JP3925375B2 - Flakes production equipment crushing equipment - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention supplies molten raw material liquids such as pharmaceuticals, fats and oils, foods and resins onto a horizontally rotating table surface, scrapes and crushes the semi-finished product (solidified body) cooled and solidified on the table surface. The present invention relates to a crushing apparatus for flake manufacturing apparatus to form flakes.
[0002]
[Prior art]
Traditionally, pharmaceuticals, fatty acids, polyethylene glycol, paranitrobenzene, sodium sulfide, sulfur, surfactants, waxes, maleic anhydride, naphthalene, menthol, etc. are easy to package and transport, and easy to handle and re-dissolve. It is done to flake.
A table-type flake production apparatus for performing such flaking is to apply (supply) a molten raw material liquid to the surface (upper surface) of a horizontally rotating table, and to cool and solidify the semi-finished molten raw material liquid with a scraper. It is scraped and crushed into flakes.
[0003]
Therefore, in the table-type flake manufacturing apparatus, the molten raw material liquid is cooled and solidified in the form of a sheet on the surface (upper surface) of the table, and it is often peeled into a sheet form even if scraped with a scraper. In order to do this, a means for crushing this is required. As this conventional crushing means, a cutting blade that rotates on a table is provided and cut into thin pieces (see, for example, Patent Document 1).
[0004]
[Patent Document 1]
Japanese Patent Laid-Open No. 2000-140678
[Problems to be solved by the invention]
When the cutting blade rotating on the table is provided in this way, a strip cut by the cutting blade remains on the table surface, so that means for feeding it out is required. For example, in the apparatus of Patent Document 1, a plurality of rotating blades are shown.
However, in the table-type flake manufacturing apparatus, it is necessary to supply, cool, solidify, scrape, and crush the molten raw material liquid within one rotation of the table. By providing a discharging means with a rotating blade, the distance to cool and solidify the molten raw material liquid supplied to the table upper surface (surface) is reduced by crushing means and discharging means, and the molten raw material liquid is cooled and solidified. In order to set the time distance, the speed at which the table is rotated has to be slowed down, which causes a problem in that the productivity is lowered.
[0006]
In addition, when the cutting blade is rotated on the table to cut it into pieces, or the blade is rotated on the table surface, the cutting blade, blade and table surface are damaged by friction, resulting in a decrease in the service life. There is a problem that the quality deteriorates due to roughening.
[0007]
The present invention has been proposed to solve such a problem, and its purpose is to increase the distance that the molten raw material liquid supplied to the upper surface of the rotating table is cooled and solidified, and to rotate the table. The speed can be increased, production efficiency can be improved, the table can be damaged, and even flake raw material products that solidify into a sheet can be easily manufactured with flakes. -It is in providing the crushing apparatus of the flake manufacturing apparatus which can be wash | cleaned easily.
[0008]
[Means for Solving the Problems]
In order to solve the above-mentioned problem, a crushing device for a flake production apparatus according to the present invention comprises a molten raw material liquid supply means comprising a supply pipe having at least one horizontally rotating table and having a raw material liquid nozzle above the table, Cooling constituted by a supply pipe having a leveling means for equalizing the molten raw material liquid provided to the downstream side of the supply means in the direction of rotation of the table to a predetermined thickness and a nozzle for jetting refrigerant toward the back of the table below the back of the table. Means, the molten raw material liquid supplied from the injection nozzle of the molten raw material liquid supply means on the upper surface of the table is leveled to a predetermined thickness by the leveling means, and the refrigerant is jetted from the jet nozzle of the cooling means to the back surface of the table And crushing the solidified semi-finished product with a scraper and crushing it into flakes.
A cylindrical body with a long hole opening in the longitudinal direction is disposed in the vicinity of the upper part of the scraper existing in the downstream area in the rotation direction of the table, and a guide passage continuing from the scraper is connected to the opening of the long hole of the cylindrical body. The semi-finished product scraped by the scraper is forcibly guided by the guide passage and introduced into the cylindrical body from the opening of the long hole,
In the cylindrical body, a rotating shaft that is positioned substantially at the center of the axis and that is rotated by a drive source is rotatably supported, and the crushing and feeding blade that is inclined to send the semi-finished product toward the outlet toward the rotating shaft. Is provided with crushing means provided with a plurality of radial projections,
The opening of the long hole in the cylindrical body is provided with a crushing plate in which comb blades are arranged along the opening at intervals through which the crushing and feeding blade can pass, and the crushing and feeding blade is It is arranged so that it may pass between the comb blades of the crushing plate when rotating.
As a result, the molten raw material liquid supplied to the upper surface of the table by the supply means is leveled to a predetermined thickness by the leveling means and cooled and solidified by the cooling means, so that the molten raw material liquid is cooled and solidified into a sheet form. However, even if the molten raw material liquid is cooled and solidified into a sheet form on the upper surface of the table and scraped into a sheet form with a scraper, the semi-finished product scraped with the scraper (the melted raw material liquid cooled and solidified) is retained by the guide passage Since it is guided and continuously introduced into the cylindrical body from the opening of the long hole and is crushed by the crushing means in this cylindrical body, even if it is peeled (scraped) continuously into a sheet by a scraper, Even if it is curled or thicker, it can be continuously crushed into flakes. In addition, the scraper and the crushing device can be positioned substantially on the same line, so that a small space is required on the table. Therefore, the upper surface of the table can be widely used, and a relatively long distance can be taken for cooling and solidification of the molten raw material liquid. Further, the rotation speed of the table can be increased and the production efficiency can be improved.
Moreover, the semi-finished product introduced into the cylindrical body can be sent out in the outlet direction of the cylindrical body while being crushed by a rotating crushing and feeding blade.
Moreover, the semi-finished product introduced into the cylindrical body can be effectively crushed and made into flakes by the synergistic effect of the rotating pulverizing and feeding blades and the pulverizing plate.
[0009]
Further, the crushing device of the flake manufacturing apparatus according to the present invention has a chute connected to the outlet of the cylindrical body, and a rotating shaft is pivotally supported in the vicinity of the lower end outlet of the chute so as to cross the chute. A plurality of crushing sledges are radially projected on the rotating shaft, and a crushing plate is provided adjacent to the crushing slab and arranged at intervals at which comb blades can pass through the crushing slag. A crushing means that rotates between the comb blades and the comb blades is provided.
[0010]
As a result, the semi-finished product scraped off from the upper surface of the table by the scraper is subjected to the primary crushing by the crushing means, and the secondary crushing is performed by the crushing means to obtain a good product ( flakes ) . Become.
[0011]
Moreover, the crushing apparatus of the flake manufacturing apparatus of this invention is characterized by the cylindrical body in which the said crushing means was incorporated being detachable with respect to the flake manufacturing apparatus.
Thereby, the crushing device can be removed from the flake production device, and can be removed and cleaned and cleaned.
[0012]
Furthermore, the flake manufacturing apparatus of the present invention is characterized in that the cylindrical body in which the crushing means is built is movably attached to a guide member of a machine frame of the flake manufacturing apparatus and can be pulled out. And
As a result, when changing the product type, it can be pulled out and easily cleaned and washed.
[0013]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. 1 and 2 are a plan view and a partially broken front view showing an example of a flake production apparatus.
This flake manufacturing apparatus includes a horizontally rotating table 1, a supply means 5 for supplying a molten raw material liquid to the upper surface of the table 1, and a smoothing means 9 for equalizing the molten raw material liquid supplied to the upper surface of the table 1 to a predetermined thickness. A cooling means 6 disposed below the back surface of the table 1 for cooling the molten raw material liquid supplied to the upper surface by cooling the table 1 from the rear surface, and a half of the molten raw material liquid cooled and solidified on the upper surface of the table 1 The scraper 7 for scraping the product, the crushing device 8 for crushing the semi-finished product scraped by the scraper 7, and the crushing means 11 connected by the crushing device 8 and the chute 10 are roughly configured.
[0014]
The table 1 has a disk shape having an edge 1a around it, and is attached to the rotary shaft 2 via an attachment member 2a so as to rotate in a substantially horizontal plane. In this example, the table 1 is provided in three stages. The upper and lower ends of the rotating shaft 2 are rotatably supported by the machine frame 17 via bearings, and are rotated by the motor 4 via the gear 3.
[0015]
The melted raw material liquid supply means 5 includes a supply pipe 5b connected to a raw material liquid tank (not shown) above the table 1, and the supply pipe 5b is provided with a raw material liquid nozzle 5a. The raw material liquid is poured from the nozzle 5a onto the upper surface of the table 1. The molten raw material liquid is preferably supplied in a predetermined amount determined by the raw material liquid to be processed through a flow meter or the like. Since the molten raw material liquid is supplied to the upper surface of the table 1 within a radius from the center of the table 1, the length of the supply pipe 5b is sufficient, and the nozzle 5a is provided only in that range.
[0016]
The leveling means 9 equalizes the molten raw material liquid supplied to the upper surface of the table 1 by the supply means 5 to a predetermined thickness, and the level of the supply means 5 with respect to the rotation direction of the table 1 (arrow A direction). It is provided immediately downstream. In this example, as shown in FIG. 7, the leveling means 9 is provided such that a blade 9a can be adjusted up and down above the table 1, and the distance from the upper surface of the table 1 can be adjusted by adjusting the blade 9a up and down. Can be adjusted. As a result, the molten raw material liquid supplied to the upper surface of the table 1 is leveled to a predetermined thickness when the table 1 rotates and passes through the blade 9a portion.
[0017]
The cooling means 6 is disposed below the back surface of the table 1, cools the table 1 from the back surface, and cools the molten raw material liquid supplied to the top surface of the table 1. In this example, as shown in FIG. A cooling water supply pipe 6b is piped under the back surface of the table 1, and a jet nozzle 6a is provided in the cooling water supply pipe 6b toward the back surface of the table 1 (see FIGS. 2 and 7). Thereby, the cooling water is jetted from the jet nozzle 6a toward the back surface of the table 1, the table 1 is cooled from the back surface, and the molten raw material liquid supplied to the top surface of the table 1 can be cooled.
In addition, although it is set as cooling water here, this may be another refrigerant.
[0018]
The scraper 7 scrapes off the semi-finished product obtained by cooling and solidifying the molten raw material liquid on the upper surface of the table 1, and the rotation direction of the table 1 (arrow A direction) when the molten raw material liquid supply means 5 is used as a reference position. Is provided at the most downstream position (see FIG. 1). As shown in FIG. 4, the scraper 7 is attached to a mounting base 7a, and the handle 7b can be used to adjust the contact angle to the table 1 and the contact pressure.
[0019]
3 is a partially broken front view of a crushing apparatus showing an embodiment of the present invention, FIG. 4 is a sectional view taken along the line AA in FIG. 3, and FIG. 5 is a partially enlarged perspective view of the crushing apparatus showing an embodiment of the present invention. FIG. 6 and FIG. 6 are partially enlarged perspective views of the crushing and feeding blades.
The crushing device 8 is provided above the scraper 7 and crushes the semi-finished product (the one obtained by cooling and solidifying the molten raw material liquid) scraped by the scraper 7 into a product (flakes). The device 8 is configured by a crushing means built in a cylindrical body 8a.
[0020]
As shown in the figure, the crushing device 8 has a cylindrical body 8a installed in parallel with the scraper 7 above the scraper 7, and is supported in the longitudinal direction as a crushing means in the cylindrical body 8a. The shaft 8c is provided with a crushing and feeding blade 8b projecting radially, and this crushing and feeding blade 8b is rotated by rotating the shaft 8c by a motor 13 connected to the shaft 8c. The
The crushing / feeding blade 8b crushes the semi-finished product carried in the cylindrical body 8a and sends it to the outlet side of the cylindrical body 8a. Therefore, the crushing / feeding blade 8b is formed of a plate as shown in FIG. 6, and is provided so as to be inclined in one direction. The outlet (not shown) of the cylindrical body 8a is connected to the chute 10 (see FIG. 3).
[0021]
A long hole 8d (see FIG. 5) is opened in the cylindrical body 8a along the longitudinal direction, and the opening of the long hole 8d is provided on the outside of the scraper 7 so as to bend and extend along the same. The guide passage 16 formed by the guide plate 14a and the inner guide plate 14b is connected, and the semi-finished product (one obtained by cooling and solidifying the molten raw material liquid) scraped by the scraper 7 is forcibly guided by the guide passage 16. It is introduced into the cylindrical body 8a from the opening of the long hole 8d (see FIGS. 5 and 7). Further, an opening of the long hole 8d of the cylindrical body 8a is provided with a comb blade-shaped crushing plate 12 extending from the inner guide plate 14b toward the inside of the cylindrical body 8a (see FIG. 5 and FIG. 6), the crushing / feeding blade 8b passes between the comb blades of the crushing plate 12 when rotating. Therefore, the interval between the comb blades of the crushing plate 12 is an interval through which the crushing and feeding blades 8b can pass.
[0022]
Further, the crushing device 8 is provided so that the cylindrical body 8a is movable along a guide member 15 provided on the machine casing 17 as shown in FIG. However, when changing the product type, it can be pulled out by releasing the fixing means so that it can be cleaned and washed.
[0023]
Therefore, the crushing apparatus 8 according to the embodiment of the present invention operates as follows. FIG. 7 is an operation explanatory view showing the embodiment of the present invention, and the table shows the rotation distance linearly developed with time.
First, the semi-finished product 20 in which the molten raw material liquid is solidified and has a thin sheet shape reaches the scraper 7 and is scraped off by the scraper 7. At this time, since the guide passage 16 is connected to the opening of the long hole 8d of the cylindrical body 8a which is the crushing device 8 continuously from the scraper 7, the sheet-like semi-finished product 20 scraped off by the scraper 7 is used. Are continuously guided by the guide passage 16 and introduced into the cylindrical body 8a from the opening of the long hole 8d.
[0024]
The crushing / feeding blade 8b rotates in the cylindrical body 8a, and the crushing / feeding blade 8b passes between the comb blade and the comb blade of the crushing plate 12 when rotating. Therefore, the semi-finished product 20 introduced into the cylindrical body 8a is rotated when the crushing / feeding blade 8b and the crushing / feeding blade 8b pass between the comb blades of the crushing plate 12 and the comb blades. At the same time, the crushed product is sent out in the cylindrical body 8a in the outlet direction because the crushed and feed blade 8b is a plate-like body and is inclined in one direction. .
[0025]
As described above, according to the embodiment of the present invention, the crushing and feeding blades 8b as the crushing means pass between the comb blades of the crushing plate 12 and the comb blades in the cylindrical body 8a which is the crushing device 8. A long hole 8d is opened along the longitudinal direction in the cylindrical body 8a, and a guide passage that curves and extends from the scraper 7 is connected to the opening of the long hole 8d. The semi-finished product scraped by the scraper 7 is forcibly guided by the guide passage and continuously introduced into the cylindrical body 8a through the opening of the long hole 8d (see FIG. 7). Therefore, even if the molten raw material liquid is cooled and solidified into a thin sheet and is continuously peeled (scraped) into a sheet by the scraper 7, or even if it is curled, it is a thicker layer. Can also be crushed into flakes.
[0026]
In the illustrated example, the outlet of the cylindrical body 8a is connected to the chute 10, and the crushing means 11 is provided in the vicinity of the lower end outlet of the chute 10, so that it is sent to the outlet of the cylindrical body 8a. The finished product is discharged to the chute 10 and guided to the crushing means 11 through the chute 10. In this example, since the table 1 is a three-stage system in which the table 1 is provided in three stages, all products at each stage are collected in the chute 10 and sent to the crushing means 11.
[0027]
In the crushing means 11, the crushing basket 11 a rotates, and when the crushing claw 11 a rotates, it passes between the comb blades of the crushing plate 18. The crushed tub 11a and the crushed plate 18 of the crushed tub 11a are further coarsely pulverized by passing between the comb blade and the comb blade to obtain a product (flakes).
[0028]
8 is a partially broken front view of the crushing means portion, and FIG. 9 is a cross-sectional view taken along line B-B in FIG.
The crushing means 11 is configured such that a rotating shaft 11b is rotatably supported in the vicinity of the lower end outlet of the chute 10 so that the rotating shaft 11b can rotate, and the crushing rods 11a project radially from the rotating shaft 11b. Yes. The crusher 11a is rotated by rotating the rotary shaft 11b with a motor 19 connected to the rotary shaft 11b. Further, a comb blade-shaped crushing plate 18 is provided adjacent to the crushing trough 11a in parallel with the rotating shaft 11b, and when the crushing claw 11a rotates, a space between the comb blade and the comb blade of the crushing plate 18 is provided. Is supposed to pass through.
[0029]
Incidentally, the operation of the flake manufacturing apparatus configured as described above will be described as follows.
First, the molten raw material liquid is supplied onto the upper surface of the table 1 rotated by the motor 4 from the raw material liquid nozzle 5a of the supply pipe 5b, which is the supply means 5 of the molten raw material liquid. The supplied molten raw material liquid on the upper surface of the table 1 passes through the leveling means 9 by the rotation of the table 1, and at this time, it is leveled to a predetermined thickness by the blade 9a of the leveling means 9.
[0030]
Since the table 1 is cooled by cooling water being jetted from the jet nozzle 6a of the cooling water supply pipe 6b, which is the cooling means 6 installed below the back surface, toward the back surface of the table 1, the leveling means 9 The molten raw material liquid that has been smoothed to a predetermined thickness is cooled and solidified (solidified) before reaching the position of the scraper 7. Here, the rotational speed of the table 1 is controlled so as to have a time interval for cooling and solidifying until the molten raw material liquid reaches the position of the scraper 7. Since the time for cooling and solidification differs depending on the molten raw material liquid, the rotation speed is optimally controlled for each molten raw material liquid to be processed.
[0031]
Next, the semi-finished product in which the molten raw material liquid is solidified and has a thin sheet shape reaches the scraper 7 and is scraped off by the scraper 7. At this time, since the guide passage 16 is connected to the opening of the long hole 8d of the cylindrical body 8a which is the crushing device 8 continuously from the scraper 7, the sheet-like semi-finished product 20 scraped off by the scraper 7 is used. Are continuously guided by the guide passage 16 and introduced into the cylindrical body 8a from the opening of the long hole 8d.
[0032]
The crushing / feeding blade 8b rotates in the cylindrical body 8a, and the crushing / feeding blade 8b passes between the comb blade and the comb blade of the crushing plate 12 when rotating. Therefore, the semi-finished product 20 introduced into the cylindrical body 8a is rotated when the crushing / feeding blade 8b and the crushing / feeding blade 8b pass between the comb blades of the crushing plate 12 and the comb blades. At the same time, the crushed product is sent out in the cylindrical body 8a in the outlet direction because the crushed and feed blade 8b is a plate-like body and is inclined in one direction. .
[0033]
Since the outlet of the cylindrical body 8a is connected to the chute 10 and the crushing means 11 is provided in the vicinity of the lower end outlet of the chute 10, the product sent to the outlet of the cylindrical body 8a is attached to the chute 10. It is discharged and guided to the crushing means 11 through the chute 10. In this example, since the table 1 is a three-stage system in which the table 1 is provided in three stages, all products at each stage are collected in the chute 10 and sent to the crushing means 11.
[0034]
In the crushing means 11, the crushing basket 11 a rotates, and when the crushing claw 11 a rotates, it passes between the comb blades of the crushing plate 18. The crushed tub 11a and the crushed plate 18 of the crushed tub 11a are further coarsely pulverized by passing between the comb blade and the comb blade to obtain a product (flakes).
[0035]
The above embodiment does not limit the present invention, and various modifications are allowed without departing from the spirit of the present invention.
For example, in the above-described embodiment, the crushing / feeding blade rotating as the crushing means built in the cylindrical body is shown. However, this is an example, and other crushing means that can be adopted may be used. . For example, a rotating screw can be exemplified.
In the above embodiment, the cylindrical body can be moved, and when changing the product type, the cylindrical body can be pulled out for easy cleaning and washing. However, this makes the cylindrical body detachable from the flake manufacturing apparatus. It may be removed and easily performed at the time of cleaning. Conventionally known means can be adopted for the detachable configuration.
[0036]
【The invention's effect】
As explained in detail above, according to the crushing apparatus of the flake manufacturing apparatus of the present invention, the following effects can be obtained.
(1) The cylindrical body containing the crushing means has a long hole in the longitudinal direction, a guide passage continuing from the scraper is connected to the opening of the long hole, and the semi-finished product scraped with the scraper is a guide passage. Because it is forcibly guided and introduced into the cylindrical body from the opening of the long hole, even if it is continuously peeled (scraped) into a sheet by a scraper, it also becomes curled. Even a thicker layer can be continuously introduced into a cylindrical body and crushed by a crushing means to form flakes.
Further, if a crushing means is provided in the vicinity of the lower end outlet of the chute, it can be further crushed to obtain a good product (flakes).
[0037]
(2) Further, since the scraper and the crushing device can be positioned substantially on the same line, there is little space to be squeezed on the table, and a wide use space can be formed on the table upper surface. As a result, the cooling and solidification distance on the upper surface of the table can be increased, and the production efficiency can be improved.
[0038]
(3) When the crushing means built in the cylindrical body is a rotating crushing and feeding blade, the semi-finished product introduced into the cylindrical body can be sent out in the direction of the outlet of the cylindrical body while being crushed. Can be automatically crushed and carried out.
[0039]
(4) If a crushing and feeding blade and a crushing plate that rotate in the cylindrical body are provided, even a sheet-like semi-finished product introduced into the cylindrical body by a synergistic effect is surely crushed and flaked. be able to.
[0040]
(5) Also, if the crushing means is a rotating screw, it can be crushed by the screw and sent out in the outlet direction of the cylindrical body, so that the semi-finished product continuously introduced into the cylindrical body is automatically Can be crushed and sent out.
[0041]
(6) Moreover, since the cylindrical body in which the crushing means is incorporated is detachable from the flake manufacturing apparatus, it can be removed and cleaned and washed when changing the product type.
Furthermore, since the cylindrical body with built-in crushing means is movably attached to the guide member of the machine frame of the flake manufacturing equipment and can be pulled out, it can be pulled out for easy cleaning and washing when switching product types. can do.
[0042]
(7) Since there is no cutting blade or rotating blade that rotates in contact with the table surface as in the prior art, the table surface is not damaged, and it can be used for a long time and the table surface is kept smooth. Can produce flakes of good quality.
[Brief description of the drawings]
FIG. 1 is a plan view showing an example of a flake production apparatus.
FIG. 2 is a partially broken front view showing an example of a flake production apparatus.
FIG. 3 is a partially broken front view of the crushing apparatus showing the embodiment of the present invention.
4 is a cross-sectional view taken along the line AA in FIG. 3;
FIG. 5 is a partially enlarged perspective view of a crushing apparatus showing an embodiment of the present invention.
FIG. 6 is a partially enlarged perspective view of a crushing and feeding blade.
FIG. 7 is an operation explanatory diagram of the crushing apparatus according to the embodiment of the present invention.
FIG. 8 is a partially broken front view of a crushing means portion.
FIG. 9 is a sectional view taken along line B-B in FIG.
[Explanation of symbols]
1 Table 7 Scraper 8 Crushing device 8a Tubular body 8b Crushing and feeding blade 8d Long hole
10 Shoot
11 Crushing means 12 Crushing plate 16 Guide passage

Claims (4)

A molten raw material liquid supply means comprising a supply pipe having at least one horizontally rotating table and having a raw material liquid nozzle above the table , and a molten raw material liquid provided immediately downstream in the table rotation direction of the supply means And a cooling means comprising a supply pipe having a nozzle for jetting refrigerant toward the back surface of the table below the back surface of the table, and is supplied to the upper surface of the table from the jet nozzle of the molten raw material liquid supply means. The melted raw material liquid is leveled to a predetermined thickness by the leveling means, and the refrigerant is jetted from the nozzle of the cooling means to the back of the table to be cooled and solidified. It is a crushing device for a flake manufacturing device to be a flake,
A cylindrical body with a long hole opening in the longitudinal direction is arranged in the vicinity of the upper part of the scraper existing in the downstream area in the rotation direction of the table, and a guide passage continuing from the scraper is connected to the opening of the long hole of the cylindrical body. The semi-finished product scraped by the scraper is forcibly guided by the guide passage and introduced into the cylindrical body from the opening of the long hole,
In the cylindrical body, a rotating shaft that is positioned substantially at the center of the axis and that is rotated by a driving source is rotatably supported, and the crushing and feeding blade that is inclined so as to send the semi-finished product toward the outlet toward the rotating shaft. Is provided with crushing means provided with a plurality of radial projections,
The opening of the long hole in the cylindrical body is provided with a crushing plate in which comb blades are arranged along the opening at intervals through which the crushing and feeding blade can pass, and the crushing and feeding blade is A crushing device for a flake producing apparatus, wherein the crushing device is arranged so as to pass between the comb blades of the crushing plate when rotating . A chute is connected to the outlet of the cylindrical body, and a rotating shaft is pivotally supported in a manner that crosses the chute in the vicinity of the lower end outlet of the chute, and a plurality of crushing rods project radially on the rotating shaft. A crushing plate is provided adjacent to the crushing claw so that the comb blades are arranged at intervals that allow the crushing claw to pass through. The crushing device for flakes according to claim 1, further comprising a crushing means.   The crushing device for a flake manufacturing apparatus according to claim 1 or 2, wherein the cylindrical body in which the crushing means is built is detachable from the flake manufacturing apparatus.   The flake according to claim 1 or 2, wherein the cylindrical body in which the crushing means is built is movably attached to a guide member of a machine frame of the flake manufacturing apparatus and can be pulled out. Production equipment crushing equipment.

Images