KR101218909B1 - a semisulcospira libertina sheller - Google Patents

Abstract

The present invention relates to an apparatus for shelling multiple sludges, and more particularly, a supply unit for sequentially feeding the multiple sludges to be introduced; After cutting the lower end of the chopped snail while sequentially moving the chopped snail from the supply part, the sludge slicing machine consists of a shelling part that inhales and stores the inner kernel protruding to the upper part of the shell by injecting a high pressure air into the lower part of the slicing machine. By inserting the sludge of the sludge, the shelling and shelling of the shell are carried out automatically and precisely in a short time, without the need for a separate manpower and a large amount of sludge scraping work can be carried out in a short time. Save time and money spent on shelling.

Description

Scallop Shell Sheller {a semisulcospira libertina sheller}

The present invention relates to a device for shelling multiple sludges, and more particularly, to simultaneously cut the bottom of a large number of multiple sludges, and to inhale and store internal kernels projecting upward by injecting high-pressure air into the lower sludges. The present invention relates to a slug stripping machine, in which a sludge stripping machine for storing kernels by shelling off a large number of sludge shells, automatically cuts off a large amount of sludges in a short time, thereby reducing the time and cost of the sludge stripping operation.

In general, marshmallows are mollusks with scallops that have small kernels in hard shells, and they are commonly collected in valleys and river ponds. It can be cooked and used in Korea in large quantities.

By the way, the sludge group has a conical shape that expands toward the upper part and has a shell having a spiral shape on the outer circumferential surface, and extracts the inner kernel through the open space to the upper part of the shell, In order to get rid of kernels, people had to work by inserting pointed objects such as pins into the open space of the shells to take out the shells and shell the shells. It was not possible to work more than a certain amount, and the slitting machine had a small size and the shelling method was complicated.

Therefore, the present invention has been made in order to solve the above problems, by constructing a slug stripping machine to collect the kernels by automatically shelling a large number of sludge shells in a short time, while the work time and work cost of facilitating To reduce the cost.

The present invention for solving the above problems is the supply unit for sequentially supplying the ordered plunger; After cutting the lower end of the chopped snail while sequentially moving the chopped snail is supplied from the supply portion, the sludge slicing machine consisting of a shell portion for inhaling and storing the inner kernel protruding to the upper shell by injecting a high-pressure air to the lower snail.

Through this, if you put a large amount of sludge in the present inventors slug slinging, shelling and storing the kernel while performing the shelling operation of the sludge automatically in a short time, there is no need for a separate work manpower, a large number of slug slitting work It can be steadily within a short time, it has the effect of reducing the time and cost required for the shelling operation of the sludge.

1 is a perspective view of a multiple slot shell machine according to an embodiment of the present invention.
Figure 2 is a perspective view of the structure of the multiple slug shell machine in accordance with an embodiment of the present invention.
Figure 3 is a side cross-sectional view of the multiple slug shell machine according to an embodiment of the present invention.
Figure 4 is a front cross-sectional view of the multiple slot shell machine according to an embodiment of the present invention.
5 is an assembled perspective view of the supply unit according to the embodiment of the present invention.
6 is a sectional view of a supply unit according to an embodiment of the present invention;
Figure 7 is an assembled perspective view of the supply portion and the shell portion in accordance with an embodiment of the present invention.
8 is a plan view of the shell portion in accordance with an embodiment of the present invention.
9 is a perspective view of the upper shell portion in accordance with an embodiment of the present invention.
Figure 10 is a bottom perspective view of the shell portion in accordance with an embodiment of the present invention.
11 is a cross-sectional view of the shell portion in accordance with an embodiment of the present invention.
FIG. 12 is a sectional view taken along line AA ′ of FIG. 11;

The present invention relates to an apparatus for shelling multiple sludges, and more particularly, a supply unit for sequentially feeding the multiple sludges to be introduced; After cutting the lower end of the chopped snail while sequentially moving the chopped snail from the supply part, the sludge slicing machine consists of a shelling part that inhales and stores the inner kernel protruding to the upper part of the shell by injecting a high pressure air into the lower part of the slicing machine. By inserting the sludge of the sludge, the shelling and shelling of the shell are carried out automatically and precisely in a short time, without the need for a separate manpower and a large amount of sludge scraping work can be carried out in a short time. Save time and money spent on shelling.

With reference to the embodiment shown in each drawing the multiple slug shell machine which is this invention which has such a characteristic is demonstrated in detail.

The present invention, the slug strip shell machine 10 and the supply unit 100 for aligning the supplied sludge group; It is composed of a shell portion 200 for degassing the plunger group supplied through the supply unit 100, and these components will be described in more detail, first, as shown in Figs. The supplying hopper 110 to be supplied, the sorter 120 for aligning the plural sludges supplied from the supply hopper 110 to a predetermined position, and the distributor 130 for distributing and supplying the aligned slaws to the shell portion 200, in turn. Have a connected configuration.

First, as shown in FIGS. 1 to 6, the feed hopper 110 positioned at the uppermost end of the sludge stripping machine 10 is in the form of a funnel that is perforated so that the upper end thereof is wider and narrower toward the lower side thereof. It is formed to one end of the feed hopper 110 to the size that can pass through, while tilting so that the screw cover 111, which is open at the other end of the lower opening, is lowered toward the open side while blocking the inside of the feed hopper 110. It is formed integrally with, the screw cover 111, the lower portion of the screw cover 111 to the lower opening of the feed hopper 110 at the same time while crossing the spiral screw is formed along the outside of the transfer screw ( 112).

The conveying screw 112 formed as described above moves along the spiral blade which is inserted into one of the screw blades and rotates between the spiral blades, and spirals toward the lower opening of the supply hopper 110 in the open portion of the screw cover 111. As the feed screw 112 rotates so that the blade moves, the plunger introduced to the top of the feed hopper 110 moves to the open portion along the inclination on the screw cover 111, and through the open portion, the lower feed screw ( The sludge falling to 112 is sequentially lowered through the opening while being conveyed toward the lower opening one by one by the rotating feed screw 112.

And the lower side of the feed hopper 110 is provided with an aligner, as shown in Figures 2 to 6 is a conical aligner 120 having a wide top and narrowly penetrated through the bottom of the conical shape Slightly projecting in a spiral shape, by connecting the drive shaft of the aligner rotary motor 121 and the outer surface of the aligner 120 with the connecting belt 122, the aligner rotary motor ( As the 121 operates, the driving force is transmitted to the aligner 120 by the connecting belt 121 so that the aligner 120 rotates in one direction.

The sorter 120 formed as described above is positioned at the lower side of the lower opening of the supply hopper 110, and the plunger falling one by one from the supply hopper 110 is introduced into the inner side of the sorter 120. The threshing machine rotates along the spiral protrusion of the inner surface of the sorter 120 which is rotated by centrifugal force, and moves downward, while the light open top of the threshing machine moves to the top and the heavy bottom where the kernel is located is placed upright. Aligned and exits below the aligner 120.

Next, the lower part of the aligner 120 has a dispenser 130 for dispensing multiple sludge into the shell portion 200, as shown in Figures 2 to 7, the inside is empty and the top is open The tubular distributor 130 is divided into three parts, the lower part of which is equal to the number of the rotational wheels 210 of the shell part 200 of the present embodiment, and the divided part is a tubular distribution pipe 121. Is connected to), so that the plunger introduced into the distributor 130 is stochasticly injected into the lower distribution pipe 121.

The distribution pipe 121 of the distributor 130 is connected to the rotary wheel 210 of the shell portion 200, which will be described later, to supply the sludge moving through the distribution pipe 121 to the rotary wheel 210, When three rotary wheels 210 are provided as in the present embodiment, the distribution pipe 121 is also divided into three, and each distribution pipe 121 is a rotation that is the starting portion of the plunger of each of the rotary wheels 210. The rotary wheel 210 and the fixture 220 is to be connected to the first meeting position.

Next, the shell portion 200 for shelling the sludge is supplied through the supply unit 100 is fixed to the sludge around the rotating wheel 210 seating the sludge largely, as shown in Figure 5 to 11 It is composed of a fixed body 220, a cutting body 230 for cutting the lower slashing, and an injection hose 240 for injecting high pressure air to the lower slashing, and a suction hose 250 for sucking and storing the kernels.

As shown in FIGS. 7 to 11, the rotary wheel 210 continuously forms an insertion tube 211 in the form of a tube into which a rounded slot is inserted along the outer circumference thereof, as shown in FIGS. 7 to 11. Side 211 forms an opening groove 212 grooved so that the fixture 220 is inserted later, a plurality of rotating wheels 210 as described above are formed in the embodiment of the present invention a total of three rotating wheels 210, which are centered on the circumference thereof, so that the fixture 220 and the cutting body 230 can be shared and used.

9 to 11, the rotation wheel 210 is arranged in such a manner that the cylindrical rotating shaft 213 is connected downward to the center of each of the rotary wheels 210, and the rotary wheel rotary motor 214 provided at the bottom thereof. Drive shaft and lower part of each rotary shaft 213 are connected together by the connecting belt 215, when the rotary wheel rotary motor 214 is operated, the driving force is transmitted to the rotating shaft 213 through the connecting belt 215, this rotation Each of the rotating wheels 210 connected along the rotating shaft 213 rotates together in the same direction, and the rotating wheel rotating motor 214 stops for about 1 second after each of the rotating wheels 210 rotates slightly and then again. Rotate and stop to operate repeatedly.

At this time, as shown in Figure 12, the insertion pipe 211 arranged on the outer circumferential surface of each of the rotary wheels 210 is formed so as to protrude obliquely at an angle of about 45 ° at regular intervals, one by two or three every minute. When the plunger falling through the pipe 131 is inserted into the rotating insertion pipe 211, it is alternately introduced into an arbitrary point, not the correct position, so that a slash is caught between the distribution pipe 131 and the insertion pipe 211 and malfunctions and machines Since it may cause breakage, even if the plunger drops to any point, the projecting portion obliquely at regular intervals guides the plunger to accurately guide the inside of the insertion pipe 211, so that the plunger is introduced correctly.

As shown in FIGS. 7 to 9, each of the fixed wheels 220 of rubber or silicon material having high elastic force and frictional force is fixed and provided in a circular shape so as to overlap a predetermined area at the center between the rotating wheels 210. By having a predetermined length overlapping the outer surface of the insertion tube 211 of the rotary wheel 210, the fixed fixture 220 of the portion overlapping with the rotating rotary wheel 210 is the insertion opening 212 side opening groove 212 It is narrowly inserted into the insertion tube 211 through), so that the multiple slots inserted into the insertion tube 211 can be fixed while being pressed by the side by the fixing body 220 is inserted through the opening groove 212.

In addition, as shown in Figures 8 to 12, the lower portion of the fixture 220 is provided with a circular saw blade-shaped cutting body 230, the cutting body 230 is one side of each rotating wheel 210 is also arranged It is located close to the bottom of the insertion tube 211 in the size overlapping with the insertion tube 211 of the cutting body 230 is connected to the bottom of the cylindrical rotating shaft 231 is connected to the bottom, the cutting body rotation provided at the bottom The drive shaft of the motor 232 and the lower portion of the rotating shaft 231 is connected to the connecting belt 233, so that when the cutting body rotating motor 232 is operated, the driving force is transmitted to the rotating shaft 231 through the connecting belt 233, The cutting body 230 connected along the rotating shaft 231 rotates below the insertion tube 211 of each rotating wheel 210, and the cutting body 230 rotates in the opposite direction to the rotating wheel 210. Do it.

One side of the insertion pipe 211 of the rotary wheel 210 formed as described above is provided with a spray hose 240 and a suction hose 250 to inhale the shell by sucking the fine grain kernel to the lower and upper, Figures 9 to 12 The injection hose 240 is connected to the compressor (not shown) to the lower portion of the insertion tube 211 at the position contacting the fixing body 220 after passing through the cutting body 230 while rotating as shown in FIG. ) Is provided toward the upper portion, the upper portion of the insertion pipe 211 is provided with a suction hose 250 for suction at a high pressure toward the lower portion, the lower injection hose ( The high-pressure air sprayed by the 240 blows up the kernel inside the shell to the upper portion and at the same time, the suction hose 250 in the upper portion sucks the kernel up and stores it in a separate container, not shown.

Fixing body 220 and the cutting body 230 is provided on the rotating wheel 210 to rotate as described above, as shown in Figure 8 rotates the rotating wheel 210 is first contacted with the fixed body 220 In the state is moved to the upper cutting body 230, the plunger in the insertion tube 211 is fixed to the fixing body 220 so that the cutting operation is made by the cutting body 230, out of the cutting body 230 After the demolition work is continued by the spray hose 240 and the suction hose 250 after being in contact with the fixture 220, the fixture 220 is rotated so as to fall out of the fixture 220 so that the shell falls off. It is preferably formed to be in contact with both sides of the rotary wheel 210 longer than 230.

And the rotary wheel 210 is a plate-shaped protective steel plate 260 to protect the rotary wheel 210 and the fixed body 220 and the cutting body 230 from foreign matters, etc. as shown in Figures 2 to 12 ) Is provided at the upper and lower portions thereof, and the protective steel sheet 260 has a distribution pipe 131, each of the rotating shafts 213, 231, the spray hose 240, and the suction hose 250 to be in close contact with each other. In particular, as shown in FIGS. 7 to 10, the protective steel plate 260 provided under the rotary wheel 210 is moved out of the fixing body 220 to the next of the injection hose 240. The lower portion penetrates to form an open groove 261, so that after peeling off, the shell falls through the open groove 261 to the lower portion.

Also, as illustrated in FIGS. 2 to 5 or 7 to 11, the upper, lower, and side surfaces of the rotating wheel rotating motor 214, the cutting body rotating motor 232, and the connecting belts 215 and 233 are wrapped. By forming the case-shaped partition wall 270 as the lower portion of the protective steel sheet 260, the shells are protected from falling shells, so that the shells are the rotary wheel rotary motor 214, the cutting body rotary motor 232, or each connecting belt 215 ( 233) to prevent malfunctions.

In addition, as shown in FIGS. 2 to 3, the upper surface of the partition wall 270 has an inclination so as to be inclined from one side to the other side, and the lower surface of the partition wall 270 has an open upper surface at the bottom thereof. By having a, the plunger shell peeled to the upper portion of the partition wall 270 can be moved downward along the upper surface having a slope and collected into the collection barrel 280.

As described above, the supply unit 100 for receiving and aligning and dispensing the plunger group and the shell unit 200 for inhaling and storing the kernels by removing the supplied plural group are installed into the case 11, as illustrated in FIGS. 1 to 2. One of the present invention is to configure the slug strip shell 10, by looking at the process of shelling the slug using the slug strip shell 10 of the present invention, it will be described the operation method and features of the present invention.

First, in order to shell the shell of the marshmallow, boil the sludge for a certain time so that the kernel has a certain strength. When the boiled scallop is injected in a large amount into the feed hopper 110 of the sludge scraping machine 10, FIG. As shown in the drawing, a plurality of sludges moving downward along the screw cover 111 having a slope are fed into the feed screw 112 one by one, and the feed hopper 110 sequentially rotates along the rotating feed screw 112. Is moved into the lower opening of the feeder into the aligner 120.

When the plunger is introduced into the aligner 120, the plunger also rotates along the spiral protrusion of the inner surface of the aligner 120 continuously rotating in one direction, and moves downward, and the pointed bottom faces downward by the centrifugal force. The sludge falling in the aligned state with the open top facing upwards moves out of the bottom of the sorter 120 and into the dispenser 130, and into the splitter dispenser 130 as shown in FIG. 6 or 11. The introduced sludge is stochastically moved into one distribution pipe 121 and is moved into and inserted into the empty insertion pipe 211 of the rotating wheel 210.

In this manner, the slot machine inserted into the insertion tube 211 is rotated by the rotating wheel rotating motor 214 in a state in which the lower end thereof is slightly projected to the lower portion of the insertion tube 211 and fixed by the fixing member 220 inserted into the opening groove 212. By rotating the operation of about 1 second, the method of adjusting the spacing of the plunger is introduced through the feed screw 112 and the probability of plunging the plunger to the plurality of rotating wheels 210 by the distributor 130. Even if the rotating wheel 210 stops for a while, the malfunction that is continuously introduced into the same insertion tube 211 does not occur, and the insertion tube 211 protruding obliquely at an angle of about 45 ° at regular intervals The inside of the guiding machine is accurately and reliably guided by the inside.

The sludge group dispensed by the operation of the supply unit 100 and introduced into the rotary wheel 210 performs the demolition work by the operation of the shell part 200, as shown in FIGS. 11 to 12. Rotating toward the cutting body 230 along the fixing body 220, the lower end of the plunger sloping protruding into the lower portion of the insertion tube 211 is cut by the cutting body 230 that rotates in the opposite direction to the rotary wheel 210, The slits have a state in which the lower part is cut and penetrated, and the cut bark passes through the open groove 261 of the protective steel plate 260 and falls along the partition wall 270 to enter the collection box 280.

The chopped chopped lower portion while passing through the cutting body 230 as described above is moved to the position provided with the injection hose 240 and the suction hose 250, the insertion tube 211 is the injection hose 240 and the suction hose If the position between the 250 and the rotating wheel 210 is stopped for about 1 second, at this time, the high pressure air injected from the injection hose 240 is blown into the chopped shell through the cut lower portion of the chopped flakes in the shell Is moved to the open upper side of the shell, and at the same time the suction hose 250 suctioned at a high pressure from the top of the shell sucks the kernels raised to the top of the shell and stores it in a separate, not shown reservoir.

As described above, even if the high pressure air is injected and sucked by the injection hose 240 and the suction hose 250, the plunger in the insertion tube 211 is inserted through the opening groove 212 as described above. The shell is firmly fixed without being flown while being in contact with the fixture 220, and the shell which has been sucked and stored through the spraying and suctioning and shelled out of the shell 220 is moved away from the fixture 220 while the rotating wheel 210 is moved again. Falling below the insertion tube 211, the shell also passes through the opening groove 261 of the protective steel plate 260, falls along the partition wall 270 and enters the collection box 280.

As described above, the plunger slug stripper 10 according to the present invention is a state in which a plurality of sludges are fed into the feed hopper 110 at once, while the feed screws 112 are sequentially supplied one by one while being aligned by the aligner 120. A plurality of rotary wheels 210 that are supplied by distributing and supplying to the furnace distributor 130 accurately and dispensing multiple slots arranged through the supply unit 100 are rotated while cutting the multiple slots fixed by the fixing unit 220. After cutting the lower portion with 230, the particles are accurately sucked and stored by the spray hose 240 and the suction hose 250, so that a plurality of slits can be automatically and accurately degassed in a short time by the number of the rotating wheels 210. .

By doing so, it is possible to reduce the time and cost of the slitting process by drastically eliminating a large amount of the slitting machine in a short time without the need for a separate work force to remove the slitting machine one by one. do.

Although the above has been illustrated and described with respect to the preferred embodiment of the present invention, the present invention is not limited to the above-described embodiment, anyone of ordinary skill in the art to which the present invention belongs, variously modified and implemented in various ways Of course, such changes are intended to fall within the scope of the claims set forth.

10: slot machine shell 11: case 100: supply unit
110: feed hopper 111: screw cover 112: transfer screw
120: aligner 121: aligner rotary motor 122,215,233: connecting belt
130: distributor 131: distribution pipe 200: shell portion
210: rotary wheel 211: insertion tube 212: opening groove
213,231: rotating shaft 214: rotating wheel rotating motor 220: fixed body
230: cutting body 232: cutting body rotary motor 240: injection hose
250: suction hose 270: partition 280: collection

Claims (5)

delete It is provided with a feed hopper 110 in the form of a perforated funnel to inject the chopped to the top side, while the screw cover 111 is opened the other end side of the lower opening opening while blocking the inside of the feed hopper 110 It is formed to be lowered toward the lower side of the screw cover 111, the feed screw 112 with a spiral wing is formed along the outside while simultaneously crossing from the open portion of the screw cover 111 to the lower opening of the feed hopper 110 And a feed hopper 110 in which the feed screw 112 rotates so that the spiral blades move toward the lower opening of the feed hopper 110 in the open portion of the screw cover 111.
The aligner 120 provided at the lower portion of the supply hopper 110 and aligned to stand upright by rotating a plurality of slots supplied from the supply hopper 110 has a penetrating cone shape, the inner surface of which is projected slightly in a spiral shape. It consists of a aligner 120 connecting the drive shaft and the outer surface of the aligner rotating motor 121 rotates in the lateral direction with a connecting belt 122,
Distributor 130 for distributing and supplying the plural slots aligned through the aligner 120, the lower portion is divided through the number of the rotation wheel 210 of the shell portion 200, the tubular distribution pipe 131 Consisting of a distributor 130 connected to the supply hopper 110, the supply unit 100 is provided with a aligner 120 and the distributor 130 in order,
When a large number of sludges introduced into the feed hopper 110 are sequentially moved by the feed screw 112 one by one to the aligner 120, they are rotated along the side of the aligner 120 and aligned in an upright state by centrifugal force. , To be supplied into the distribution pipe 131 stochastically to the rotary wheel 210,
Under the supply unit 100, the rotating wheel 210 seated on the rotating throttle supplied by the distributor 130, the cutting body 230 for cutting the lower plunger, the injection hose for spraying the kernel of the plunger ( By constructing a slitting machine shell 10 is provided with a shell portion 200 consisting of a 240 and a suction hose 250 for sucking and storing the kernels,
The slug slitting machine, characterized by reducing the working time and cost, by accurately scraping a large amount of put sludge in a short time.
The method of claim 2,
The shell portion 200,
A plurality of insertion tubes 211 in the form of a tube are formed continuously in a circular frame shape along the outer circumference to form a rotating wheel 210 arranged so that its center is located on the same circumference, and each rotating wheel ( 210, the center of the cylindrical rotary shaft 213 is connected to the bottom, connecting the drive shaft of the rotary wheel rotary motor 214 and the lower portion of each rotary shaft 213 with a connecting belt 215;
Each rotary wheel 210 has a circular saw blade-shaped cutting body 230 overlapping a predetermined length with the lower portion of the insertion tube 211, the cylindrical rotating shaft 231 in the center of the cutting body 230 to the bottom Connected to connect the driving shaft and the lower portion of the rotating shaft 231 of the cutting body rotating motor 232 rotating in the opposite direction to the rotating wheel 210 with the connecting belt 233;
The injection hose 240 for injecting high-pressure air is provided at the lower portion of the insertion tube 211 at the position passing through the cutting body 230 while the rotary wheel 210 rotates;
The suction hose 250 which is suctioned at a high pressure to the upper portion of the insertion pipe 211 provided with the injection hose 240 is provided toward the bottom,
Sludge is characterized in that the sludge is cut into the insert tube 211 while cutting the lower part of the sludge with a cutting body 230 and then blowing high pressure air into the sludge to inhale and store the kernel at the top. Sheller.
The method of claim 3,
The shell portion 200,
An opening groove 212 grooved in the side of the insertion tube 211 is formed;
An elastic material having a frictional force 220 is circularly provided at the center of each rotating wheel 210 so as to overlap a predetermined length with the outer surface of the insertion tube 211;
The distribution tube 131 is positioned above the insertion tube 211 and the fixed body 220 first contacting each rotating wheel 210 to the position where the injection hose 240 and the suction hose 250 are provided. By the fixing body 220 in contact with the outer surface of the insertion tube 211,
When the plunger is seated in the insertion tube 211, the fixed body 220 is inserted into the insertion tube 211 through the opening groove 212 narrow sledgel shell, characterized in that to fix the snail.
5. The method of claim 4,
The shell portion 200,
The upper and lower rotary wheel 210 has a plate-shaped protective steel plate 260, and the lower protective steel plate 260 forms an open groove 261 opened to the peeled off position;
A partition wall having an inclination such that the upper surface is inclined from one side to the other in a case shape surrounding the upper, lower, and side surfaces of the rotary wheel rotary motor 214 and the cutting body rotary motor 232 and each connecting belt 215 and 233. 270;
The bottom of the partition 270 is provided with a collection tube 280, the upper surface is opened,
Preventing malfunction due to external debris and falling shells, and multiple falling sheller characterized in that the falling shells are collected in the collection box (280).

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