DE2137868A1 - Molecular model kit - Google Patents

Description

DR.-ING. BY KREISLER DR.-ING. SCHGNWALD DR.-ING. TH. MEYER DR. FUES DIPL.-CH ΕΑΛ. ALEK VON KREIS LER DIPL.-CHEM. CAROLA KELLER DR.-ING. KLÖP5CH Dipl. -Ing. Selting

COLOGNE ^ DEICHMANNHAUS

Cologne, 26 _o 7o 1971 Ke / Ax

SPIRING ENTERPRISES 'LIMITED ,

"Stoneacre", Bentsbrook Park, North Holmwood, Dorking,

Surrey (England).

Molecular model kit

The invention relates to construction kits for the production of molecular models, i. _E. Kits with parts that contain atoms of various sorts represent, and parts valence bonds between these atoms, so that both simple and complex molecular structures in three-dimensional manner for use in schools, universities, research laboratories, museums, educational displays USW can be recreated ₀ . There are already different kits for molecular models. In general, these kits are of two different types. The best known example of the first type is characterized by practically spherical "atoms" of various colors, with holes in which the ends of "valence bonds" in the form of elongated helical springs are inserted will. The second and newer type is characterized by the lack of elongated "valence bonds". This second type is of the closed form in which the "atoms" are usually made of plastics of different colors and have cooperating pins (sometimes integral with some of the "atoms") and holes through one of these share

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formed "molecule" all "atoms" of the molecule collide with each other, whereby none of the connecting pins is visible «

What is desirable is the ability to visualize different molecules with a single model that shows how they are made of "molecules" of completely open construction, "molecules" of closed, compact or tight-fitting Construction and "molecules", in which both open and crowded parts appear, enable "One could Assume that "molecules" are summarized or portions of such molecules using those described above "Valence bonds" can be made in helical spring form, but when the springs are shortened they result in to such an extent that the associated "atoms" collide with one another, considerable difficulties in the Using the springs to connect and take apart the "atoms" because the springs are sometimes located in the holes get stuck in the wood or other material from which the "atoms" are made. This results in a Damage or breakage of the springs if they are forcibly removed from the holes in the "atoms" in which they are stuck are. It is obvious that the above second type of the well-known construction sets for molecular models not for the production of molecules with open structural

w wise suitable, to which elongated "valence bonds" belong,

The invention relates to simple construction kits for molecular models, with the help of which simulated molecular structures with open, compacted and mixed open and compacted Construction can be easily made.

The construction kit according to the invention for assembling molecular models is characterized by a large number of three-dimensional parts that simulate different atoms and are each provided with a number of depressions, the number of which is the validity of the

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corresponding to the th element of the periodic table, and through a large number of parts representing variance each of which is provided with a tenon fitting into the indentation at each end, the valence bonds performing parts in the form of long flexible links, there are essentially rigid limbs of medium length and in the form of short limbs,

The invention is described below on the basis of exemplary embodiments which are shown in the figures.

Fig.1 is a side view of parts used in the molecular model kit used according to the invention to simulate simple diatomic molecules of open construction will.

2 shows, as a side view, further parts of a modular molecular model kit according to the invention intended to simulate a simple diatomic molecule of open construction can be used with a double bond extending between the two atoms.

FIG. 3 is a similar representation to FIG. 1, but shows a simple diatomic molecule in a closed or compact structure ο

FIGS. 4a and 4b show a front view and a side view, respectively two embodiments for the ends of the used in the models shown in Figol and 2, the "valence bonds" depicting members on an enlarged scale and in greater detail.

FIG. 5 corresponds to FIG. 4b, but shows a different one Embodiment.

As the figures show, they are essentially spherical Atoms 1 used »These parts representing the atoms preferably consist of one essentially

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rigid plastic, ζ.B ₀ polyethylene, polystyrene or polypropylene, wood can also be used »The atoms have different colors to represent different elements of the periodic table, and are flattened

2, which are each provided in the middle with a recess of round cylindrical shape. The depressions

3 can also be connected together as shown in Figure 2 _e, the number of flattened portions 2 and depressions 3 having each atom 1, depends upon the valence number of the periodic table is normally assigned to the corresponding element. For example, the atoms represented in FIG _o 1 represents a monovalent element,

ψ and they could be colored white to represent hydrogen. Atoms 1 shown in Figure 2 represent a divalent element and could be colored red to represent oxygen, while atoms 1 re-enter in the crowded or closed structure of Figure 3. mean a monovalent element and could be given a color other than white or red to represent elements other than hydrogen or oxygen. Of course, trivalent elements such as nitrogen and tetravalent elements such as carbon are represented by spherical atoms 1 in other colors (e.g. "blue and black) and provided with a corresponding number of flattened areas that are appropriately placed over the surfaces of atoms 1 (e.g." example with Angular distances of 108 in the case of carbon) are distributed and provided with holes. If necessary, atoms 1 in other colors, which represent both pentavalent and hexavalent elements, can be included, whereby the five depressions or holes 3 of the atoms 1 represent pentavalent elements and are preferably angularly spaced from one another on dor Bnsi κ of the angular arrangement of a triangular pyramid, while the holes in atoms 1, which represent hexavalent elements, preferably have an angular distance of 90 * on the basis of the angular arrangement of the six faces of a cube »

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If a really complete and comprehensive molecular model kit one which contains all or most of the elements of the periodic table is of course sufficient not the available number of colors «In this case the atoms 1 can be identified by colored stripes and / or dots or labeled with the usual symbols for the respective elements ,, Normally is However, this is not necessary, since for training purposes and other similar purposes usually only the representation of the more common elements is required »

"1 illustrates the use of a substantially rigid link 4 of medium length constituting a" valence bond ", while FIG. 2 illustrates the use of two long flexible" valence bonds "5. The two connecting links 4 and 5 are preferably made of a plastic such as polyethylene , polypropylene or polystyrene, and are both provided at its opposite ends with pins "FIG _o 4a and 4b illustrate the use of pin 6, which have a very slightly smaller diameter and a very slightly smaller in length than the recesses 3 in the atoms 1, On each peg 6 there is a patch that has essentially the same diameter as each flat 2 the strongest tapered parts merge into the rest of the material of the respective connecting links or 5 ,, the The surface shape of the tapering parts 8 is designed so that the surfaces merge smoothly into the spherical surfaces of the atoms 1 when the latter are connected to the ends of the connecting members 4 and _o This feature is clearly evident in particular from FIGS. In order to ensure that the pins 6 are firmly engaged in the depressions 3, while they are nevertheless removed by hand without difficulty.

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2Ί37868

can be drawn, the outer surfaces of the pins 6 are provided with ribs 9 (Fig.4a and 4b), which preferably taper very slightly from the paddles 7 to the free ends of the pins. It has been found that temporary connections with the above-mentioned desired characteristics can be produced in this way, but it should be understood that it is not essential that four ribs 9 per pin 6, as shown in Pig _o 4a, or two ribs 9 per pin, as shown in Figure 4b _o are available.

FIG. 5 illustrates a construction which is identical to the construction shown in FIG the recess 3 is retained when it is pressed firmly into the recess ₀ This construction is particularly well suited when, as is preferred, both the atoms 1 and the "bonds" 4 and 5 are made of plastics which are inherent in them are elastic. The construction shown in FIG. 5 has the advantage over the constructions shown in FIGS. 4a and 4b that a reliable connection with one of the atoms 1 does not depend on the ribs 9, since the ribs are broken off, dented or otherwise deformed after the spigot has been used very often, _etc.

Fig.3 shows a closed or compressed "molecule" of the kind generally explained at the beginning of this description. Two atoms 1 are closely spaced by one short connecting piece or a short "bond" 10 connected to one another, which consist of two coaxial pins 6 or " consists of a disk 11 against whose opposite surfaces the atoms 1 abut when the pegs or 13 are inserted into the corresponding recesses 3, consist of one piece »The short" binding "10

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is also preferably made of one of the plastics mentioned above, and the outer surface of the disc 11 is designed as a concave groove 14 into which the fingertips can be inserted so that a firm grip is possible, while the short connector 10 is made from one of the atoms 1 of hand wirdo pulled As shown in Figure 3, the curved surface of the atoms of 1 is the groove 14 in the diverging in opposite directions surfaces over, whereby the whole "molecule" is given a smooth running curved surface, however, _o It is also possible that the groove 14 from the outer surface of the disc 11 and knurling or otherwise roughening the surface to facilitate gripping of the disc. The pins of the short connection members 10 can in the same manner as the pin 6 (provided with ribs 9) in 4a and 4b, or in the same V / else as the pins 13, which _c in conjunction with Figure 5 have been described, formed be. Although this is by no means essential, the plastics from which the connecting members 4 _f 5 and 10 preferably manufactured to have different colors should. For example, the essentially rigid links 4 of medium length can be mauve, the long flexible connecting links 5 can be gray and the short connecting links 10 can have the natural color of the plastics used in each case. "

1 to 3 show only very simple "molecules" which have been formed according to the invention, but more complicated organic and other "molecules" can easily be made using corresponding visual atoms 1 in connection with the various "bonds" A, 5 and 10 are formed. This "molecules" can (Figure 3 _o) s, or a partially οJTοno and partially closed or crowded structure bio> the fully open structure (Fig "1 and 2), the fully closed or crowded structure. The bi e./'aamkei t and elasticity of the long

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Connecting links 5 is of considerable advantage, since this makes it possible to resiliently deform these connecting links to the curved shape shown in FIG. 2 in order to illustrate double bonds and other multiple bonds. Open structures are generally preferable for teaching inorganic chemistry, organic chemistry and biochemistry in younger students, while the closed or crowded structures described in connection with the very simple example of Fig. 3 may be preferred for use in advanced students Students, daily in research institutes are preferable for the production of three-dimensional representations of f complex biochemical molecules, as an "open" structure for such models would be something large and unwieldy and inevitably would tend to fall apart on its own. The preferred production of all parts used plastic has the usual advantages of these materials, namely low price, light weight, long-lasting color, easy cleaning and resistance to attack by most chemicals that are normally present in school laboratories u _{o o o} etc.

EAD ORIGINAL

10 9 8 8 6/031 /.

Claims (12)

Claims 1) .Molecular model construction kit for the production of molecules representational models, characterized by a plurality of three-dimensional parts (1) that are different Simulate atoms and are each provided with depressions (3), the number of which corresponds to the valence of these Part of the represented element of the periodic table corresponds to, as well as by a variety of representation purposes serving valence bonds (4, 5, 10), of which each is provided with a pin (6, 13) at each end which can be inserted into one of the recesses (3), wherein, as parts representing the valence bonds, long flexible connecting links (5), essentially there are rigid links (4) of medium length and short links (10). 2) Molecular model kit according to claim 1, characterized in that that the parts (1) and the connecting links, of great length (5), medium length (4) and less Length (10) are all made of at least one plastic » 3) molecular model kit according to claim 2, characterized in that that the parts are made of polyethylene, polystyrene or polypropylene. 4) molecular model kit according to claim 1 to 3, characterized in that each three-dimensional part (1) is substantially spherical, and that each recess (3) is substantially in the middle of a corresponding flat (2) on the surface of the respective spherical Part (1) is present _o 5) molecular model kit according to claim 1 to 4, characterized characterized that the long flexible connection 'links (5) and the substantially rigid connecting links (4) of medium length each behind the Pegs (6, 13) have flaps (7) at each end, the 109886 / 03U BATH is essentially perpendicular to the longitudinal axes of the Pins (6, 13) extend, the maximum diameter of the flanges (7) being essentially the same how the diameter of the flats (2) is and the planche (7) merge into tapering parts (8), which in turn merge into the rest of the connecting links (4, 5) at their thinnest parts. 6) molecular model kit according to claim 1 to 5, characterized characterized in that each short link (10) has two coaxial pins (6, 13) which with a between the pin located disc (11) consist of one piece. 7) Molecular model kit according to claim 1 to 6, characterized characterized in that the outer surface of the disc (11) is designed as a concave groove (14) 8) molecular model kit according to claim 1 to 6, characterized in that the outer surface of the disc (11) is knurled or roughened in a different manner, 9) molecular model kit according to claim 1 to 8, characterized in that the pins (6) at the ends of each connecting member (4, 5, 10) are provided with molded, angularly spaced, tapering ribs (9). 10) Molecular model kit according to claim 1 to 8, characterized in that the pins (13) at the ends of each connecting link (4, 5, 10) taper and ao 'are dimensioned so that they are elastic and resilient in the depressions (3 ) the three-dimensional parts (1) into which they have been inserted. 11) molecular model kit according to claim 1 to 10, characterized characterized in that the parts (1) representing different atoms are colored differently to the corresponding elements of the periodic table to 109886 / 03U Λ- "~ ΐ_ BADORlGiNAL identify. 12) molecular model kit according to claim 1 to 11, characterized in that the long elastic connecting links ( ¹ J), the essentially rigid connecting links (4) of medium length and the short connecting links (10) are colored differently. BATH ORIGINAL 109886 / 03U L e. e r e i t e