TH80518A - Hard crystalline multitool powder and the same manufacturing method. - Google Patents

Abstract

DC60 (08/03/49) This invention offers a crystalline, hard coagulated multitool powder that can be handled. Such as moving, opening, sealing Can be added or mixed with ingredients used to make other food products by Convenience without lumps when selling and storing crystalline multitool powders. No need It is ground into powder and re-sized again when used. Along with being able to improve the transport characteristics It's easy to automate. Put crystalline or powdered multitolls into round cylindrical containers, layer dryers, tunnel dryers. An air stream with a temperature of 30 ~ 33 ° C and a relative humidity of 5% is released from one side of the container or device at 11 ~ 12 spatial velocity and then pulled from the other side. This can be repeated for 24 hours until the multitool powder is Crystals that are difficult to coagulate This method allows a crystalline multitool that is difficult to coagulate by It relies on a combination of conditions such as the spatial speed of the optimal air current and time. Through continuous processes, etc. Even if the above relative humidity is 45%.

Claims (1)

Disclaimer (all) which will not appear on the advertisement page. : ------ 16/10/2017 ------ (OCR) Page 1 of 3 pages Disclaimer 1. A hard coagulating, crystalline powder with a unique characteristics. That said, there is a level of grip. The coagulation was arranged by the coagulation scale method described below, 0.6 points or lower (coagulation grading method). I. Take 50 g of sample crystalline multitool powder. Into a sample vial (150 ml full capacity, 4.1 cm inner diameter, 5.5 cm body diameter, 9.5 cm overall height), commercially available in 50% relative humidity and temperature environments. 20 ° C, and then seal the polyethylene inner cover and the polypropylene outer cover. The Pylines that are included The seam is then sealed between the cap and the bottle using vinyl tape. From the top down II. In the next step, the sealed vials are placed in a temperature-adjustable compartment after being stored at 20 ํ C and 40 ํ C alternately. Twelve hours for 20 days are then evaluated using the judging criteria in items (1) to (3) below. Prepare 5 identical samples and set the average of the five results as a level. Coagulation by this coagulation grading method (1), during which the sample flask is tilted up to 90 ° C without impact (knocking down the upright sample flask). Lying down). All sample powders have circulatory properties. It flows through the mouth of the bottle without powder adherence at the bottom of the sample vial? Does the sample powder flow through the mouth of the bottle as the sample powder adheres? A small amount at the bottom of the crucible is set to 0 points (2) when the angle of the crucible is tilted to 90 ° C and the flow property is not shown. Circulates without flow However, within 1 minute from the tilted to 180 ° C, the sample powder flowed towards the mouth of the bottle, assigned 1 point (3). No sample powder flowed towards the mouth of the bottle, even though 1 minute had elapsed. 2. The crystalline powder that is difficult to coagulate, as described in claim 1, is characterized by that the degree of capture of the crucible is tilted to 180 ° C. The coagulation grading method is 0.4 points or lower. 3. The pre-coagulating multitool powder is difficult as described in claim 2, which is characterized by that the degree The coagulation according to the coagulation grading method is 0.2 points or less than page 2 of the number 3 pages 4. hard crystalline multitool powder as specified in the Clot Claims Clause. 1 to 3, which is characterized as 0.2% or less moisture by weight and quantity of multitool at The powder is mixed with 98% or more solids by weight. 5. The hard-coagulating, crystalline multitool, as described in Claims 1 to 4, has the characteristics that powder With a volume of 90% or more by weight that can pass through the eye Network according to JIS filtration standards with a 0.50 mm sieve. 6. A method for producing a crystalline hard coagulant multitool powder characterized by having Purification of air at a temperature of 20 to 50 ํ C and a relative humidity of 5 to 50% in contact with a multicomponent powder. A crystalline dial with a coagulation scale following the coagulation scale method described below is greater than 0.6 points for 5 to 50 hours using the spatial speed [= SV] 2 to 15 ( h-1) to form a crystalline multitool powder with a coagulation level of 0.6 points or lower (coagulation degree method). 50 g of samples are placed in a sample vial (150 ml full capacity, 4.1 cm inner diameter, 5.5 cm body diameter, 9.5 cm overall height) commercially available in a demanding environment. It has a relative humidity of 50% and a temperature of 20 ° C. The polyethylene inner cover and the polypropylene outer cover are sealed. The Pylines that are included The seam is then sealed between the cap and the bottle using vinyl tape. From the top down II. In it, the sealed vials are placed in the temperature-adjustable compartment after they are kept at 20 ํ C and 40 ํ C alternately. Twelve hours for 20 days are then evaluated using the judging criteria in items (1) to (3) below. The test results of 5 identical samples were assigned as the mean of the test results. Coagulation by this coagulation level measurement method (1), during which the sample flask is tilted up to 90 ° C without impact (knocking down the upright sample flask). Lying down). All sample powders have circulatory properties. It flows through the mouth of the bottle without powder adherence at the bottom of the sample vial or that the sample powder exhibits circulating properties through the mouth of the bottle while the sample powder is adhered. A small amount at the bottom of the crucible is set to 0 points (2) when the angle of the crucible is tilted to 90 ° C and the flow property is not shown. Circulates without flow But within 1 minute, from the tilted to 180 ° C, the sample powder flowed towards the mouth of the bottle, designated as 1 point, page 3, of the number 3 (3). Minutes after having angled The slanting of the sample vial up to 180 ° C is then determined to be 2 points. 7. The production method for the hard coagulating crystalline multitool powder is described in claim 6, which has the characteristics that Air at 25 to 42 ° C and 8 to 45% relative humidity was exposed to crystalline multitool powder with a coagulation level following the coagulation scale method greater than 0.6 points as It was 8 to 48 hours using the sheng speed [= SV] 3 to 14 (h-1) to form a crystalline multitool with a coagulation level of 0.6 points or lower. The production of crystalline multitool powder that is hard to coagulate, as described in Clause 6 or 7, is characterized by being able to produce a crystalline multitool with an air temperature at which it is exposed. It is 28 to 33 ํ C and has a coagulation level according to the coagulation scale method 0.4 points or lower 9. Production method for hard coagulation multitool powder as specified in Clause 8, which has the peculiarity of obtaining a crystalline multitool powder with a coagulation degree according to the level measurement method. Coagulation 0.2 points or less 0. Manufacturing method for hard to coagulate multitool powder as described in one of Claim 6 to 9. Which has the characteristics that the multitool powder is crystalline with coagulation The coagulation level method 0.6 points or lower, 0.2% or less moisture content by weight, and the multitool content of 98% or more of solids by weight 1 1. Production method. A hard crystalline multitool powder described in any Clause 6 to 10. It has the characteristics that crystalline multitool powder has a coagulation level. According to the coagulation level measurement method 0.6 or lower, there is 90% or more powder by weight that It can pass through the JIS mesh filter with a 0.50 mm hole. ------------ Revised August 4, 2017 1. A hard-coagulating, crystalline powder that has Only that there is a level of capture. Coagulation measured by the coagulation scale method described below, 0.6 points or lower (Coagulation level measurement method) 1. Take 50 g of sample crystalline multitool powder to Into a sample vial (150 ml full capacity, 4.1 cm inner diameter, 5.5 cm body diameter, 9.5 cm overall height), commercially available in 50% relative humidity and temperature environments. 20 (symbol) C Then sealed the polyethylene inner cover and the polyethylene outer cover. The polypropylene supplied The seam is then sealed between the cap and the bottle using vinyl tape. From the top down 2. In the next step, put the sealed bottle into a compartment that has the ability to adjust the temperature. After being stored at temperature 20 (symbol) C with temperature 40 (symbol) C Twelve hours each were alternated for 20 days, and then the assessment was performed using the cut-off criteria in items (1) to (3) below. The coagulation level was determined by the coagulation level of 5 identical samples and the mean of the test results of the 5 was determined by this coagulation level measurement method (1) during the flocculation of the sample flask. Put it tilted until 90 (symbol) C Without impact (causing the upright sample flask to fall, lie down), all sample powders were circulating. It flows through the mouth of the bottle without powder adherence at the bottom of the sample vial, or whether the sample powder exhibits circulating properties by flowing through the mouth of the bottle while the sample powder is attached. A small amount at the bottom of the crucible is set to 0 points (2) when the angle of the crucible is tilted to 90 (symbol) C Then do not show properties Circulates without flow Or that within 1 minute of being tilted to 180 (Symbol) C Sample powder flowed towards the mouth of the bottle, designated 1 point (3) No sample powder flowed into the mouth even though 1 minute had elapsed after angled. Of the sample vial tilted to 180 (symbol) C is then set to 2 points ---------- Edit 15/7/2016 1. A hard-coagulating crystalline powder with the characteristic that There is a level of grip. Coagulation measured by the coagulation scale method described below, 0.6 points or lower (Coagulation level measurement method) 1. Take 50 g of sample crystalline multitool powder to Into a sample vial (150 ml full capacity, 4.1 cm inner diameter, 5.5 cm body diameter, 9.5 cm overall height), commercially available in 50% relative humidity and temperature environments. 20 ° C, and then seal the polyethylene inner cover and the polypropylene outer cover. The polypropylene supplied The junction between the cap and the bottle is then sealed using vinyl tape. From the top down 2. In the next step, put the sealed vials into a temperature adjustable compartment after being kept at 20 ํ C and 40 ํ C alternately. Twelve hours were repeated over 20 days, and the assessment was performed using the cut-off criteria (1) to (3) below. Five identical samples were prepared and the mean of the results was given. The coagulation level was tested from the 5 specimens by this coagulation level measurement method (1), during which the sample flask with sample was tilted to 90 ° C without impact ( Make the sample vials located vertically, downward), all the sample powders have you Circulation properties: It flows through the mouth of the bottle with no powder adherence at the bottom of the sample vial, or that the sample powder exhibits a circulating property by flowing towards the mouth of the bottle at the time of adhesion. The small amount of the sample powder at the bottom of the sample flask is assigned 0 points (2) when the angle of the sample flask is tilted to 90 ° C and the flow property is not shown. Circulates without flow Or, within 1 minute, from the inclination to 180 ° C, the sample powder flowed towards the mouth of the bottle, assigned 1 point (3). 2. The crystalline powder that is difficult to coagulate is stated in claim 1, which is characterized by that the degree The coagulation method by the coagulation level measurement method was 0.4 points or less. 3. The difficult pre-coagulated multitool powder as specified in claim 2, has the characteristics that That the coagulation level according to the coagulation degree measurement method is 0.2 points or less 4. hard coagulating crystalline multitool powder as specified in Claims 1 to 3, which It is characterized by the moisture content of 0.2% or less by weight and quantity of multitool mixed per Solid fraction 98% or more by weight 5. The hard crystalline multitool powder as described in Claims 1 to 4, is characterized by a powder containing 90% or more. By weight that can pass through the filter compartment According to the JIS filtration standard with a 0.50 mm filter chamber. 6. A method for producing hard-coagulated crystalline multitool products that are characterized by having Purification of air at a temperature of 20 to 50 ํ C and a relative humidity of 5 to 50% is exposed to multi-powder. A crystalline dial with a coagulation scale following the coagulation scale method described below is greater than 0.6 points for 5 to 50 hours using the spatial speed [= SV] 2 to 15 ( h-1) to form crystalline multitool powder with a coagulation degree of 0.6 points or less (coagulation degree method). 50 g of samples are placed in a sample vial (150 ml full capacity, 4.1 cm inner diameter, 5.5 cm body diameter, 9.5 cm overall height) commercially available in a demanding environment. It has a relative humidity of 50% and a temperature of 20 ° C. The polyethylene inner cover and the polyethylene outer cover are sealed. The polypropylene supplied The junction between the cap and the bottle is then sealed using vinyl tape. From the top down 2. In the next step, put the sealed vials into a temperature adjustable compartment after being kept at 20 ํ C and 40 ํ C alternately. Twelve hours were repeated over 20 days, and the assessment was performed using the cut-off criteria (1) to (3) below. Five identical samples were prepared and the mean of the results was given. The coagulation level was tested from the 5 specimens by this coagulation level measurement method (1), during which the sample flask with sample was tilted to 90 ° C without impact ( Make the sample vials located vertically, downward), all the sample powders have you Circulation properties: It flows through the mouth of the bottle with no powder adherence at the bottom of the sample vial, or that the sample powder exhibits a circulating property by flowing towards the mouth of the bottle at the time of adhesion. The small amount of the sample powder at the bottom of the sample flask is assigned 0 points (2) when the angle of the sample flask is tilted to 90 ° C and the flow property is not shown. Circulates without flow Or, within 1 minute, from the inclination to 180 ° C, the sample powder flowed towards the mouth of the bottle, assigned 1 point (3). The slanting of the sample vial up to 180 ํ C is then determined to be 2 points. 7. The production method for the hard-coagulating crystalline multitool powder is specified in claim 6, which is characterized by the That the air at 25 to 42 ° C and 8 to 45% relative humidity was exposed to crystalline multitool powder with a coagulation level of more than 0.6 point coagulation method. For 8 to 48 hours using the spatial velocity [= SV] 3 to 4 (h-1) 8. Method for producing crystalline hard-to-coagulate multitool powder as described in claim 6. Or 7, which is characterized by obtaining crystalline multitool powder with a contact air temperature of 28 to 33 ° C and a coagulation degree according to the coagulation level method 0.4. Score or lower 9. Production method for hard crystalline milititol powder described in Clause 8, which has the characteristics of producing a crystalline multitool with a degree of Coagulation according to level measurement method Coagulation 0.2 points or less 1.0. Method for producing hard-to-coagulate multitool powder described in one of Claim 6 to 9. It has the characteristics that the crystalline multitool powder has a coagulation level according to Method for measuring the coagulation level of 0.6 points or lower, moisture content 0.2% or less by weight and multitall content per solid fraction 98% or more by weight 1. Produce hard crystalline multitool powder described in any Clause 6 to 10. It has the characteristics that crystalline multitool powder has a coagulation level. According to measurement method, the coagulation level of 0.6 or less is 90% or more powder by weight that can pass through a JIS filter mesh with 0.50mm hole. -------------------------------------------------- ------------------------ 1. A crystalline hard coagulant powder characterized by its degree of binding. The coagulation measured by the coagulation degree method mentioned below is less than 0.6 point (the coagulation level measurement method). 1. Put 50 g of sample crystalline multitool powder into it. In the sample vials (150 ml full capacity, 4.1 cm inner diameter, 5.5 cm body diameter, 9.5 cm overall height) commercially available in 50% relative humidity and temperature environments. 20 ° C and then seal the polyethylene inner cover and the polyethylene outer cover. The polypropylene supplied The junction between the cap and the bottle is then sealed using vinyl tape. From the top down 2. In the next step, put the sealed vials into a temperature adjustable compartment after being kept at 20 ํ C and 40 ํ C alternately. 12 hours were repeated over 20 days, and then the assessment was performed using the cut-off criteria in items (1) ~ (3) below. The coagulation level was determined by the coagulation level of 5 identical samples and the mean of the test results of the 5 was determined by this coagulation level measurement method (1) during the flocculation of the sample flask. It is placed tilted to 90 ° C without impact (causing the sample vial to be located vertically, downward). All sample powder has you. Circulation properties: It flows through the mouth of the bottle with no powder adherence at the bottom of the sample vial, or that the sample powder exhibits a circulating property by flowing towards the mouth of the bottle at the time of adhesion. The small amount of the sample powder at the bottom of the sample flask is assigned 0 points (2) when the angle of the sample flask is tilted to 90 ° C and the flow property is not shown. Circulates without flow Also, during the tilt of the flask to 180 ° C or within 1 minute from the tilt to 180 ° C, the sample powder flowed towards the mouth of the bottle, set to 1 point (3). No sample powder flowed through the mouth. Bottle even though time has elapsed 1 minute after it has angled 2. The crystalline powder that is difficult to coagulate is stated in claim 1, which is characterized by that the degree The coagulation method by the coagulation level measurement method was less than 0.4 points. 3. The difficult pre-coagulated multitool powder as specified in claim 2, has the characteristics that The coagulation level according to the coagulation degree measurement method is less than 0.2 points. 4. The hard coagulating crystalline multitool powder as specified in Claim 1 ~ 3 is characterized by Only that the moisture content is less than 0.2% by weight and the amount of multitool mixed per part. The solids are greater than 98% by weight. 5. The crystalline multitool is difficult to coagulate, as stated in Clause 1 ~ 4, which is characterized by that powders greater than 90% by weight. It is smaller than the JIS standard filter chamber with a 0.50 mm filter chamber. 6. A method for producing crystalline hard-to-coagulate multitool products that have the characteristics of having The humidification at 20 ~ 50 ํ C and relative humidity 5 ~ 50% is exposed to multitool powder. It is a crystal with a coagulation degree according to the coagulation scale method mentioned below of more than 0.6 points for 5 ~ 50 hours using the spatial velocity [= SV] 2 ~ 15 (h- 1) To form crystalline multitool powder with the coagulation level below 0.6 point (coagulation level measurement method). 50 g into a sample bottle (150 ml full capacity, 4.1 cm inner diameter, 5.5 cm body diameter, 9.5 cm overall height) commercially available in humid environments. Then seal the polyethylene inner cover and the polypropylene outer cover. The polypropylene supplied The junction between the cap and the bottle is then sealed using vinyl tape. From the top down 2. In the next step, put the sealed vials into a temperature adjustable compartment after being kept at 20 ํ C and 40 ํ C alternately. 12 hours were repeated over 20 days, and then the assessment was performed using the cut-off criteria in items (1) ~ (3) below. The coagulation level was determined by the coagulation level of 5 identical samples and the mean of the test results of the 5 was determined by this coagulation level measurement method (1) during the flocculation of the sample flask. It is placed tilted to 90 ° C without impact (causing the sample vial to be located vertically, downward). All sample powder has you. Circulation properties: It flows through the mouth of the bottle with no powder adherence at the bottom of the sample vial, or that the sample powder exhibits a circulating property by flowing towards the mouth of the bottle at the time of adhesion. The small amount of the sample powder at the bottom of the sample flask is assigned 0 points (2) when the angle of the sample flask is tilted to 90 ° C and the flow property is not shown. Circulates without flow Also, during the tilt of the flask to 180 ° C or within 1 minute from the tilt to 180 ° C, the sample powder flowed towards the mouth of the bottle, set to 1 point (3). No sample powder flowed through the mouth. Bottle even though time has elapsed 1 minute after it has angled The slanting of the sample vial up to 180 ํ C is then determined to be 2 points. 7. The production method for the hard-coagulating crystalline multitool powder is specified in claim 6, which is characterized by the That air stream with temperature 25 ~ 42 ํ C and relative humidity 8 ~ 45% was exposed to crystalline multitool powder with coagulation level according to the flocculation measurement method. The lump was higher than 0.6 points for 8 ~ 48 hours using the spatial speed [= SV] 3 ~ 4 (h1-). 8. Production method for hard coagulation multitool powder as specified. In claim 6 or 7, it is characterized by obtaining a crystalline multitool with a contact air temperature of 28 ~ 33 ํ C and a coagulation level according to the level measurement method. Coagulation lower than 0.4 points 9. Production method of hard crystalline maltitol powder as described in Clause 8, which has the characteristics of producing multitol powder that is difficult to coagulate. Is a crystal with coagulation level according to level measurement method Coagulation Less than 0.2 points 1 0. Manufacturing method for hard coagulation multitool powder as described in one of Claim 6 ~ 9. It has the characteristics that the crystalline multitool powder has a coagulation level according to The coagulation level measurement methods are lower than 0.6 points, the moisture content is less than 0.2% by weight and have The amount of multitool mixed per solid fraction is greater than 98% by weight 1. 1. Method for producing hard crystalline multitool powder as described in one of Clause 6 ~ 10. It has the characteristics that crystalline multitool powder has a coagulation level. According to the measurement method, the coagulation level below 0.6 contains more than 90% of the powder by weight smaller than the 0.50 mm JIS filter hole.