CN112375030B - Preparation method of diphenoxylate hydrochloride - Google Patents

Abstract

The invention belongs to the technical field of organic synthesis, and particularly relates to a preparation method of diphenoxylate hydrochloride. According to the method, N-Diisopropylethylamine (DIPEA) is used as an organic base catalyst to catalyze the condensation reaction of bromoethyl diphenylacetonitrile and 4-phenyl-4-ethyl piperidinecarboxylate to prepare the diphenoxylate hydrochloride, the reaction period can be obviously shortened, and the obtained diphenoxylate hydrochloride crude product can be purified to obtain a diphenoxylate hydrochloride refined product with higher yield and higher yield.

Description

Preparation method of diphenoxylate hydrochloride

Technical Field

The invention belongs to the technical field of organic synthesis, and particularly relates to a preparation method of diphenoxylate hydrochloride.

Background

Diphenoxylate hydrochloride with the chemical name: 1- (3, 3-diphenyl-3-cyanopropyl) -4-phenyl-4-piperidinecarboxylic acid ethyl ester hydrochloride as a white or almost white powder or a crystalline powder; the diarrhea-relieving medicine is odorless, belongs to a nonspecific anti-diarrhea medicine, is easy to be absorbed by gastrointestinal tracts after being taken orally, can increase intestinal tension, inhibit or weaken the forward pushing action of gastrointestinal tract peristalsis, and astringe to reduce the secretion of the gastrointestinal tracts, thereby rapidly controlling diarrhea, and is mainly used for symptomatic treatment of acute and chronic functional diarrhea of dogs and cats.

The existing method for preparing diphenoxylate hydrochloride also has the technical problems of lower yield and longer reaction time.

Disclosure of Invention

The purpose of the invention is: provides a preparation method of diphenoxylate hydrochloride with shorter production period and higher product yield.

(1) Condensation reaction

Adding measured toluene into a reaction kettle, adding bromoethyl diphenylacetonitrile, starting stirring, heating to dissolve the bromoethyl diphenylacetonitrile, standing, dividing water, adding 4-phenyl-4-ethyl piperidinecarboxylate and N, N-Diisopropylethylamine (DIPEA), continuously heating to 110-130 ℃, refluxing for 3-5 hours under the condition of heat preservation, and dividing generated water at any time in the process of heat preservation. And (4) after heat preservation, cooling to room temperature, discharging, filtering by throwing, washing filter residues to be colorless by using toluene, combining filter solutions, adjusting the pH value to 1-1.5 by using CP hydrochloric acid diluted by drinking water, separating out crystals, and standing overnight. Opening a bottom valve, putting the feed liquid into a centrifuge for spin-drying after rinsing with toluene, washing with drinking water to be neutral, and finally, spin-drying until no water drops out, and discharging. The filtrate is pumped into a recovery boiler to recover the toluene. Taking out the materials in the centrifuge, placing the materials in a drying tray, uniformly spreading the materials, then placing the drying tray in a hot air circulation drying oven, and drying the materials for 20 to 24 hours at the temperature of between 90 and 110 ℃ to obtain the crude product of the diphenoxylate hydrochloride.

Wherein the mass ratio of bromoethyl diphenylacetonitrile to 4-phenyl-4-ethyl piperidinecarboxylate is 1:0.7-0.9; the mass ratio of the solvent toluene to bromoethyl diphenylacetonitrile is 1.6-2.0; the amount of N, N-Diisopropylethylamine (DIPEA) is 1-1.5 molar equivalents.

(2) Refining

And (2) sequentially putting absolute ethyl alcohol, the diphenoxylate hydrochloride crude product prepared in the step (1) and activated carbon into a reaction pot, stirring, heating to 70-80 ℃, refluxing, and keeping the temperature for half an hour. And (3) performing filter pressing, wherein the filtrate enters a D-grade clean area, and enters a crystallization kettle after being subjected to fine filtration by a 1-micron precision filter. Starting the crystallization kettle, stirring, cooling to below 10 ℃ with brine ice to fully crystallize, separating out crystals, and standing. And (3) putting the feed liquid into a centrifuge, performing spin-drying, washing with a proper amount of purified water until the filtered water is nearly neutral, and performing spin-drying after washing. Rinsing with anhydrous alcohol until the filtrate is colorless, and spin-drying. Drying for 8-10 hours at the temperature of 75-85 ℃ and the vacuum degree of less than or equal to-0.08 MPa to obtain the refined diphenoxylate hydrochloride.

Wherein the mass ratio of the absolute ethyl alcohol to the crude diphenoxylate hydrochloride is 5-6.

Has the advantages that:

according to the method, N-Diisopropylethylamine (DIPEA) is used as an organic base catalyst to catalyze the condensation reaction of bromoethyl diphenylacetonitrile and 4-phenyl-4-ethyl piperidinecarboxylate to prepare the diphenoxylate hydrochloride, the reaction period can be obviously shortened, and the obtained diphenoxylate hydrochloride crude product can be purified to obtain a diphenoxylate hydrochloride refined product with higher yield and higher yield.

Detailed Description

The present invention is further described below with reference to examples, but is not limited thereto.

Example 1

(1) Condensation reaction

Adding 1.6kg of toluene into a reaction kettle, adding 1kg of bromoethyl diphenylacetonitrile, starting stirring, heating to dissolve the bromoethyl diphenylacetonitrile, standing, dividing water, adding 0.74kg of 4-phenyl-4-piperidine ethyl formate and 1 equivalent of N, N-Diisopropylethylamine (DIPEA), continuously heating to 120 ℃, and carrying out heat preservation and reflux for 4 hours. The water produced is removed at any time during the heat preservation process. And (3) after the heat preservation is finished, cooling to room temperature, discharging, filtering, washing filter residues with toluene to be colorless, combining the filtrates, adjusting the pH value to 1-1.5 with CP hydrochloric acid diluted by drinking water (the volume ratio of the drinking water to the CP hydrochloric acid is = 1), precipitating crystals, and standing overnight. Opening a bottom valve, putting the feed liquid into a centrifugal machine for spin-drying, rinsing with toluene, spin-drying, washing with drinking water to be neutral, washing for a certain time, spin-drying as much as possible when the feed is spun, and finally, spin-drying until no water drops out, and discharging. The filtrate is pumped into a recovery boiler to recover the toluene. Taking out the materials in the centrifuge, placing the materials in a drying tray, uniformly spreading the materials, then placing the drying tray in a hot air circulation drying oven, heating the drying tray to 100 ℃, drying the materials for 24 hours, taking out the dried materials, and weighing the dried materials to obtain the crude product of the diphenoxylate hydrochloride.

(2) Refining

5kg of absolute ethyl alcohol, 1kg of crude diphenoxylate hydrochloride and 100g of active carbon are sequentially put into a reaction pot, stirred and heated to 75 ℃ for reflux, and the temperature is kept for half an hour. And (3) performing filter pressing, wherein the filtrate enters a D-grade clean area, and enters a crystallization kettle after being subjected to fine filtration by a 1-micron precision filter. Starting the crystallization kettle, stirring, cooling to below 10 deg.C with brine ice to crystallize, precipitating crystal, and standing. And (3) putting the feed liquid into a centrifuge, filtering, drying by spinning, adding a proper amount of purified water until the filtered water is nearly neutral, and washing and drying by spinning. Rinsing with anhydrous alcohol until the filtrate is colorless, and spin-drying. Discharging at 80 deg.C, vacuum degree less than or equal to-0.08 MPa, and drying for 10 hr. The diphenoxylate hydrochloride is obtained with a yield of 93 percent, a purity of 99.7 percent and 0.05 percent of single impurity, and the obtained diphenoxylate hydrochloride is white powder with a drying loss of not more than 5.0 percent.

Example 2

(1) Condensation reaction

Adding 1.8kg of toluene into a reaction kettle, adding 1kg of bromoethyl diphenylacetonitrile, starting stirring, heating to dissolve the bromoethyl diphenylacetonitrile, standing, dividing water, adding 0.8kg of 4-phenyl-4-piperidine ethyl formate and 1.2 equivalent of N, N-Diisopropylethylamine (DIPEA), continuing heating to 110 ℃, and carrying out heat preservation and reflux for 5 hours. The water produced is removed at any time during the heat preservation process. And (3) after the heat preservation is finished, cooling to room temperature, discharging, carrying out filter spinning, washing filter residues to be colorless by using toluene, combining filter solutions, adjusting the pH value to 1-1.5 by using CP hydrochloric acid diluted by drinking water, precipitating crystals, and standing overnight. Opening a bottom valve, putting the feed liquid into a centrifuge for spin-drying after rinsing with toluene, washing with drinking water to be neutral, washing for certain time, spin-drying as much as possible when throwing the feed, and finally, discharging after no water drops. The filtrate is pumped into a recovery pot to recover the toluene. Taking out the materials in the centrifuge, placing the materials in a drying tray, uniformly spreading the materials, then placing the drying tray in a hot air circulation drying oven, heating the drying tray to 100 ℃, drying the materials for 24 hours, taking out the dried materials, and weighing the dried materials to obtain the crude product of the diphenoxylate hydrochloride.

(2) Refining

Putting 6kg of absolute ethyl alcohol, 1kg of crude diphenoxylate hydrochloride and 80g of active carbon into a reaction pot in sequence, stirring, heating to 75 ℃, refluxing, and keeping the temperature for half an hour. And (4) performing filter pressing, wherein the filtrate enters a D-grade clean area, is subjected to fine filtration by a 1-micron precision filter and then enters a crystallization kettle. Starting the crystallization kettle, stirring, cooling to below 10 ℃ with brine ice to fully crystallize, separating out crystals, and standing. And (3) putting the feed liquid into a centrifuge, performing spin-drying, adding a proper amount of purified water until the filtered water is nearly neutral, and performing washing and spin-drying. And then rinsing the filtrate by using absolute ethyl alcohol until the filtrate is colorless, and drying the filtrate by drying. Discharging at 75 deg.C and vacuum degree less than or equal to-0.08 MPa, and drying for 10 hr. The diphenoxylate hydrochloride is obtained with the yield of 93.8 percent, the purity of 99.7 percent and single impurity of 0.05 percent, and the obtained diphenoxylate hydrochloride is white powder with the drying weight loss not more than 5.0 percent.

Example 3

(1) Condensation reaction

Adding 2.0kg of toluene into a reaction kettle, adding 1kg of bromoethyl diphenylacetonitrile, starting stirring, heating to dissolve the bromoethyl diphenylacetonitrile, standing, dividing water, adding 0.9kg of 4-phenyl-4-piperidine ethyl formate and 1.5 equivalent N, N-Diisopropylethylamine (DIPEA), continuously heating to 130 ℃, preserving heat and refluxing for 3 hours. The water produced is removed at any time during the heat preservation process. And (4) after heat preservation, cooling to room temperature, discharging, filtering by throwing, washing filter residues to be colorless by using toluene, combining filter solutions, adjusting the pH value to 1-1.5 by using CP hydrochloric acid diluted by drinking water, separating out crystals, and standing overnight. Opening a bottom valve, putting the feed liquid into a centrifuge for spin-drying after rinsing with toluene, washing with drinking water to be neutral, washing for certain time, spin-drying as much as possible when throwing the feed, and finally, discharging after no water drops. The filtrate is pumped into a recovery boiler to recover the toluene. Taking out the materials in the centrifuge, placing the materials in a drying tray, uniformly spreading, placing the drying tray in a hot air circulation drying oven, heating to 100 ℃, drying for 24 hours, taking out the dried materials, and weighing to obtain a crude product of the diphenoxylate hydrochloride.

(2) Refining

5.5kg of absolute ethyl alcohol, 1kg of crude diphenoxylate hydrochloride and 100g of active carbon are sequentially put into a reaction pot, stirred and heated to 75 ℃ for reflux, and the temperature is kept for half an hour. And (3) performing filter pressing, wherein the filtrate enters a D-grade clean area, and enters a crystallization kettle after being subjected to fine filtration by a 1-micron precision filter. Starting the crystallization kettle, stirring, cooling to below 10 ℃ with brine ice to fully crystallize, separating out crystals, and standing. And (3) putting the feed liquid into a centrifuge, filtering, drying by spinning, adding a proper amount of purified water until the filtered water is nearly neutral, and washing and drying by spinning. Rinsing with anhydrous alcohol until the filtrate is colorless, and spin-drying. Discharging at 85 deg.C and vacuum degree less than or equal to-0.08 MPa, and drying for 8 hr. The diphenoxylate hydrochloride is obtained with the yield of 92.9 percent, the purity of 99.3 percent and single impurity of 0.05 percent, and the obtained diphenoxylate hydrochloride is white powder with the drying weight loss of not more than 5.0 percent.

Example 4

(1) Condensation reaction

Adding 1.9kg of toluene into a reaction kettle, adding 1kg of bromoethyl diphenylacetonitrile, starting stirring, heating to dissolve the bromoethyl diphenylacetonitrile, standing, dividing water, adding 0.85kg of 4-phenyl-4-piperidine ethyl formate and 1.3 equivalents of N, N-Diisopropylethylamine (DIPEA), continuously heating to 110 ℃, and carrying out heat preservation and reflux for 5 hours. The water produced is removed at any time during the heat preservation process. And (4) after heat preservation, cooling to room temperature, discharging, filtering by throwing, washing filter residues to be colorless by using toluene, combining filter solutions, adjusting the pH value to 1-1.5 by using CP hydrochloric acid diluted by drinking water, separating out crystals, and standing overnight. Opening a bottom valve, putting the feed liquid into a centrifuge for spin-drying after rinsing with toluene, washing with drinking water to be neutral, washing for certain time, spin-drying as much as possible when throwing the feed, and finally, discharging after no water drops. The filtrate is pumped into a recovery pot to recover the toluene. Taking out the materials in the centrifuge, placing the materials in a drying tray, uniformly spreading, placing the drying tray in a hot air circulation drying oven, heating to 100 ℃, drying for 24 hours, taking out the dried materials, and weighing to obtain a crude product of the diphenoxylate hydrochloride.

(2) Refining

5.5kg of absolute ethyl alcohol, 1kg of crude diphenoxylate hydrochloride and 100g of active carbon are sequentially put into a reaction pot, stirred, heated to 80 ℃ for reflux and kept warm for half an hour. And (4) performing filter pressing, wherein the filtrate enters a D-grade clean area, is subjected to fine filtration by a 1-micron precision filter and then enters a crystallization kettle. Starting the crystallization kettle, stirring, cooling to below 10 ℃ with brine ice to fully crystallize, separating out crystals, and standing. And (3) putting the feed liquid into a centrifuge, performing spin-drying, adding a proper amount of purified water until the filtered water is nearly neutral, and performing washing and spin-drying. And then rinsing the filtrate by using absolute ethyl alcohol until the filtrate is colorless, and drying the filtrate by drying. Discharging at 85 deg.C and vacuum degree less than or equal to-0.08 MPa, and drying for 8 hr. The diphenoxylate hydrochloride is obtained with the yield of 92.6 percent, the purity of 99.2 percent and single impurity of 0.05 percent, and the obtained diphenoxylate hydrochloride is white powder with the drying weight loss of not more than 5.0 percent.

Comparative example 1

(1) Condensation reaction

Adding 1.6kg of toluene into a reaction kettle, adding 1kg of bromoethyl diphenylacetonitrile, starting stirring, heating to dissolve the bromoethyl diphenylacetonitrile, standing, dividing water, adding 0.74kg of 4-phenyl-4-ethyl piperidine formate and 1 equivalent of sodium bicarbonate, continuously heating to 120 ℃, preserving heat and refluxing for 24 hours. The water produced is removed at any time during the heat preservation process. And (3) after heat preservation, cooling to room temperature, discharging, filtering by throwing, washing filter residues to be colorless by using toluene, combining filter solutions, adjusting the pH value to 1-1.5 by using CP hydrochloric acid (drinking water: CP hydrochloric acid volume ratio = 1) diluted by drinking water, precipitating crystals, and standing overnight. Opening a bottom valve, putting the feed liquid into a centrifuge for spin-drying after rinsing with toluene, washing with drinking water to be neutral, washing for certain time, spin-drying as much as possible when throwing the feed, and finally, discharging after no water drops. The filtrate is pumped into a recovery boiler to recover the toluene. Taking out the materials in the centrifuge, placing the materials in a drying tray, uniformly spreading, placing the drying tray in a hot air circulation drying oven, heating to 100 ℃, drying for 24 hours, taking out the dried materials, and weighing to obtain a crude product of the diphenoxylate hydrochloride.

(2) Refining

5kg of absolute ethyl alcohol, 1kg of crude diphenoxylate hydrochloride and 100g of active carbon are sequentially put into a reaction pot, stirred and heated to 75 ℃ for reflux, and the temperature is kept for half an hour. And (4) performing filter pressing, wherein the filtrate enters a D-grade clean area, is subjected to fine filtration by a 1-micron precision filter and then enters a crystallization kettle. Starting the crystallization kettle, stirring, cooling to below 10 ℃ with brine ice to fully crystallize, separating out crystals, and standing. And (3) putting the feed liquid into a centrifuge, performing spin-drying, adding a proper amount of purified water until the filtered water is nearly neutral, and performing washing and spin-drying. And then rinsing the filtrate by using absolute ethyl alcohol until the filtrate is colorless, and drying the filtrate by drying. Discharging at 80 deg.C, vacuum degree less than or equal to-0.08 MPa, and drying for 10 hr. The diphenoxylate hydrochloride is obtained with yield of 75%, purity of 97.9% and single impurity of 0.07%, and the obtained diphenoxylate hydrochloride is white powder with drying weight loss not more than 5.0%.

Comparative example 2

(1) Condensation reaction

Adding 1.6kg of toluene into a reaction kettle, adding 1kg of bromoethyl diphenylacetonitrile, starting stirring, heating to dissolve the bromoethyl diphenylacetonitrile, standing, dividing water, adding 0.74kg of 4-phenyl-4-piperidine ethyl formate and 1 equivalent of triethylamine, continuously heating to 120 ℃, and carrying out heat preservation and reflux for 4 hours. The water produced is removed at any time during the heat preservation process. And (3) after the heat preservation is finished, cooling to room temperature, discharging, filtering, washing filter residues with toluene to be colorless, combining the filtrates, adjusting the pH value to 1-1.5 with CP hydrochloric acid diluted by drinking water (the volume ratio of the drinking water to the CP hydrochloric acid is = 1), precipitating crystals, and standing overnight. Opening a bottom valve, putting the feed liquid into a centrifuge for spin-drying after rinsing with toluene, washing with drinking water to be neutral, washing for certain time, spin-drying as much as possible when throwing the feed, and finally, discharging after no water drops. The filtrate is pumped into a recovery pot to recover the toluene. Taking out the materials in the centrifuge, placing the materials in a drying tray, uniformly spreading the materials, then placing the drying tray in a hot air circulation drying oven, heating the drying tray to 100 ℃, drying the materials for 24 hours, taking out the dried materials, and weighing the dried materials to obtain the crude product of the diphenoxylate hydrochloride.

(2) Refining

5kg of absolute ethyl alcohol, 1kg of crude diphenoxylate hydrochloride and 100g of active carbon are sequentially put into a reaction pot, stirred and heated to 75 ℃ for reflux, and the temperature is kept for half an hour. And (3) performing filter pressing, wherein the filtrate enters a D-grade clean area, and enters a crystallization kettle after being subjected to fine filtration by a 1-micron precision filter. Starting the crystallization kettle, stirring, cooling to below 10 ℃ with brine ice to fully crystallize, separating out crystals, and standing. And (3) putting the feed liquid into a centrifuge, performing spin-drying, adding a proper amount of purified water until the filtered water is nearly neutral, and performing washing and spin-drying. And then rinsing the filtrate by using absolute ethyl alcohol until the filtrate is colorless, and drying the filtrate by drying. Discharging at 80 deg.C, vacuum degree less than or equal to-0.08 MPa, and drying for 10 hr. The diphenoxylate hydrochloride is obtained with the yield of 88 percent, the purity of 98.7 percent and 0.06 percent of single impurity, and the obtained diphenoxylate hydrochloride is white powder with the drying weight loss not more than 5.0 percent.

Comparative example 3

(1) Condensation reaction

Adding 1.6kg of toluene into a reaction kettle, adding 1kg of bromoethyl diphenylacetonitrile, starting stirring, heating to dissolve the bromoethyl diphenylacetonitrile, standing, dividing water, adding 0.74kg of 4-phenyl-4-piperidine ethyl formate and 1 equivalent of piperidine, continuously heating to 120 ℃, and carrying out heat preservation and reflux for 4 hours. The water produced is removed at any time during the heat preservation process. And (3) after the heat preservation is finished, cooling to room temperature, discharging, filtering, washing filter residues with toluene to be colorless, combining the filtrates, adjusting the pH value to 1-1.5 with CP hydrochloric acid diluted by drinking water (the volume ratio of the drinking water to the CP hydrochloric acid is = 1), precipitating crystals, and standing overnight. Opening a bottom valve, putting the feed liquid into a centrifuge for spin-drying after rinsing with toluene, washing with drinking water to be neutral, washing for certain time, spin-drying as much as possible when throwing the feed, and finally, discharging after no water drops. The filtrate is pumped into a recovery pot to recover the toluene. Taking out the materials in the centrifuge, placing the materials in a drying tray, uniformly spreading, placing the drying tray in a hot air circulation drying oven, heating to 100 ℃, drying for 24 hours, taking out the dried materials, and weighing to obtain a crude product of the diphenoxylate hydrochloride.

(2) Refining

5kg of absolute ethyl alcohol, 1kg of crude diphenoxylate hydrochloride and 100g of active carbon are sequentially put into a reaction pot, stirred and heated to 75 ℃ for reflux, and the temperature is kept for half an hour. And (4) performing filter pressing, wherein the filtrate enters a D-grade clean area, is subjected to fine filtration by a 1-micron precision filter and then enters a crystallization kettle. Starting the crystallization kettle, stirring, cooling to below 10 deg.C with brine ice to crystallize, precipitating crystal, and standing. And (3) putting the feed liquid into a centrifuge, performing spin-drying, adding a proper amount of purified water until the filtered water is nearly neutral, and performing washing and spin-drying. And then rinsing the filtrate by using absolute ethyl alcohol until the filtrate is colorless, and drying the filtrate by drying. Discharging at 80 deg.C and vacuum degree less than or equal to-0.08 MPa, and drying for 10 hr. The diphenoxylate hydrochloride is obtained with yield of 86%, purity of 98.5% and single impurity of 0.05%, and the obtained diphenoxylate hydrochloride is white powder with drying weight loss not more than 5.0%.

The present invention is not limited to the above-described embodiments, and any obvious improvements, substitutions or modifications can be made by those skilled in the art without departing from the spirit of the present invention.

Claims (1)

1. A method for preparing diphenoxylate hydrochloride, which is characterized by comprising the following steps:

(1) Condensation reaction

Adding 1.8kg of toluene into a reaction kettle, adding 1kg of bromoethyl diphenylacetonitrile, starting stirring, heating to dissolve the bromoethyl diphenylacetonitrile, standing, dividing water, adding 0.8kg of 4-phenyl-4-piperidine ethyl formate and 1.2 equivalent of N, N-diisopropylethylamine, continuously heating to 110 ℃, preserving heat and refluxing for 5 hours; removing water generated at any time in the heat preservation process, cooling to room temperature after heat preservation, discharging, filtering by throwing, washing filter residues to be colorless by toluene, combining filter liquor, adjusting the pH value to 1-1.5 by CP hydrochloric acid diluted by drinking water, separating out crystals, and standing overnight; opening a bottom valve, putting the feed liquid into a centrifugal machine for spin-drying, rinsing with toluene, spin-drying, washing with drinking water to be neutral, washing for a certain time, spin-drying as much as possible when the feed is spun, and finally, spin-drying until no water drops out, and discharging; pumping the filtrate into a recovery pot to recover toluene; taking out the materials in the centrifuge, placing the materials in a drying tray, uniformly spreading the materials, then placing the drying tray in a hot air circulation drying oven, heating the materials to 100 ℃, drying the materials for 24 hours, taking out the dried materials, and weighing the dried materials to obtain a crude product of the diphenoxylate hydrochloride;

(2) Refining

Putting 6kg of absolute ethyl alcohol, 1kg of a diphenoxylate hydrochloride crude product and 80g of active carbon into a reaction pot in sequence, stirring, heating to 75 ℃, refluxing, and keeping the temperature for half an hour; filter pressing, wherein filtrate enters a D-grade clean area, is subjected to fine filtration by a precision filter of 1 mu m and then enters a crystallization kettle; starting a crystallization kettle, stirring, cooling to below 10 ℃ with brine ice to fully crystallize, separating out crystals, and standing; putting the feed liquid into a centrifuge, performing spin-drying, adding purified water until the filtered water is nearly neutral, washing, spin-drying, rinsing with anhydrous ethanol until the filtrate is colorless, and spin-drying; discharging at 75 deg.C and vacuum degree of-0.08 MPa, and drying for 10 hr to obtain diphenoxylate hydrochloride.