JP2018068992A - Solidified body production device and production method of solidified body - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a solidified body production device and a production method of a solidified body which can make a powdery body a solid body so that it can be easily taken by a user.SOLUTION: A solidified body production device 1 comprises: a powdery body passage part 10 having plural passage holes 12 through which a powdery body 2 passes, the passage holes penetrating in a thickness direction of a first flat plate part 11; a liquid filling part 20 having plural recess parts 22 for filling a liquid or gel-like substance 3 which are provided on a surface of a second flat plate part 21; and a pressing part 30 where plural protrusion parts 32 are protruded from a flat plate-shaped part 31. The pressing part 30 is configured so that the powdery body passage part 10 and the liquid filling part 20 face each other in which a surface of the first flat plate part 11 and a surface of the second flat plate part 21 are in contact each other and in which openings of the passage holes 12 and openings of the recess parts 22 face each other, the powdery body 2 is made to pass through the passage holes 12, and a mixture 4 obtained by mixing the powdery body to the liquid or gel-like substance 3 filled in the recess parts 22 of the liquid filling part 20 is pressed by the protrusion parts 32 for compressing the mixture, for producing a solidified body 5.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a solidified body manufacturing device and a solidified body manufacturing method.

Powdered drugs and granular drugs are troublesome to take, especially for the elderly and children. In addition, although it is not originally taken as a drug, even if it is a powder that is considered good for the body, if it can be easily produced in solid form, it will be easy to take and can be taken on a daily basis, Such technology is not current.
For example, such a medicine or powder that is difficult to take can be made easy to drink if it is put in a capsule by the method as in Patent Document 1 below.

Special table 2005-522302 gazette

  However, the method of Patent Document 1 encapsulates using a large-scale device that requires a special film, a rotating die, etc., and is easily processed into a state where it is easy to take medicines at home or on the road. It is not possible. There is a need to quickly launch something that meets your needs.

  This invention is made | formed in view of the said situation, and it aims at providing the manufacturing method of the solidified body manufacturing device and solidified body which can make a powdery body etc. easily into the solid form which is easy to drink.

  The solidified body manufacturing device according to the present invention includes a powder body passing portion provided with a plurality of passage holes through which the powder body passes so as to penetrate in the thickness direction of the first flat plate portion, and a liquid or gel substance. A liquid filling portion provided with a plurality of indentations on the surface of the second flat plate portion, and a pressing portion in which the plurality of protruding portions protrude from the flat plate portion, and the pressing portion is in the powder form The body passage portion and the liquid filling portion are opposed to the opening portion of the passage hole and the opening portion of the recess portion, and the surface of the first flat plate portion and the surface of the second flat plate portion are brought together. In such a state, the mixture is obtained by passing the powdery body through the passage hole and mixing with the liquid or gel substance filled in the recess of the liquid filling portion. The solidified body is manufactured by pressing and compressing, and is characterized in that.

  In the present invention, the powdery body passage portion has an opening at one end face of the first flat plate portion, and is formed inside the first flat plate portion so as to communicate with the plurality of passage holes. While providing a groove part, it is good also as what was provided with the insertion board accommodated slidably in this groove part.

  Moreover, in this invention, it is good also as what provided the scale in the surrounding wall which comprises the said passage hole of a said 1st flat plate part.

  Furthermore, in the present invention, it further includes a box-like body having a peripheral wall portion so as to provide an internal space, and the powder-like body passage portion and the liquid filling portion are respectively provided on the peripheral wall portion of the box-like body. The first through hole and the second through hole to be inserted are provided, and the first holding unit and the second holding unit that slidably hold the powdery body passage unit and the liquid filling unit are slidable in the interior. It is good also as what is provided so that it may protrude in the space side.

In order to achieve the above-mentioned object, the method for producing a solidified body according to the present invention is a powder body passing method in which a plurality of passage holes through which the powder body passes are provided so as to penetrate in the thickness direction of the first flat plate portion. Part, a liquid filling portion provided with a plurality of recesses filled with a liquid or gel substance on the surface of the second flat plate portion, and a pressing portion having a plurality of protruding portions protruding from the flat plate portion. A method for producing a solidified body, wherein the powder-like body passage portion and the liquid filling portion are opposed to an opening portion of the passage hole and an opening portion of the recess portion, and the first flat plate portion. In the state where the surface of the second flat plate portion and the surface of the second flat plate portion are attached to each other, the powder or the gel-like substance filled in the recess portion of the liquid filling portion is allowed to pass through the passage hole. A mixture is obtained by mixing, and the mixture is pressed at the protruding portion of the pressing portion and compressed to produce a solidified body. And wherein the Rukoto.
In order to achieve the above object, the present invention is characterized by comprising gelatin as a powder and water or an acidic or basic aqueous solution.

  According to the solidified body manufacturing device and the solidified body manufacturing method according to the present invention, it is possible to easily form a powdery body or the like that is easy to drink.

(A), (b), (c) is a schematic perspective view schematically showing an example of a powdery body passage portion, a liquid filling portion, and a pressing portion of a solidified body manufacturing device according to an embodiment of the present invention, respectively. FIG. (A) is a schematic perspective view of a box-shaped body of the solidified body manufacturing device, and (b) is a solidified body in a state in which a powder-like body passing section, a liquid filling section and a pressing section are assembled to the box-shaped body. It is XX arrow sectional drawing of a manufacturing device of Fig.1 (a), (c) is a figure which shows the process in which a solidified body is manufactured from a powdery body and a liquid or a gel-like substance. . (A), (b), (c) is a figure which shows the process in which a solidified body is manufactured from a powdery body and a liquid or a gel-like substance, and is a XX arrow line view of Fig.1 (a). It is the figure shown using sectional drawing.

Embodiments of the present invention will be described below with reference to the drawings.
As shown in FIGS. 1A, 1B, and 1C, the solidified body manufacturing device 1 according to an embodiment of the present invention is powdery so as to penetrate in the thickness direction of the first flat plate portion 11. 2 and the like. The liquid filling portion 20 provided on the surface of the second flat plate portion 21 with the powder-like body passage portion 10 provided with a plurality of passage holes 12 through which 2 passes and the plurality of recess portions 22 filled with the liquid or gel substance 3. And the press part 30 which made the some protrusion part 32 protrude from the flat plate-shaped part 31 is provided.
As shown in FIG. 2C, the solidified body manufacturing device 1 mixes the powdered body 2 and the liquid or gel-like substance 3, and further compresses the solidified body 5 to manufacture the solidified body 5.

As shown in FIG. 1B, the liquid filling portion 20 has a second flat plate portion 21 having a rectangular shape in plan view, the surface of which is partially recessed in the thickness direction, and a liquid or gel A plurality of recesses 22, 22 having a filling portion filled with the particulate material 3 are formed.
In this embodiment, as shown in FIG. 2B and FIGS. 3A and 3B, a scale 22a is provided on the peripheral wall constituting the recessed portion 22 of the second flat plate portion 21. As the scale 22a, a plurality of lines may be formed on the peripheral wall at equal intervals. The scale interval may be anything as long as it can measure the volume of the liquid or gel-like substance 3 filled in the recess 22, for example, the volume per scale is 0.1, 0.2, 0,. You may set so that it may become 3, 0.5, 1.0 ml.
In addition, a handle 23 is provided on one side peripheral end surface of the second flat plate portion 21 of the liquid filling portion 20, and the liquid filling portion 20 accommodated in the box-like body 40 to be described later is connected to the second through hole 41 a. It is possible to put in and out.

As shown in FIG. 1A, the powder body passing portion 10 includes a first flat plate portion 11 having a rectangular shape in plan view, and a plurality of passes so as to penetrate in the thickness direction of the first flat plate portion 11. A hole 12 is formed.
The first flat plate portion 11 is provided with a handle 11a on a pair of end surfaces of the four peripheral end surfaces, and the powder-like body passage portion 10 accommodated in the box-like body 40 described later is passed through the first through hole 42a. It is possible to put in and out.
As shown in FIG. 1A, the powder body passing portion 10 has an opening 13 a on one side end face of the first flat plate portion 11, and communicates with the plurality of passage holes 12. 11 is provided with a groove 13 formed so as to be dug along the flat plate direction of the first flat plate portion 11. Moreover, the powdery body passage part 10 is provided with the insertion board 14 accommodated in this groove part 13 so that sliding is possible.

The groove portion 13 may be formed over substantially the entire inside of the first flat plate portion 11, or may be formed in a part instead of the entirety. The groove 13 may be formed so as to provide the opening 13a at a position in the middle of the first flat plate portion 11 in the thickness direction on the one side end face of the first flat plate portion 11.
The insertion plate 14 is provided with a handle 15 on one side end surface, and the insertion plate 14 can be inserted into the groove portion 13 and pulled out from the groove portion 13 by grasping the handle 15. The insertion plate 14 is configured to be accommodated in substantially the entire groove portion 13, and is configured to communicate with substantially the entire passage hole 12 in a state where the entire insertion plate 14 is accommodated.

The passage hole 12 is vertically divided by the insertion plate 14 in a state where the insertion plate 14 is accommodated in the groove portion 13, and an upper passage portion 12 a and a lower passage portion 12 b are formed above and below the insertion plate 14, respectively. The bottom part of the upper passage part 12a is closed by the insertion plate 14, and the powder body 2 is accumulated on the insertion plate 14 and in the upper passage part 12a. That is, the storage part of the substantially cylindrical powdery body 2 is formed by the upper surface of the insertion plate 14 and the peripheral wall constituting the upper passage part 12a. Further, when the insertion plate 14 is pulled out from the groove portion 13, the powdery body 2 accumulated in the storage portion falls downward through the lower passage portion 12 b and accumulates in the recess portion 22 of the liquid filling portion 20. .
In the present embodiment, as shown in FIGS. 2B and 3A and 3B, a scale 12aa is provided on the peripheral wall constituting the upper passage portion 12a of the passage hole 12 of the first flat plate portion 11. . As the scale 12aa, a plurality of lines may be formed on the peripheral wall at equal intervals. The scale interval is not particularly limited as long as the capacity of the powdery body 2 accumulated on the insertion plate 14 can be measured. For example, the capacity per scale is 0.1, 0.2, 0.3, 0. .5, 1.0 ml, etc. may be set.

In the present embodiment, all of the passage holes 12 and 12 are formed in the powdery body passage portion 10 so that the opening positions thereof coincide with any of the recess portions 22 and 22 of the liquid filling portion 20.
In addition, you may form these so that all the opening positions of each passage hole 12 and 12 and each recessed part 22 and 22 may correspond like the example of a figure. Each of the passage holes 12 and 12 and each of the recesses 22 and 22 may be formed in a single row, a plurality of rows, or may be formed randomly.

  The pressing part 30 has the powder body passing part 10 and the liquid filling part 20 facing the opening part of the passage hole 12 and the opening part of the recessed part 22, and the surface (lower surface) of the first flat plate part 11. In a state where the surface (upper surface) of the second flat plate portion 21 is attached, the powder 2 is passed through the passage hole 12 and filled in the recessed portion 22 of the liquid filling portion 20 or gel. The mixture 4 obtained by mixing in the substance 3 is pressed and compressed by the protrusion 32 to produce the solidified body 5.

In this embodiment, the solidified body manufacturing device 1 further includes a box-shaped body 40 having peripheral wall portions 41, 42, 43, and 44 so as to provide an internal space, as shown in FIG. .
The peripheral wall portions 41, 42, 43, 44 of the box-like body 40 have a first through hole 42 a and a first through-hole 42 a into which the powder-like body passing portion 10 and the liquid filling portion 20 are respectively inserted into and removed from the internal space. Two through holes 41a are provided. Furthermore, the peripheral wall portions 43 and 44 are formed so that the first holding portions 43a and 44a and the second holding portions 43b and 44b that hold the powdery body passage portion 10 and the liquid filling portion 20 slidably respectively protrude toward the inner space side. Is provided.

The peripheral wall portions 41, 42, 43, 44 are rectangular thin plate-like bodies, and the box-like body 40 has a substantially rectangular shape in plan view having openings on the top and bottom.
In this embodiment, as shown to Fig.2 (a), the surrounding wall parts 41,42,43,44 of the box-shaped body 40 are a pair of opposing vertical wall parts 41 and 42, and a pair of horizontal wall part 43 which opposes. , 44, and the second through hole 41a and the first through hole 42a are provided in one and the other of the pair of vertical wall portions 41, 42, respectively. In the illustrated example, the second through hole 41a is provided in the vertical wall portion 41, and the first through hole 42a is provided in the vertical wall portion 42.
Here, the pair of horizontal wall portions 43 and 44 are wall portions extending in the left-right direction in FIG.

In addition, the first through hole 42a is a second flat plate portion of the liquid filling portion 20 in which the surface (rear surface) of the first flat plate portion 11 of the powdery body passage portion 10 inserted therein is inserted into the second through hole 41a. The vertical wall portion 42 is formed so as to be close to the 21 surface (upper surface).
The liquid filling portion 20 has the second flat plate portion 21 inserted into the second through hole 41a so that the recessed portion 22 faces upward.

The first holding portions 43 a and 44 a are provided at the intermediate positions in the vertical direction of the horizontal wall portions 43 and 44 so as to protrude toward the inner space. You may provide over substantially the whole horizontal direction of the horizontal wall parts 43 and 44, or you may provide it partially in a horizontal direction.
By providing the first holding portions 43a and 44a, the powder-like body passage portion 10 inserted into the first through hole 42a is slid while the lower end side thereof is in contact with the first holding portions 43a and 44a. It can be inserted into the internal space of the box-shaped body 40 or pulled out from it.

The second holding portions 43b and 44b are provided at the lower ends of the lateral wall portions 43 and 44 so as to protrude toward the internal space. You may provide over substantially the whole horizontal direction of the horizontal wall parts 43 and 44, or you may provide it partially in a horizontal direction.
Since the second holding portions 43b and 44b are provided, the liquid filling portion 20 inserted into the second through hole 41a is slid while the lower end side thereof is in contact with the second holding portions 43b and 44b. It can be inserted into and extracted from the internal space of the shaped body 40.

  In the present embodiment, as shown in FIGS. 1C and 2B, the pressing portion 30 is placed on the upper end surface of the peripheral wall portions 41, 42, 43, 44 that covers the upper opening of the box-shaped body 40. A rectangular thin plate-like lid-like body 21 to be placed is formed, and two parts which are separate from each other are combined to form the lid-like body 21. Further, a handle is provided on each of the upper surfaces of these two parts. In addition, the lid-like body 21 of the pressing portion 30 is provided with a plurality of projecting portions 32 provided so as to project downward. With this configuration, the pressing unit 30 not only functions as a lid of the box-shaped body 40, but also removes these parts and changes the direction (changes the direction by approximately 90 degrees) to form a box shape. Since it can be operated by being inserted into the internal space of the body 40, it is possible to press the mixture 4 in the recess 22 of the liquid filling portion 20 using this.

  The 1st flat plate part 11 of the powdery body passage part 10 is good also as a length dimension about 5-30 cm, and a thickness dimension about 5-30 mm. Here, the horizontal direction of the 1st flat plate part 11 says the left-right direction of the 1st flat plate part 11 in Fig.1 (a), and a vertical direction means the direction orthogonal to it. The insertion plate 14 should just be a dimension which can be taken in and out of the groove part 13.

The second flat plate portion 21 of the liquid filling portion 20 may have a vertical and horizontal length dimension of about 5 cm to 30 cm and a thickness dimension of about 5 mm to 30 mm, respectively.
The shape of the recessed portion 22 may be a dome shape, a cylindrical shape, a prismatic shape, etc., the depth dimension is about 2.0 mm to 20.0 mm, the opening diameter is about 2.0 mm to 20.0 mm, and the recessed portion The volume inside 22 may be about 0.1 ml to 5.0 ml.
The opening of the recessed portion 22 may be circular, elliptical, rectangular, or the like in plan view, and the opening of the passage hole 12 may have these shapes. Moreover, it is good also as the opening shape of the recessed part 22 and the passage hole 12 being substantially the same.

  Each component of the first flat plate portion 11 and the insertion plate 14 of the powder passage portion 10, the second flat plate portion 21 of the liquid filling portion 20, the lid and protrusion 32 of the pressing portion 30, and the box 40 is It may be composed of a hard material such as a transparent resin such as an epoxy resin, an ultraviolet curable resin, a polyester resin, a transparent polyurethane resin, an acrylic resin, a low viscosity epoxy resin, a rapid curing epoxy resin, or a glass. You may comprise by a material etc. Further, it may be made of any material such as transparent, translucent, and opaque, but is preferably made of a transparent material that allows the inside of the box 40 to be seen.

According to the solidified body manufacturing device 1 according to the present invention, it is possible to easily make a powdery body or the like a solid that is easy to drink.
That is, as the medicine, there are those in the powdery body 2 such as a powder medicine or a granule medicine, but these are difficult to take especially for the elderly and infants. In the present invention, the powdery body 2 and the liquid or gel substance accumulated in the recesses 22 and 22 of the liquid filling part 20 using the liquid filling part 20, the powder passing part 10 and the pressing part 30. The solidified body 5 can be easily manufactured by pressing and compressing the mixture 4 with 3 at the protruding portion 32 of the pressing portion 30.
Further, by using powdery gelatin as the powdery body 2 and water as the liquid or gel-like substance 3, a gelatin tablet as the solidified body 5 can be produced. Since this gelatin tablet contains a large amount of glycine, which is an inhibitory neurotransmitter, it has various excellent effects such as a resting action and a tranquilizing action.
If the said solidified body manufacturing device 1 is used, the tablet etc. which have such an effect easily can be manufactured using a familiar thing.

Moreover, in this embodiment, the powdery body passage part 10 is provided with the insertion board 14 slidably inserted in the groove part 13. Therefore, the powdery body 2 can be stored on the insertion plate 14 by allowing the powdery body 2 to pass through the passage hole 12 in a state where the insertion plate 14 is inserted into the groove portion 13. Since the powdery body 2 accumulated on the plate 14 and in the upper passage portion 12a can be visually observed, the capacity of the powdery body 2 to be charged can be grasped.
Moreover, in this embodiment, scale 12aa is provided in the surrounding wall which comprises the passage hole 12 of the 1st flat plate part 11 of the powdery body passage part 10. FIG. Therefore, in a state where the insertion plate 14 is inserted into the groove portion 13, the powdery body 2 can be accumulated in a desired volume on the insertion plate 14 and in the upper passage portion 12 a using the scale 12 aa.

Moreover, in this embodiment, the box-shaped body 40 which has the surrounding wall parts 41-44 so that an interior space may be provided is further provided, and the liquid filling parts 20 and the powder are included in the surrounding wall parts 41-44 of the box-shaped body 40. The first through-hole 41a and the first through-hole 42a into which the powder body passage portion 10 is inserted are provided, and the powder body passage portion 10 and the liquid filling portion 20 are each slidably held. The parts 43a and 44a and the second holding parts 44b and 44b are provided so as to protrude to the inner space side.
Therefore, since the solidified body 5 can be manufactured using one structural unit called the box 40 that is easy to carry, the solidified body can easily be used to take medicines that are taken on a daily basis at a destination such as a travel destination. 5 for easy drinking.

The manufacturing method of the solidified body 5 includes a powder body passing section 10 provided with a plurality of passage holes 12 through which the powder body 2 passes so as to penetrate in the thickness direction of the first flat plate section 11, and a liquid or A liquid filling portion 20 provided with a plurality of recesses 22 filled with the gel substance 3 on the surface of the second flat plate portion 21, and a pressing portion 30 having a plurality of protruding portions 32 protruded from the flat plate portion 31. It is what was used.
The surface of the first flat plate portion 11 and the surface of the second flat plate portion 21 are arranged such that the powder body passing portion 10 and the liquid filling portion 20 are opposed to the opening portion of the passage hole 12 and the opening portion of the recessed portion 22. In a state where the powdered body 2 is attached, the powder body 2 is passed through the passage hole 12 and mixed with the liquid or gel substance 3 filled in the recess 22 of the liquid filling section 20 to obtain the mixture 4. Then, the mixture 4 is pressed by the protrusion 32 of the pressing part 30 and compressed to produce the solidified body 5.

Specifically, this is performed as shown in FIG.
FIG. 3 illustrates a manufacturing process of the solidified body 5 in a state in which the powder body passage section 10 and the liquid filling section 20 are inserted into the box body 40. A manufacturing method using only the powdery body passage part 10, the liquid filling part 20, and the pressing part 30 without using 40 will be described.
The liquid or gel substance 3 is filled into the recesses 22 and 22 of the liquid filling portion 20. At this time, the scale 22a may be used to store a desired volume of liquid or gel substance 3.
In consideration of the capacity of the powdery body 2 to be filled later, the liquid or gel-like substance 3 leaves a space in the upper portions of the recesses 22 and 22 in the recesses 22 and 22. May be filled.
Moreover, the powdery substance passage part 10 is connected to the liquid filling part 20 so that the openings of the passage holes 12 of the powdery substance passage part 10 and the openings of the recesses 22 and 22 of the liquid filling part 20 communicate with each other. Put it on top. At this time, the insertion plate 14 is inserted into the groove portion 13 of the powdery body passage portion 10. Then, the powder body 2 is passed through each passage hole 12 (upper passage section 12a) of the powder body passage section 10, and the powder body 2 is accumulated on the insertion plate 14 and in the upper passage section 12a. At this time, a desired volume of the powdery body 2 may be accumulated using the scale 12aa.

  Next, the insertion plate 14 is pulled out from the groove 13. Thereby, as shown in FIG.3 (b), the powdery body 2 which accumulated in the upper side passage part 12a falls, and on the liquid or gel-like substance 3 in the dent part 22 of the filling parts 20 of liquids, etc. Accumulate. Next, as shown in FIG. 3 (c), the protruding portion 32 of the pressing portion 30 is pressed and compressed from above the mixture 4 of the powdery body 2 and the liquid or gel-like substance 3. As a result, the water in the liquid or gel-like substance 3 is taken away by the powdery body 2, and the entire mixture 4 is solidified to produce the solidified body 5. The pressing time by the protruding portion 32 of the pressing portion 30 may be about 3 to 20 seconds.

The gel-like substance 3 of the liquid or gel-like substance 3 is a semi-solid substance containing moisture and having elasticity and fluidity, and has a property of solidifying over time, so-called solidifying. A substance in a previous state may be used.
Examples of such a gel-like substance 3 are so-called sols in which particles are dispersed in a liquid, for example, milk, pectin solution, konjac solution, natural fruit juice, soy milk (casein and fat, pectin, konjac mannan, It may be a sol in which dispersoids such as pulp and soybean protein are dispersed in water), and the dispersoid may be fixed so as not to move freely. Examples of this include those produced by adding acid and sugar to a pectin solution, treating the konjac solution with alkali, and adding bittern to soy milk.
In addition, agar produced by freezing and drying mucus of red algae such as Amakusa and Ogonori may be used. In this case, the dried agar is immersed in cold water and boiled to dissolve the carbohydrate chains, cooled, cooled and gelled. Material 3 may be generated.

In addition, it is also possible to use a protein-based substance extracted by applying heat to collagen, which is the main component of connective tissue such as animal skin, bones, and tendons (eg gelatin), and using this in water. It may be dissolved to obtain the gel material 3. For example, when gelatin is dissolved in water to obtain the gel substance 3, the ratio of gelatin to water may be about 0.2 to 3.0 g of water per 1 g of gelatin. Desirably, the mixing ratio of gelatin and water is 1: 1 by volume or weight.
Further, water or the like may be used as the liquid or the liquid in the gel substance 3.

  As the powdery body 2, powdery or granular substances can be used, for example, pharmaceuticals such as ethical drugs and OTC drugs, quasi-drugs, cosmetics, or specific function foods and nutritional function foods, Alternatively, general foods including health foods that are powdered or granulated are used. As the powdery body 2, powdery gelatin may be used.

In the case of using a powdery or granular substance as the powdery substance 2, as the liquid or gelous substance 3, the gelous substance 3 having the property of solidifying with the passage of time as described above is used.
When powdered gelatin is used as the powdery body 2, water or an aqueous solution in which gelatin is dissolved is used as the liquid or gel-like substance 3. The solidified body 5 thus produced becomes a gelatin tablet.
The aqueous solution may be an aqueous solution in which an acid such as acetic acid or citric acid or a base such as sodium bicarbonate is dissolved, or a stock solution of rice vinegar or aqueous sodium bicarbonate may be used. That is, a gelatin tablet produced using these is a tablet comprising gelatin as the powdery body 2 and water or an acidic or basic aqueous solution as the liquid or gel substance 3.
If the acid or base is taken as it is in the liquid or bulk state, there is a risk of damaging the mucous membranes of the oral cavity, esophagus, stomach, etc. Gelatin has an excellent buffering capacity, so acid and base can be mixed with gelatin. By making it into a tablet, the above-mentioned influence of acid and base can be reduced, and it can be taken with peace of mind. In addition, if acid or base is diluted with a large amount of water, the harm to the mucous membrane is reduced, but a large amount of water cannot be taken due to diseases such as heart failure or renal failure, or a large amount of water is consumed before going to bed It may be difficult to take. Such problems can be avoided if they can be taken in the form of gelatin tablets.
The benefits of taking acetic acid include recovery from fatigue, improvement in constipation, prevention of hypertension, etc. for baking soda, recovery from fatigue, improvement in constipation and gastrointestinal tone, etc. for citric acid, recovery from fatigue, anti-aging, There is cancer prevention.
In addition, the volume ratio of the liquid or gel substance 3 and the powdery body 2 filled in the recesses 22 and 22 may be about 1: 1/3 to 1: 3. Preferably it is 1: 1.

In addition, the manufacturing method of the said solidified body 5 at the time of using the box-shaped body 40 in which the powder-like body passage part 10, the liquid filling part 20, and the pressing part 30 are stored is as follows.
The liquid filling portion 20 is pulled out from the box-shaped body 40, and the liquid or gel substance 3 is filled into the recesses 22 and 22.
After the powdery body passage portion 10 is pulled out from the box-like body 40, the openings of the passage holes 12 of the powdery body passage portion 10 and the openings of the recesses 22 and 22 of the liquid filling portion 20 are communicated. The powder passing part 10 is placed on the liquid filling part 20. At this time, the insertion plate 14 is inserted into the groove portion 13 of the powdery body passage portion 10. Then, the powdery body 2 is passed through each passage hole 12 of the powdery body passage portion 10. Thereafter, the same procedure as described above is performed.
According to the manufacturing method of the solidified body 5 according to the present invention, the same effects as described above are obtained.

In addition, the solidified body manufacturing device 1 is not limited to the one having the box 40 as in the above embodiment, and may not have the box 40. The solidified body manufacturing device 1 includes a flat liquid filling portion 20 having a plurality of recesses 22, 22 filled on the powder 2 on the surface, and a plurality of passages through which the liquid or gel substance 3 passes. What is necessary is just to provide the flat powder-like body passage part 10 which provided the holes 12 and 12 and the press part 30, and it is good also as what consists only of these. Alternatively, other members may be added in addition to these.
Further, as shown in FIGS. 3A and 3B, the solidified body 5 may be manufactured in a state where the powder body passing portion 10 and the liquid filling portion 20 are accommodated in the box-shaped body 40. . Specifically, the liquid filling portion 20 is pulled out from the box-shaped body 40, the liquid or gel-like substance 3 is filled in each recess 22, and then the liquid filling section 20 is returned into the box-shaped body 40. In a state where the powder-like body passing portion 10 is housed in the box-like body 40, the powder-like body 2 is passed through each passage hole 12 (upper passage portion 12 a) of the powder-like body passing portion 10, and on the insertion plate 14. And the powdery body 2 is collected in the upper side passage part 12a. At this time, the insertion plate 14 is inserted into the groove portion 13 of the powdery body passage portion 10. Next, the insertion plate 14 is pulled out from the groove 13, the powdery body 2 accumulated in the upper passage portion 12 a is dropped and collected on the liquid or gel substance 3 in the recess 22, and this powdery body 2. The solidified body 5 may be manufactured by pressing the protrusion 4 of the pressing portion 30 from above the mixture 4 of the liquid or gel substance 3.

DESCRIPTION OF SYMBOLS 1 Solidified body manufacturing device 10 Powdery body passage part 11 1st flat plate part 12 Passing hole 12aa Scale 13 Groove part 13a Opening part 14 Insertion plate 20 Liquid filling part 21 Second flat plate part 22 Recessed part 30 Press part 31 Flat part 32 Projection part 40 Box-shaped body 41, 42, 43, 44 Peripheral wall part 41a Second through hole 42a First through hole 44a First holding part 44b Second holding part 2 Powdery body 3 Liquid or gel substance 4 Mixture 5 Solidification Body

Claims (6)

The second flat plate includes a powder passing portion provided with a plurality of passage holes through which the powder passes so as to penetrate in the thickness direction of the first flat plate portion, and a plurality of recesses filled with liquid or gel-like substance. A liquid filling part provided on the surface of the part, and a pressing part projecting a plurality of projecting parts from the flat plate part,
The pressing portion has the powder passing portion and the liquid filling portion facing the opening of the passage hole and the opening of the recess, and the surface of the first flat plate portion and the first flat portion. 2 In a state where the surfaces of the flat plate portions are brought together, the powdery body is obtained by mixing the liquid or gel-like substance filled in the recess portion of the liquid filling portion by passing through the passage hole. A solidified body manufacturing device characterized in that a solidified body is manufactured by pressing and compressing the mixture at its protruding portion. In claim 1,
The powdery body passage portion has an opening on one side end face of the first flat plate portion, and is provided with a groove portion formed inside the first flat plate portion so as to communicate with the plurality of passage holes. A solidified body manufacturing device comprising an insertion plate slidably accommodated in the groove. In claim 2,
A solidified body manufacturing device, wherein a scale is provided on a peripheral wall constituting the passage hole of the first flat plate portion. In any one of Claims 1-3,
A box-shaped body having a peripheral wall so as to provide an internal space;
The peripheral wall portion of the box-like body is provided with a first through hole and a second through hole into which the powder body passage portion and the liquid filling portion are inserted, respectively, and the powder body passage portion and A solidified body manufacturing device, wherein a first holding portion and a second holding portion that slidably hold the liquid filling portion are provided so as to protrude toward the inner space. The second flat plate includes a powder passing portion provided with a plurality of passage holes through which the powder passes so as to penetrate in the thickness direction of the first flat plate portion, and a plurality of recesses filled with liquid or gel-like substance. A method for producing a solidified body using a filling part such as a liquid provided on the surface of the part, and a pressing part projecting a plurality of projecting parts from the flat part,
The surface of the first flat plate portion and the surface of the second flat plate portion of the powder body passing portion and the liquid filling portion are opposed to the opening portion of the passage hole and the opening portion of the recess portion. In a state where the powdered body is attached, the powdery body is passed through the passage hole and mixed into the liquid or gel substance filled in the recess of the liquid filling portion to obtain a mixture. A method for producing a solidified body, wherein the solidified body is produced by pressing and compressing at a protruding portion of the pressing portion.   A tablet comprising gelatin as a powder and water or an acidic or basic aqueous solution.

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