged at the edge by further such molded parts with two molded surfaces each, by parts with two each Formed surfaces of rhombus-shaped cross-section, in which the apex edge of a at an acute angle is cut away by sets of three molded parts around the middle set of three, which they resemble, 'grouped around in hexagonal openings which are formed by the named components with two shaped surfaces each, and, finally, are formed by external molded components, each with a molded surface. 6th Mold according to claim 5, characterized in that the mold components (D) are at the edge each with a single shape surface together form a hexagon. 7. Mold according to claim 6, characterized in that the row of components arranged at the edge, each with a shaped surface of semi-diamond-shaped cross-section, d. , h is of triangular cross-sectional shape, wherein the base side of the triangle represents the gröP.ere diagonal of the rhombus, and a part of a side of the hexagonal Umgrenzuiigslin. e. forms the whole shape, wherein further the components of the various sets of three, each with a molding surface also made of Such semi-diamond-shaped profiles exist whose acute-angled apex edges have advanced to form a five-part, so that the elements assembled to form a set of three form a hexagon and the hexagonal openings that contain the surrounding sets of three, which are formed by three such components, in which 'Both acute-angled apex edges are cut away, and three of the components are formed with two shaped surfaces each, in which only one of the acute-angled apex edges is cut away, the last-mentioned components with the'halbr'hombus-shaped profiles with a shaped surface on the edge that the hexagonal boundary line of the whole arrangement ng form, fit together. B. Mold according to claim 7, which is modified in that additional components with two mold surfaces of the type characterized in claim 7 are provided to to form more than one circular series of sets of three of the components with one shaped surface. G. Mold according to one of the preceding claims, which is designed so that on Edge a protective rib (18) is created around the triple reflectors of such a height, that the tips of the triple reflectors are roughly level with the top of the Rib or are still surmounted by it. ok Mold according to one of the claims 5 to 9, characterized, that some or all of the existing sets of three are oriented differently from one another. i i. Reflector in a shape according to one of claims i to 4 is produced, characterized in that it has a middle triple reflector and a group of six triple reflectors in a circle has around it, with the base edges being the outwardly reflective Areas of these six reflectors form a contiguous hexagon. 12. reflector, which is made with a mold according to any one of claims 5 to io, characterized in, that it consists of a number of groups of seven triple reflectors each, of each of which has a central reflector, and some of the triple reflectors belong to more than one group and the base edges of the reflective Areas that are on the outside of the whole system, a coherent one Form a hexagon. 13. Reflector according to claim 12, characterized in that denotes, dali a \ littel @; rultlte uitcl six these are mutually overlapping Groups of seven I) multiple reflectors in front of Geselteit are, @@ - olrei two triple reflectors each group only expresses an extended the vertex of its base is insane, lei two two basic brooks cut away Lind with the remaining lteid @ ett all three (lruitci- Vertices are cut away and \\ ctbe i even with the middle litrahedron every size also all lcluitclspitz @ n (; et- (; r @ a! <ltl: ici :; are away. 14- reflector according to one of the previous vi Claims tt 1> is 13, characterized by an annular rib ( t`J. which the 1) rifle- includes reflectors and with their SIAz: n cuts off or protrudes beyond it. Tightened 1) back cover: Critical Patents \ 'r. = (u 9 UM ;; o; 90.