HU181427B - Process for preparing dichloro-benzene derivatives - Google Patents

Description

Process for the preparation of dichlorobenzene derivatives

The present invention relates to a novel process for the preparation of dichlorobenzene derivatives of the formula I wherein R is hydrogen or amino. The compounds of formula I are valuable starting materials for the preparation of therapeutic compounds.

More particularly, the present invention relates to a novel process for the preparation of dichlorobenzene derivatives of formula I by sulfuryl chloride anthranilic acid in the presence of an organic solvent, isolation, if desired, diazotization of the resulting 3,5-dichloroanthranilic acid in the presence of an aliphatic alcohol and isolation of the 3,5-dichlorobenzoic acid formed.

According to the most economically known process for the preparation of 3,5-dichloro-anthranilic acid, a solution of anthranilic acid in dimethylformamide is reacted with 100% excess sulfuryl chloride, and the reaction mixture is heated and clarified with an aqueous solution of sodium hydroxide at 65-70 ° C. and precipitating the product with acid (German Patent No. 1,111,206). In this way, a yield of 75% is obtained and 3,5-dichloro-anthranilic acid is obtained, m.p. It has been found that the product is contaminated with a significant amount of 2,4,6-trichloroaniline, which can be removed by purification with minimal loss of 20% (recrystallization or crystallization of the sodium salt of 3,5-dichloro-anthranilic acid and liberation of the acid). The purification operations yielded 3,5-dichloroanthranilic acid, m.p. 234-235 ° C, but the total yield was reduced to 50-60%.

In our investigations it was found that the chlorination of anthranilic acid is accompanied by decarboxylation followed by further chlorination181427 and the formation of 2,4,6-trichloroaniline as a byproduct in 20-25%. The rate of this side reaction is practically unaffected by temperature (-15 to +40 ° C), and we have not succeeded in reducing the reaction time or the amount of chlorinating agent. Nor does the method of processing the reaction mixture provide for removal of the by-product

In another embodiment of the known process, chlorination is carried out with up to 150% excess sulfuryl chloride, and benzene is used as the organic solvent. At this time, the product formed with a yield of 74% was even more impure, m.p. 197 ° C.

According to the most economically known procedure for the preparation of 3,5-dichlorobenzoic acid from 3,5-dichloro-anthranilic acid, 3,5-dichloro-anthranilic acid is diazotized in aqueous medium with nitric acid liberated from sodium nitrite and the diazonium compound is taken in 1 to 10 molar equivalents. aliphatic or araliphatic alcohol and water in the same volume as the alcohol, usually at a temperature of 50-100 ° C. Although they have a yield of 89-97%, they obtain highly contaminated 3,5-dichlorobenzoic acid, m.p. 179-181 ° C (German Patent No. 23,18,106).

It is an object of the present invention to provide a process which is economically feasible on an industrial scale for the preparation of dichlorobenzene derivatives of general formula (I) free of by-products and thus of sufficient purity for pharmaceutical synthesis.

According to the invention, the organic solvent for the chlorination of anthranic acid is one of 1.1 to 2.2 Debye.

A mixture of halogenated inorganic organic solvents having a dielectric constant of -1181427 units and dimethylamide of a C 1-4 aliphatic carboxylic acid is used, and the chlorination is carried out with 0 to 20 ° C of excess sulfuryl chloride, followed by separation of 3,5-dichloroanthranilic acid and water. The organic phase containing 2,4,6-trichloroaniline is preferably used for the next chlorination reaction, diazotization of 3,5-dichloroanthranilic acid is also carried out in the presence of dimethylamide of a C 1-4 aliphatic carboxylic acid, using a glycol, preferably ethylene glycol. , the decomposition is carried out in the presence of an aromatic hydrocarbon, preferably benzene, having a dielectric constant of not more than 1.7 Debye units and forming an azeotropic mixture with the aqueous-alcoholic reaction mixture, at 60-100 ° C.

It is surprising to those skilled in the art that the process of the present invention yields extremely pure 3,5-dichloroanthanoic acid, m.p. 235-237 ° C, and 3,5-dichlorobenzoic acid, m.p. 190-191 ° C, in contrast to known processes. m.p. 228 ° C and 179-181 ° C, respectively.

In the chlorination step of the process of the invention, the halogenated organic inert organic solvent or diluent has a dielectric constant of from 1.1 to 2.2 Debye units, for example, dichloromethane, chloroform, methyl chloroform, dichloroethane, bromobenzene, dichlorobenzene, dibromo. benzene, trichlorethylene, perchlorethylene, etc. or mixtures thereof.

The dimethylamide of the C 1-4 aliphatic carboxylic acid is, for example, Ν, Ν-dimethylformamide or N, N-dimethylacetamide.

Benzene, toluene or xylene are preferably used as the aromatic hydrocarbon having a dielectric constant of up to 1.7 Debye units and forming an azeotropic mixture with the water-alcohol reaction mixture.

In the chlorination reaction, sulfuryl chloride is generally present in an excess of 0 to 20%.

In the chlorination step of the process according to the invention, the reaction mixture used is easy to mix so that the desired reaction temperature is maintained during the addition of sulfuryl chloride and the 2,4,6-trichloroaniline formed as a by-product is

It remains in solution even after precipitation of 3,5-dichloro-anthranilic acid in water and does not contaminate the valuable product. The 2,4,6-trichloroaniline can be isolated from the organic phase by, for example, evaporation.

In a preferred embodiment of the process according to the invention, the organic phase containing 2,4,6-trichloroaniline is used again for the next chlorination reaction. At this time, the otherwise 73-75% yield increases by about 10% without deteriorating the purity of the 3,5-dichloroanthranilic acid formed.

The process according to the invention is preferably carried out in the apparatus illustrated. Anthranilic acid, a halogen-containing inert diluent, preferably dichloroethane, and dimethylformamide are added to the mixer 1. After cooling, the reaction mixture is fed to a double-walled tank reactor 2 and sulfuryl chloride from tank 3 is added thereto. The residence time of the reaction mixture is 5 to 55 minutes. The reaction mixture is then transferred to the agitator 4 and then added to the centrifuge 5 after addition of water. The centrifuged wet material is dried, if desired, or enters the mixer 6 without drying, whereupon water, sodium hydroxide, dimethylformide and sodium nitrite are added and the solution is poured into dilute hydrochloric acid in diazotizer 7. The diazonium compound was heated in the reactor 8 after the addition of alcohol in the presence of benzene, after a residence time of 5 to 75 minutes, cooled and the crystals were separated by centrifugation.

After separation of the aqueous diluent mixture from the centrifuge 5, the dichloroethane solution is returned to the mixer 1 either directly or after purification by adjusting the initial concentration with fresh solvent.

The process according to the invention has several advantages over the known processes. Substantially cleaner 3,5-dichloro-anthranilic acid and 3,5-dichlorobenzoic acid can be obtained and, by repeated use of the chlorinating diluent, production can be increased by about 10%. The wasted 2,4,6-dichloroaniline can be isolated in the prior art and utilized to increase the economics of the process of the invention. The use of a large excess of sulfuryl chloride is unnecessary and renders unnecessary the basic cooking, clarification and acid precipitation essential for the known chlorination process. The aromatic hydrocarbon used in the cooking of the diazonium salt ensures a stable temperature and that the resinous tar products do not contaminate the 3,5-dichlorobenzoic acid formed.

The following examples illustrate the invention.

Example 1

In apparatus I, 300 kg of dimethylformamide, 274.2 kg (2.0 kmole) of anthranilic acid and 16001 dichloroethane are mixed and the mixture is cooled to 10 ° C. The solution was added to the double-walled tank reactor 2 while 355.51 (4.4 kmol) sulfuryl chloride was added from vessel 3. The residence time of the reaction mixture is 25 minutes. The reactor temperature is 20 ° C. Then 10001 of water are added to the reaction mixture in a 4-stage mixer and the crystals are separated by centrifugation 5. The centrifuged-wet 3,5-dichloro-anthranilic acid is added to 14951 water in a 6-mixer, followed by addition of 173 kg of 40% sodium hydroxide solution and 1151 dimethylacetamide. After dissolution, a solution of 8.5 kg (1.72 km) of sodium nitrite in 4831 water is added and the solution is cooled to below 5 ° C. Meanwhile, 8051 concentrated hydrochloric acid is added to the diazotator 7 and, after cooling to 0 ° C, the 3,5-dichloro-anthranilic acid sodium salt solution in the apparatus 6 is added. The reactor temperature is 0-5 ° C, which is maintained by adding 300 kg of ice. The residence time is 20 minutes. Subsequently, 17 kg of urea are added and the reactor 8 is poured into a mixture of 3221 water, 1041 ethylene glycol, 4 kg copper sulfate and 3001 benzene at the boiling point of the mixture. Length of stay: 20 minutes. The reaction mixture, cooled to 20 ° C, was filtered through a 9 centrifuge.

292.8 kg of 3,5-dichlorobenzoic acid are obtained (yield: 76.6% calculated as anthranilic acid).

Mp: 189-91 'C (Literary: 178-181' C).

Analysis calculated for C ₇ H ₄ Cl ₂ O ₂ (ms: 191.01): C, 44.01; H, 2.11; Cl: 37.12; Found: C, 44.95; H : 1.98% Cl: 37.20%.

The melting point of 3,5-dichloro-anthranilic acid is 235-237'C (reference: 234-5'C).

Analysis calculated for C ₇ H ₅ Cl ₂ NO ₂ (ms: 206.03): C, 40.81; H, 2.45; N, 6.80; Found: C, 41.22; H: 2.20% N: 6.77%.

-2181427

Example 2

3,5-dichloro-anthranilic

500 ml of dimethylformamide, 274.2 g (2.0 moles) of anthranilic acid were added to the stirring apparatus, and after dissolution of the anthranilic acid, 1600 ml of dichloroethane were added. To the dark brown solution was added sulfuryl chloride (593.9 g, 4.4 mol) while stirring, while maintaining the temperature at 20 ° C. Water (11) was then added dropwise to the reaction mixture at this temperature.

After cooling the reaction mixture, 3,5-dichloroanthranilic acid is removed by filtration.

Weight: 345.7 g (83.9%) Mp: 235-7'C (Literature: 234-

235 'C).

The dichloroethane mother liquor was dehydrated with glued magnesium sulfate and used without further purification for subsequent production. The solvent was distilled off at six rounds. The residue was crystallized to give 220 g of 2,4,6-trichloroaniline. (O.p. · 78 'C.)

Example 3

3,5-Dichloro-benzoic acid

345.7 g (1.678 mole) of humidified 3,5-dichloro-anthranilic acid are suspended in 2100 ml of water and 180 g of 40% aqueous sodium hydroxide solution are added.

After the addition was complete, 140 ml of dimethylformamide were added and the mixture was stirred at 30-35 ° C until a homogeneous solution was obtained. Then

Sodium nitrite (123.8 g) was added to the alkaline solution and stirred until dissolved and then, with vigorous stirring, added to a concentrated hydrochloric acid solution (700 g) at a temperature of 0-5 ° C. A diazonium salt solution was then added to a hot mixture of ethylene glycol (90 mL), copper sulfate (3.5 g), water (280 mL) and toluene (125 mL). After cooling the reaction mixture, the crystalline product is filtered off.

252.7 g of 3,5-dichlorobenzoic acid are obtained. Mp .: 190-191 'C.

Claims (2)

5 Patent claims The dielectric constant of 1.7 Debye units is carried out in the presence of an aromatic hydrocarbon azeotropic mixture with the aqueous alcoholic reaction mixture, preferably benzene, at 60-100 ° C. 2. The process according to claim 1, wherein the organic solvent having a dielectric constant of from 1.1 to 2.2 Debye units is dichloroethane. 3. A process according to claim 1, wherein the dimethylamide of the C 1-4 aliphatic carboxylic acid is N, N-dimethylacetamide. A process for the preparation of dichlorobenzene derivatives of formula I wherein R is hydrogen or amino with anthranilic acid sulfuryl chloride as an organic solvent Chlorination in the presence of 10, isolation, optionally diazotization of the 3,5-dichloro-anthranilic acid formed, hot decomposition of the diazonium compound in the presence of an aliphatic alcohol, and isolation of the resulting 3,5-dichlorobenzoic acid as an organic solvent. A mixture of halogenated inert solvents having a dielectric constant of 1.1 to 2.2 Debye units and dimethylamide of C 1-4 aliphatic carboxylic acid is used, and chlorination is carried out with 0 to 20% excess sulfuryl chloride, 3.5 isolation of dichloro-anthranilic acid by addition of water 20 and the organic phase containing 2,4,6-trichloroaniline is preferably used for the next chlorination reaction, diazotization of 3,5-dichloroanthranilic acid is also carried out in the presence of a dimethylamide of a C 1-4 aliphatic carboxylic acid. to break down a glycol, Preferably, ethylene glycol is used, with a maximum of decomposition 2 drawing Director of Economic and Legal Publishing House 85.5133.66-4 Alföldi Nyomda, Debrecen - Chief Executive Officer: István Benkő Director