DE214950C - - Google Patents

Description

IMPERIAL

"pat ε ν τα μ τ.

PATENT LETTERING

CLASS 12 ο. GROUP

Dr. PAUL KOCH in BERLIN.

Sulfur-rich descendants of the terpenes were not known up to now. When the rubber is vulcanized, the polyterpene is of course combined with 4 to 50 percent sulfur; but the amount of sulfur actually chemically bound by rubber rarely exceeds 3 percent and is in most cases even less (Weber, The Chemistry of India ¹ Rubber, London 1903, Sv 47). The polyprene compound obtainable from rubber with excess sulfur in laboratory tests corresponds in the best case of the composition C ₁₀ H _ie S ₂ , contains at most two atoms of sulfur per terpene molecule C ₁₀ H ₁₆ (loc. cit. OS 91). Knowledge about the effect of sulfur on essential oils is even less. · That you can react sulfur with its 16 times the weight of turpentine oil, and such "sulfur balms" made of turpentine oil, anisole, amber oil and juniper oil were used a lot externally and internally against nerve pain, pulmonary consumption and kidney diseases (Gottwäld Schusters Medizinisch-Chemisches Lexikon , Stößer, Chemnitz 1756, p. Iio). If one examines these old statements dur ch, the success is extremely dependent on the quality of the terpene used. Sulfur has hardly any effect on pure rectified turpentine oil, even when cooked for a long time. In a more recent patent (DRP

149826 of March 4, 1903) is therefore to be achieved a sulfur balm suitable for bathing purposes took a detour been: one does not allow free sulfur to act, but sulfur liver, and not on pure turpentine oil, but on all sorts of things Oils containing foreign bodies, some of which are still unknown, from the needles of the Softwoods are distilled. How the review of this procedure reveals, however, is here the chemical action extremely low, According to claim 1 of D. R. P. 149826 The only purpose of adding essential oils in this process is to decompose the Prevent sulfur liver by water;

It has now been found that certain terpene derivatives have the ability to deal with large amounts of sulfur under formation to unite new bodies of characteristic properties. The amount of bound sulfur can even exceed the weight of the organic matter used. According to the current status of the investigation, it must be assumed that · that in the formation of these new products, which are extremely rich in sulfur, there are always three sulfur atoms attach to a double bond of the terpene molecule. With this consideration the new compounds gain a certain resemblance to the Ozömden, in which three oxygen atoms are always attached to a double bond of the organic body attach.

The new sulfur compounds should therefore be referred to as thiozonides. Linalool

z. B. reacts in the lime form and gives a dithiozonide:

OH S

CH2 -- C • CH2 'CH2' CH2 'C' CH

CH,

but which very easily splits off hydrogen sulfide and changes into a body C ₁₀ H ₁₆ O5 _B. If an ester of the same is used instead of the free linalool, the double bond adjacent to the alcohol group is protected by the acid residue; therefore only a monothiozonide is formed:

O-CO- CH,

CH ₂ - C · CH _? • CH ₂ • CH ₂ • C • CH • CH ₂

CH _S

One already has to manufacture

Varnishes for shiny gold fertilizer with lavender oil Sulfur heated; the addition of turpentine oil that takes place in this case is omitted present process because in this process only those essential oils are used that rich ■ in terpene alcohols or their esters

. '■ are. .

. Example i.

ι kg of linalool is heated ^{to 160 to 170 0} with 1.2 kg of sulfur in an oil bath for 3 hours. With the elimination of hydrogen sulfide, a homogeneous, thick brown mass is formed with a content of over 50 percent sulfur, the composition of which corresponds to _{the formula C 10} H ₁₆ O S _5.

Example 2.

ι kg linalyl acetate is heated with 480 g of sulfur, with or without addition of 1 kg of alcohol for 3 hours in an oil bath at 160 to 170 ^0th In this case, there is no significant elimination of hydrogen sulfide; a uniform brown mass is also formed, which is, however, less thick and less light. resinified than that obtained according to Example 1. It represents the monothiozonide of the linalyl acetate C ₁₂ H ₂₀ O ₂ S ₃ .

Example 3.

3 kg lavender oil with 35 percent linalyl

acetate content is obtained with 480 g of sulfur for 3 hours in gentle boiling. It CH *

the result is an aromatic, dark brown liquid that is essentially a Represents solution of linalyl acetate thiozonide in lavender oil. '

Rhodinol (geraniol) behaves similarly to linalool and linalyl acetate and its esters and the other unsaturated terpene alcohols with an open carbon chain, only that these usually do not react as easily with the sulfur as they do. the linalool and therefore require a longer exposure to the sulfur.

Thiozonides are sparingly soluble in alcohol and most common solvents, but easily in vinegar ether and essential oils as well as in an alcoholic solution of sodium thiozonate Na ₂ S ₄ . These thiozonate solutions of the thiozonides give emulsions that are stable with water. Furthermore, the thiozonides are characterized by their relationship to heavy metals and their ability to dissolve sulfides. Gold salts, bismuth salts, mercury salts are precipitated by thiozonides. Dithiozonides show similar properties, but are less soluble.

The products obtained by the present process are said to be used in medicine and cosmetics are used.

Claims (3)

Patent Claims: j i. Depiction of sulphurous j Compounds (thiozonides) from alcohols ι or esters of the terpene series by 'heat with sulfur. iao 2. Embodiment of the method described in patent claim ι, thereby characterized in that the heating takes place in closed vessels with the addition of alcohol. 3. Embodiment of the method described in claim ι, thereby characterized in that instead of the pure terpene alcohols or esters, the corresponding larger amounts of natural essential oils are used, such as pine needle oil, Lavender oil, spiked oil and others, as long as they are rich in dissolved terpene alcohols and esters.