WO2020129221A1 - Dispositif de traitement de produit alimentaire et procédé de production d'un produit alimentaire - Google Patents

Dispositif de traitement de produit alimentaire et procédé de production d'un produit alimentaire Download PDF

Info

Publication number
WO2020129221A1
WO2020129221A1 PCT/JP2018/047070 JP2018047070W WO2020129221A1 WO 2020129221 A1 WO2020129221 A1 WO 2020129221A1 JP 2018047070 W JP2018047070 W JP 2018047070W WO 2020129221 A1 WO2020129221 A1 WO 2020129221A1
Authority
WO
WIPO (PCT)
Prior art keywords
food
endless belts
cut
flat
pair
Prior art date
Application number
PCT/JP2018/047070
Other languages
English (en)
Japanese (ja)
Inventor
高橋 孝幸
Original Assignee
プリマハム株式会社
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by プリマハム株式会社 filed Critical プリマハム株式会社
Priority to PCT/JP2018/047070 priority Critical patent/WO2020129221A1/fr
Publication of WO2020129221A1 publication Critical patent/WO2020129221A1/fr

Links

Images

Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B26HAND CUTTING TOOLS; CUTTING; SEVERING
    • B26DCUTTING; DETAILS COMMON TO MACHINES FOR PERFORATING, PUNCHING, CUTTING-OUT, STAMPING-OUT OR SEVERING
    • B26D3/00Cutting work characterised by the nature of the cut made; Apparatus therefor
    • B26D3/08Making a superficial cut in the surface of the work without removal of material, e.g. scoring, incising

Definitions

  • the present invention relates to a food processing apparatus for imparting a cut of a desired shape to the surface of a cylindrical food product such as sausage and a method for producing a food product having a cut of a desired shape on the surface, and in particular, a cut on a sausage or the like.
  • the present invention relates to a food processing apparatus and a food manufacturing method suitable for mass production in which a work space for giving the material is small, the apparatus can be miniaturized, and a score can be stably provided.
  • Patent Document 1 discloses a scored sausage production apparatus capable of efficiently and hygienically producing scored sausages that become so-called octopus inners after cooking.
  • a manufacturing apparatus for a scored sausage includes a block conveyor that can hold a plurality of sausages in an upright state, that conveys a block having a plurality of accommodation holes in the width direction, and a predetermined cutting station.
  • a robot that rotates the sausage in the cutting station is provided so that the lower portion of the sausage sandwiched by the can be cut multiple times at a predetermined angle to make a plurality of cut lines.
  • the incision sausage manufacturing apparatus of Patent Document 1 is characterized in that a predetermined position of the pickup station and a predetermined position of the cutting station have a corresponding positional relationship.
  • the predetermined position of the pick-up station when the predetermined position of the pick-up station has a positional relationship in which the center of the storage holes in the front and rear two blocks having two sausage storage holes in the width direction is a square corner, the predetermined position of the cutting station is four cutters.
  • the center position corresponding to the center of the sausage to be cut
  • it can be said to have a corresponding positional relationship.
  • processed meat products such as sausage make a shape with the image of octopus and crab by utilizing the fact that when cut and heated, it causes deformation due to uneven shrinkage ratio between skin and meat Things have been done.
  • the cutter that makes the scoring is rotated, and the sausage is rotated at a predetermined angle to make the scoring at the bottom of the sausage.
  • the cutter that makes the scoring is rotated, and the sausage is rotated at a predetermined angle to make the scoring at the bottom of the sausage.
  • the present invention the food is passed, the one flat surface portion and the other flat surface portion facing each other are arranged, and the one flat surface portion protrudes toward the other flat surface portion, and has a desired shape to be attached to the surface of the food product.
  • a cutter portion having a blade portion arranged at a position corresponding to the cut, while rotating the cylindrical food by providing the conveyor surface of the belt conveyor on the other flat portion, the surface of the desired shape of the food.
  • the food processing device is a food processing device that imparts a cut of a desired shape to the surface of a cylindrical food product, and the food processing device passes through the food product.
  • a pair of flat surface portions of one flat surface portion and the other flat surface portion are arranged, and the mutual distance between the pair of flat surface portions is equal to or smaller than the diameter of the cylindrical portion of the food.
  • the one flat portion projects toward the other flat portion side, and has a cutter portion arranged at a position corresponding to the cut of the desired shape attached to the surface of the food, and the other flat portion is endless.
  • the food is driven by the belt conveyor, between the pair of flat portions, while sandwiched between the pair of flat portions of the food It is characterized in that it can pass while rotating along the circumferential direction of the part.
  • the belt conveyor of the present invention conveys the food from above to below, the food processing device, the distance between each other is smaller than the diameter of the food, horizontally arranged in parallel in the horizontal direction.
  • Two string-shaped endless belts that convey the food, and the two endless belts are arranged so as to face the entrance of the conveyance path between the pair of flat portions via the two endless belts, and the two endless belts are vertically moved.
  • Of the two endless belts is pushed by pushing down the food that is placed between the endless belts and driven by the driving of the two endless belts, and the food is bent by the bending of the two endless belts.
  • a pusher portion for supplying the food to the inlet through the space is provided to the space.
  • the belt conveyor of the present invention conveys the food from above to below, the food processing device, the distance between each other is smaller than the diameter of the food, horizontally arranged in parallel in the horizontal direction.
  • Two string-shaped endless belts for conveying the food, and the two endless belts are arranged so as to face the entrance of the conveyance path between the pair of flat portions via the two endless belts, and between the two endless belts.
  • the food is pushed downward by touching the food conveyed by being driven by the two endless belts, and the food is bent by the bending of the two endless belts.
  • a blade portion in the one flat portion, a blade portion is erected on a wall surface depending on the position of the cut of the desired shape attached to the surface of the food, and the tip of the blade portion.
  • needle portions are further arranged at predetermined intervals in the protruding direction of the blade portion.
  • the food product of the present invention is characterized in that a notch having a desired shape is provided on the surface by the cutter part by passing between the pair of flat surface parts. Further, the food of the present invention is characterized by being sausage.
  • the sausage of the present invention is characterized in that after the cuts are made on the surface skin and the cuts are heated, the cuts are opened to expose the internal meat.
  • the method for producing a food according to the present invention is a method for producing a cylindrical food product in which a cut having a desired shape is provided on the surface, and the food product passes through, and one flat surface portion facing each other. And a pair of flat portions of the other flat portion are arranged, and the mutual distance of the pair of flat portions is equal to or smaller than the diameter of the cylindrical portion of the food or the diameter, and the one flat surface.
  • the portion projects toward the other flat surface side and has a cutter portion arranged at a position corresponding to the cut of the desired shape attached to the surface of the food, and the other flat surface portion of the endless belt conveyor.
  • a food processing device capable of conveying the food serving as a conveying surface, by driving the belt conveyor, the food is sandwiched between the pair of flat portions by the pair of flat portions, and a column of the food. It is characterized in that it passes through while rotating along the circumferential direction of the part to give a cut in a desired shape to the surface.
  • the belt conveyor of the present invention conveys the food product from above to below, and the food processing device is further arranged such that the distance between them is smaller than the diameter of the food product and arranged in parallel in the horizontal direction.
  • Two endless belts in the shape of a string for conveying the food in a direction, and the two endless belts are arranged so as to face the entrance of the conveying path between the pair of flat portions, and by the vertical movement, The food is placed between the two endless belts, and the food conveyed by the driving of the two endless belts is pushed downward, and the food is bent by the two endless belts.
  • a pusher portion for supplying the food to the inlet through a belt The food is conveyed by driving the two endless belts, then the food is supplied from the pusher section to the inlet through a space between the two endless belts, and then the food is conveyed by the belt conveyor.
  • the pair of flat portions is sandwiched by the pair of flat portions, and is passed while rotating along the circumferential direction of the cylindrical portion of the food product to give a cut in a desired shape to the surface. It is characterized by
  • the belt conveyor of the present invention conveys the food product from above to below, and the food processing device is further arranged such that the distance between them is smaller than the diameter of the food product and arranged in parallel in the horizontal direction.
  • Two endless belts for conveying the food product in the direction, and the two endless belts are arranged so as to face the entrance of the conveyance path between the pair of flat portions via the two endless belts. The food is placed between the belts and pushes the food downward by touching the food conveyed by the driving of the two endless belts, and the food is deflected by the two endless belts.
  • a guide part for supplying the food to the inlet through a space between the two endless belts the food is conveyed by driving the two endless belts, and then the two endless belts are fed from the guide parts.
  • the food is supplied to the inlet through the space between them, and then the food is driven by the belt conveyor to sandwich the pair of flat portions between the pair of flat portions, and the column of the food. It is characterized in that it passes through while rotating along the circumferential direction of the part to give a cut in a desired shape to the surface.
  • the food processing device and the food manufacturing method the food passes, the mutual distance between the facing one flat surface portion and the other flat surface portion, the same distance as the diameter of the cylindrical portion of the food or Arranging a pair of flat parts configured to be smaller than the diameter, one flat part projects toward the other flat part side, and has a cutter part that makes a cut in a desired shape on the surface of the food, and the other flat part
  • the section serves as a conveyor surface of an endless belt conveyor for conveying food, and the food is driven by the belt conveyor to sandwich a pair of flat sections between the pair of flat sections in the circumferential direction of the cylindrical section of the food. Since it passes while rotating along with it, desired cuts can be made on the surface of the food product, and mass production becomes possible. Furthermore, it becomes possible to make desired cuts on the entire surface of the column of the food.
  • the pair of flat surface belt conveyors convey the food from above to below, and the food processing devices are arranged in parallel in a horizontal direction in which the distance between them is smaller than the diameter of the food.
  • Two endless belts that convey food horizontally in the horizontal direction and the end of the conveying path between the pair of flat parts via the two endless belts, and the two endless belts are arranged by the vertical movement.
  • the endless belts are placed between the two endless belts, and the foods conveyed by the driving of the two endless belts are pushed downward, and the foodstuffs are bent through the two endless belts to bend the foods through the two endless belts.
  • the food conveyed in a horizontal state can be pushed downward by the pusher portion, and the conveying direction of the food can be easily changed. Therefore, it is possible to reduce a work space such as a cutter portion to be cut.
  • the food processing apparatus and the food manufacturing method are configured so as to avoid contact with food conveyed by driving two endless belts, instead of the pusher portion for pushing the food conveyed in a horizontal state downward.
  • the guide portion that supplies the food to the entrance of the conveying path between the pair of flat portions through the space between the two endless belts by the bending of the two endless belts.
  • the pushing mechanism such as the pusher portion is unnecessary, and the structure of the guide portion can be simplified.
  • the cutter portion in the food processing apparatus and the method for producing a food product in one flat surface portion, the blade portion stands up in a wall surface according to the position of the cut of the desired shape attached to the surface of the food product.
  • the blade part is provided upright in a wall shape at a position corresponding to the cut of the desired shape attached to the surface of the food, and the tip of the blade part further protrudes at a predetermined interval in the protruding direction of the blade part.
  • the portions are arranged, and the needle portion at the tip of the blade portion can surely make a cut in a desired shape on the surface of the food.
  • the skin of the sausage can be reliably pierced by the needle portion, so that it is possible to make a cut in a desired shape on the surface of the sausage.
  • the food processing device by passing the food between the pair of flat portions, it is possible to make a notch on the surface by the cutter portion, so that the desired surface of the food can be obtained only by exchanging the cutter portion. It becomes possible to give a shape cut.
  • the sausage which is a cylindrical food product is provided with a cut on the surface skin, and then only by heating, the cut opens to expose the internal meat, and the sausage has a predetermined surface. Since the marks, characters, etc. in the shape of are displayed, the cook himself does not need to make a cut.
  • the sausage can be provided with brilliance simply by heating after the cut on the surface of the sausage, and thus the sausage with a design can be provided.
  • the sausage since it is possible to give the sausage a beautifulness only by heating, it is suitable for dietary education to let children cook, teaches the enjoyment of cooking to children, and It can be interesting and exciting to expect what your child will see when cooking.
  • the gravy containing fat when heated from the notch provided in the casing is on the surface of the casing. It can be exuded and moisturized to improve the appearance and increase the juiciness.
  • FIG. 3A is an enlarged view showing a configuration of a cutter portion in a region A in which a part of the blade portion shown in FIG. 3B is indicated by a dotted ellipse
  • FIG. 4B is a cutting line shown in FIG. It is a sectional view taken along line AA.
  • (A) is a figure which shows the structure of the guide part in 2nd Embodiment which supplies a foodstuff to the entrance of the conveyance path between two notch processing parts instead of a pusher part through between two endless belts
  • 5B is a diagram showing a positional relationship among the sausage, the endless belt, and the guide portion, which is viewed from the arrow B shown in FIG. 5A.
  • (A) is a figure which shows the state which attached the star mark to the Wiener sausage by the food processing apparatus
  • (b) is a figure which shows the state after heating the Wiener sausage with the star mark. It is a figure which shows the flow of a series of processes which give a notch on the surface of the foodstuff in the foodstuff processing apparatus which concerns on this invention.
  • the present invention the food is passed, one flat surface portion and the other flat surface portion facing each other are arranged, one flat surface portion is projected to the other flat surface portion side, and the desired shape of the food surface is provided.
  • a cutter portion having a blade portion arranged at a position corresponding to the cut, while rotating the cylindrical food by providing the conveyor surface of the belt conveyor on the other flat portion, the surface of the desired shape of the food By providing the cuts, it becomes possible to mass-produce foods having cuts of a desired shape on the surface.
  • FIG. 1 is a perspective view showing an example of the configuration of a food processing apparatus according to the present invention
  • FIG. 2 is a side view showing the configuration of a score processing portion of the food processing apparatus according to the present invention.
  • the food processing apparatus 1 conveys the food to the score processing part 3 as a pair of flat parts for allowing the food to pass therethrough and imparting a score of a desired shape to the surface of the food.
  • the food transport unit 30 having the two cord-shaped endless belts 32 and 33, and the entrance 27 of the transport path between the food score processing unit 3 via the two endless belts 32 and 33 of the food transport unit 30.
  • a pusher section 50 for supplying
  • the cut processing portion as a pair of flat portions in the food processing device will be described.
  • the score processing part 3 in the food processing device 1 is one facing flat part having a cutter part 7 through which the food 70 passes and cuts the surface of the food 70 in a desired shape.
  • the score providing unit 5 and the belt conveyor transporting unit 20 as another plane unit that serves as a transporting surface of the endless belt conveyor 21 and transports the food 70 are provided.
  • the score-providing part 5 in the food processing apparatus 1 has a cutter part 7 for creating a score-cut in a desired shape on the surface of a cylindrical food product 70. Also.
  • the cut line imparting portion 5 has a cutter portion mounting frame 6 to which the cutter portion 7 is attached.
  • the cutter attachment frame 6 has a substantially flat plate shape, and is installed so that the plane is vertical.
  • the cutter attachment frame 6 forms a frame at the outer periphery thereof, and has a space inside the frame.
  • the upper frame body 6a and the lower frame body 6b of the cutter attachment frame 6 are inclined surfaces from their end faces toward the center, and are provided so that the thickness of the frame body increases toward the center. Since the upper frame body 6a and the lower frame body 6b of the cutter attachment frame 6 have the inclined surfaces, the food 70 can be smoothly taken in and out of the cut processing portion 3 during transportation.
  • the frame of the cutter mounting frame 6 is fixed to the chassis 15. Further, in the space inside the frame of the cutter attachment frame 6, a cutter 7 that attaches a cut in a desired shape to the surface of the food 70 is attached.
  • the cylindrical food is a sausage
  • the sausage is a seasoning
  • the meat is kneaded with additives and the like is filled into a cage
  • the surface is covered with a skin such as sheep intestine or collagen caging. I mean what.
  • FIG. 3A is a plan view showing an example of the shape of the blade portion in which a star mark is formed on the cutter portion
  • FIG. 3B is a front view of the cutter portion
  • FIG. 4A is an enlarged view showing the configuration of the cutter portion in the area A in which a part of the blade portion shown in FIG. 3B is indicated by a dotted ellipse
  • FIG. 4B is shown in FIG.
  • FIG. 4 is a cross-sectional view taken along the section line AA shown in FIG.
  • the cutter section 7 projects to the side of the belt conveyor transport section 20 as another plane section.
  • the cutter portion 7 is composed of a plate portion 8 and a blade portion 9, and a cut portion having a desired shape is formed on the surface of the food product on the plate portion 8 forming the base portion.
  • a blade portion 9 having a wall shape corresponding to the position to be attached is provided upright.
  • FIG. 3A shows the shape of the blade portion 9 having a star mark.
  • the thickness of the plate portion 8 in the cutter portion 7 (a shown in FIG. 4) is, for example, 2.4 mm, and the height of the blade portion 9 in the cutter portion 7 (see FIG. B) shown in 4 is, for example, 3.5 mm.
  • the tip of the blade portion 9 of the cutter portion 7 is provided with a needle portion 10 that further protrudes in the protruding direction of the blade portion 9 at a predetermined interval.
  • the needle portion 10 provided on the blade portion 9 has a tip length (e in FIG. 4) of 0.5 mm in a side view and a valley (bottom portion) length (f in FIG. 4). Is 1 mm, and the height of the needle portion 10 (g shown in FIG. 4) is formed at a pitch of 1 mm.
  • the blade portion 9 of the cutter portion 7 forms a triangular shape in the protruding direction of the blade portion 9, and the angle formed by the apex of the triangle that is the tip of the needle portion 10 (FIG. 4B).
  • shown in is formed, for example, at 10 degrees.
  • the size of the region of the blade portion 9 (reference numeral w shown in FIG. 3) has a width corresponding to the length of the sausage in the longitudinal direction, and corresponds to the length of the outer periphery of the sausage surface. It has a height (reference numeral h shown in FIG. 3). For example, when the diameter of the sausage is 17 mm, the height h of the blade portion 9 is about 53 mm.
  • the endless belt conveyor 21 serves as a transporting surface and transports food products from above to below.
  • the distance between the score imparting section 5 and the belt conveyor transporting section 20 (reference numeral d shown in FIG. 2) is equal to or smaller than the diameter of the cylindrical portion of the food. ing.
  • the distance d between the score providing section 5 and the belt conveyor transporting section 20 is set to 17 mm or less.
  • the belt conveyor transport unit 20 includes a belt conveyor 21 that transports food, a rotation drive roller 22 having a rotation shaft, and a motor 23 (which drives the rotation drive roller 22 via the rotation shaft). 1), a rotary roller 24 paired with the rotary drive roller 22, and a belt conveyor support 25 provided between the rotary drive roller 22 and the rotary roller 24.
  • the belt conveyor 21 that conveys food 70 such as sausage has a width that is equal to or greater than the length of the sausage 70 in the longitudinal direction, and the surface of the belt conveyor 21 that contacts the sausage 70 enhances the adhesion with the sausage 70. Therefore, for example, a mesh-shaped projection is provided, and the sausage 70 can be conveyed while being rotated as the belt conveyor 21 moves.
  • the belt conveyor 21 is stretched between the rotation driving roller 22 and the rotation roller 24, and the motor 23 that drives the rotation driving roller 22 rotates to move the belt conveyor 21.
  • a rectangular parallelepiped belt conveyor support portion 25 is provided between the rotary drive roller 22 and the rotary roller 24.
  • the belt conveyor supporting unit 25 contacts the back surface of the belt conveyor 21 and the surface of the belt conveyor supporting unit 25, and the belt conveyor 21 is moved by the food such as sausage being conveyed to the cutter unit 7.
  • the belt conveyor 21 is supported so that the food is in close contact with the cutter unit 7 so as not to bend.
  • the scoring portion 3 shown in FIGS. 1 and 2 conveys the food vertically from above while keeping the longitudinal direction of the food horizontal, and forms a nick on the surface of the food by the cutter portion 7. Indicated.
  • the scored portion can convey the food in a horizontal direction that is perpendicular to the longitudinal direction of the food while keeping the longitudinal direction of the food horizontal.
  • a food product passes through and a cutter unit 7 that makes a cut in a desired shape on the surface of the food product is provided in a horizontal state in which the food product moves.
  • the belt conveyor transporting section 20 for transporting food is provided so that the transport surface of the belt conveyor moves horizontally so that the food moves while rotating in a horizontal state.
  • the food conveyed by the belt conveyor conveying unit 20 moves in the horizontal direction while rotating in the horizontal state, so that the cutter unit 7 makes a cut on the surface of the food. To be done.
  • the notch imparting unit 5 having the cutter unit 7 in the food processing device 1 corresponds to one flat surface portion through which food passes, and the belt conveyor transporting unit 20 includes the endless belt conveyor 21.
  • the other flat surface portion that serves as the transport surface of and transports the food.
  • the scored portion 3 corresponds to a pair of flat portions including a flat portion and another flat portion.
  • the food conveying section that conveys food such as sausage to the score processing section will be described.
  • the food conveying unit 30 in the food processing device 1 includes two string-shaped endless belts 32 and 33, the distance between them is smaller than the diameter of the food, and they are arranged in parallel in the horizontal direction.
  • the food is arranged horizontally and conveyed horizontally.
  • the food conveying section 30 uses two cord-shaped endless belts 32 and 33 to make a scored portion while keeping the sausages, which are foods arranged and fed in a line from a sausage supplying section (not shown), at regular intervals. Transport to the upper part of 3.
  • the food conveying unit 30 includes two cord-shaped endless belts 32 and 33, a rotation driving roller 37 having a rotation shaft, and a motor 38 driving the rotation driving roller 37 via the rotation shaft.
  • a rotary roller 39 forming a pair with the rotary drive roller 37, a food drop prevention fence 42 for preventing food from falling from the sausage supply section, and a belt support provided between the rotary drive roller 37 and the rotary roller 39. It has parts 40 and 41 and a pulley 34 that rotates while applying tension to the endless belt.
  • Grooves are provided near both ends of the rotary drive roller 37 and the rotary roller 39, and the endless belts 32 and 33 are hung on the grooves between the rotary drive roller 37 and the rotary roller 39. As a result, the two endless belts 32 and 33 move in the same direction and at the same speed.
  • the endless belts 32 and 33 are round belts and are made of a material having elasticity. As a result, the endless belts 32 and 33 that are transporting the food can bend and drop the food at the entrance of the transport path between the score processing portions 3 when the food is pushed from above.
  • the endless belts 32 and 33 are stretched between the rotation driving roller 37 and a pair of rotation rollers 39, and the rotation driving roller 37 side is the start end of the endless belts 32 and 33 and the rotation roller 39 side is the end.
  • the movement directions of the endless belts 32 and 33 that have arrived at the rotation roller 39 side are changed by the rotation roller 39 so as to return to the rotation drive roller 37 side.
  • the endless belts 32 and 33 (indicated by dotted lines in FIG. 1) at the time of returning pass through the grooves above the pulleys 34 provided on the lower side of the position of the endless belts 32 and 33 during the conveyance of the food, and the rotation driving rollers. Return to 37.
  • the food conveying section 30 is provided with a food fall prevention fence 42 which prevents the food from falling along the endless belts 32 and 33 from the rotary drive roller 37 side.
  • the sausages arranged in a line and supplied from the sausage supply unit are conveyed by the endless belts 32 and 33 on the food drop prevention fence 42 at regular intervals.
  • the sausages of the endless belts 32 and 33 pass on one of the belt support parts 40 and are conveyed to the upper part of the score processing part 3.
  • the belt supporting portions 40 and 41 are provided in substantially symmetrical positions with the upper portion of the score processing portion 3 interposed therebetween.
  • the endless belts 32 and 33 move in a horizontal state above the cut processing portion 3 by the pair of belt support portions 40 and 41.
  • the endless belts 32 and 33 that pass through the lower side by the rotating roller 39 are set such that the distance between the two endless belts 32 and 33 by the pulley 34 exceeds the diameter of the food. This is to prevent the sausage conveyed by the endless belts 32 and 33 from coming into contact with the endless belts 32 and 33 located on the lower side at the time of returning when the sausage is supplied to the score processing unit 3 and falls. Is.
  • the pusher section 50 is disposed so as to face the inlet 27 of the conveyance path between the cut processing sections 3 via the two endless belts 32 and 33 of the food conveyance section 30.
  • the pusher section 50 which is arranged so as to face the entrance 27 of the transport path between the score processing sections 3, is placed between the two endless belts 32, 33 by the vertical movement, and the two endless belts 32, The food conveyed by the 33 is pushed downward, and the food is bent by the bending of the two endless belts 32, 33, and the food is cut through the space between the two endless belts 32, 33 in the conveying path between the food score processing parts 3. Supply to the inlet 27.
  • the pusher section 50 is composed of an air cylinder 51 that drives the cylinder with air, and the cylinder of the air cylinder 51 is configured to move in the vertical direction.
  • a pushing member 52 forming a rectangular parallelepiped is attached to the tip of the air cylinder 51.
  • the pushing member 52 vertically descends, and the sausages which are conveyed by the endless belts 32 and 33 and are located on the cut processing portion 3 have an entrance of a transfer path between the cut processing portions 3. It is pushed out to 27. Since the endless belts 32 and 33 are made of an elastic material, pushing the sausage downward causes the endless belts 32 and 33 to bend and push the sausage downward.
  • the food conveyed by the two string-shaped endless belts 32 and 33 of the food conveying section 30 reaches the upper part of the entrance 27 of the conveying path between the score processing sections 3. It is detected and a signal is sent to the pusher section 50.
  • the food detection sensor 60 is provided below the pusher unit 50, and is located at a height such that the side surface of the sausage conveyed by the endless belts 32 and 33 can be irradiated with detection light.
  • the food detection sensor 60 detects the reflected light from the side surface of the sausage and detects that the sausage has reached the upper part of the score processing portion 3.
  • the pusher unit 50 operates so as to supply the food to the inlet 27 of the transport path between the score processing units 3 by the signal from the food detection sensor 60.
  • the food processing device 1 includes the notch imparting portion 5 as one flat surface portion having the cutter portion 7 for making a notch of a desired shape on the surface of the food product, and the endless belt.
  • the score processing unit 3 including the belt conveyor transport unit 20 as another flat surface unit that serves as the transport surface of the conveyor 21 and transports food, and the distance between them is smaller than the diameter of the food, and the slits are arranged in parallel in the horizontal direction.
  • a pusher section 50 which is disposed so as to face the entrance 27 of the conveyance path and supplies the food to the entrance 27 of the conveyance path between the score processing sections 3 via the two endless belts 32 and 33.
  • the food processing device 1 including the pusher unit that supplies the food described above to the entrance of the transport path between the score processing units constitutes the first embodiment.
  • the food processing device 2 including the guide portion that supplies the food to the entrance of the conveyance path between the score processing portions constitutes the second embodiment, and is different from the first embodiment except the pusher portion. Since they have the same configuration, the description of the same components will be omitted.
  • FIG. 5A shows a configuration of a guide portion in the second embodiment, which supplies the food to the inlet of the transport path between the score processing portions via the two endless belts instead of the pusher portion.
  • FIG. 5( b) is a diagram showing the positional relationship among the sausage, the endless belt, and the guide portion as seen from the arrow B shown in FIG. 5( a ).
  • the food processing apparatus 2 As shown in FIGS. 5(a) and 5(b), the food processing apparatus 2 according to the second embodiment is arranged so that the food is cut between the two endless belts 32 and 33 between the cut processing portions 3.
  • a guide unit 65 is provided to supply the entrance of the transport path.
  • the guide portion 65 is fixed to a support member (not shown) so as to face the entrance 27 of the conveyance path between the cut portions 3 via the two endless belts 32 and 33.
  • the sausage 70 which is placed between the two endless belts 32 and 33 and conveyed by the driving of the two endless belts 32 and 33, pushes the sausage 70 downward by touching the guide portion 65.
  • the sausage 70 is supplied to the inlet 27 of the transport path between the score processing portions 3 by the bending of the two endless belts 32 and 33.
  • the guide portion 65 has an upper portion of the sausage 70 when the tip of the sausage 70 is conveyed to the entrance 27 of the conveyance path between the score processing portions 3. It has a guide member 66 that contacts the surface and pushes down the food product.
  • the guide member 66 is provided on the cut processing portion 3 via the two endless belts 32 and 33 and has a length equal to or longer than the length of the food in the longitudinal direction.
  • the vicinity of the entrance of the guide member 66 is wide open so that food can pass smoothly, and the inside thereof has a semi-elliptical shape so that the upper portion of the cylindrical food can be stored.
  • the sausage 70 is gradually pushed downward by the guide member 66.
  • the entire length of the sausage 70 in the longitudinal direction is located at the entrance 27 of the conveyance path between the score processing portions 3, the two endless belts 32 and 33 on which the sausage 70 is placed are bent and the two sausages 70 are bent.
  • the sausage 70 is supplied through the space between the endless belts 32 and 33 to the entrance 27 of the transport path between the cut portions.
  • the pusher portion 50 that pushes and supplies the food to the entrance 27 of the transport path between the score processing portions 3, and the sausage 70 or the like directly above the score processing portion 3 on the transport path.
  • the food detection sensor 60 that detects whether food has arrived is not required.
  • the guide portion 65 by providing the guide portion 65, a pushing mechanism such as a pusher portion becomes unnecessary, and the structure of the guide portion can be simplified.
  • FIG. 6( a) is a diagram showing a state in which a star mark is attached to a wiener sausage by a food processing device
  • FIG. 6( b) is a diagram showing a state after heating the wiener sausage with a star mark. is there.
  • the surface of the wiener sausage 70 in the longitudinal direction has cuts 75 with a star mark.
  • the surface of the wiener sausage 70 having a star mark cut after heating is notched due to the uneven shrinkage ratio between the skin and the meat, and is indicated by reference numeral 80a.
  • the internal meat is exposed like a hunting part, and the star mark is clearly visible from the cut 80 after heating.
  • the surface of the sausage is not limited to the mark as shown in FIG. 6, but a character such as an alphabet or a notch of a character string may be provided.
  • FIG. 7 is a figure which shows the flow of a series of processes which give a notch on the surface of the foodstuff in the foodstuff processing apparatus 1 which concerns on this invention.
  • sausage will be described as an example of food.
  • the sausages arranged in a line from the sausage supply unit are supplied onto the two string-shaped endless belts 32 and 33 while keeping a constant interval (step S1). ..
  • the sausage is conveyed to the score processing section 3 side by the two endless belts 32 and 33 (step S2).
  • the food detection sensor 60 detects whether or not the sausage has been conveyed onto the score processing section 3 by the endless belts 32 and 33 (step S3).
  • the food detection sensor 60 outputs a detection signal to the pusher section 50 when detecting the sausage on the endless belts 32 and 33 (step S4). After confirming that the pusher unit 50 has received the detection signal from the food detection sensor 60, the pusher unit 50 operates the air cylinder 51 after a certain period of time to push the pushing member 52 downward (step S5).
  • the sausage on the endless belts 32 and 33 is pushed downward by the air cylinder 51 and supplied to the inlet 27 of the transport path between the score processing portions 3 (step S6).
  • the sausage supplied to the entrance 27 of the transport path between the score processing sections 3 is transported downward by the belt conveyor 21 between the belt conveyor transport section 20 and the score applying section 5 (step S7).
  • the sausage passes through the cutter unit 7 while rotating by the belt conveyor 21 (step S8). At this time, the cutter portion 7 makes a cut line on the surface of the sausage.
  • the sausage cut by the cutter unit 7 is discharged from the exit of the conveyance path of the cut processing unit 3 (step S9).
  • the food processing apparatus and the method for producing a food passes, the mutual distance between the one flat surface portion and the other flat surface portion facing each other, the cylindrical portion of the food product.
  • a pair of flat parts configured to have the same distance as or smaller than the diameter
  • one flat part protrudes to the other flat part side
  • a cutter part that makes a cut in a desired shape on the surface of the food product.
  • the other flat portion serves as a conveying surface of an endless belt conveyor to convey food, and the food is driven by the belt conveyor, between the pair of flat portions of the food while being sandwiched between the pair of flat portions. Since it passes while rotating along the circumferential direction of the columnar portion, it is possible to make desired cuts on the surface of the food product, enabling mass production. Furthermore, it becomes possible to give desired cuts even to the entire surface of the cylinder of the food.
  • the pair of flat surface belt conveyors convey the food from above to below, and the food processing devices are arranged in parallel in a horizontal direction in which the distance between them is smaller than the diameter of the food.
  • Two endless belts that convey food horizontally in the horizontal direction and the end of the conveying path between the pair of flat parts via the two endless belts, and the two endless belts are arranged by the vertical movement.
  • the endless belts are placed between the two endless belts, and the foods conveyed by the driving of the two endless belts are pushed downward, and the foodstuffs are bent through the two endless belts to bend the foods through the two endless belts.
  • a pusher portion that supplies the inlet of the conveying path between the pair of flat portions the food conveyed in a horizontal state can be pushed downward by the pusher portion, and the conveying direction of the food can be easily changed. Therefore, it is possible to reduce a work space such as a cutter portion to be cut.
  • the food processing apparatus and the food manufacturing method are configured so as to avoid contact with food conveyed by driving two endless belts, instead of the pusher portion for pushing the food conveyed in a horizontal state downward.
  • the guide portion that supplies the food to the entrance of the conveying path between the pair of flat portions through the space between the two endless belts by the bending of the two endless belts.
  • the pushing mechanism such as the pusher portion is unnecessary, and the structure of the guide portion can be simplified.
  • the cutter portion in the food processing apparatus and the method for producing a food product in one flat surface portion, the blade portion stands up in a wall surface according to the position of the cut of the desired shape attached to the surface of the food product.
  • the blade part is provided upright in a wall shape at a position corresponding to the cut of the desired shape attached to the surface of the food, and the tip of the blade part further protrudes at a predetermined interval in the protruding direction of the blade part.
  • the portions are arranged, and the needle portion at the tip of the blade portion can surely make a cut in a desired shape on the surface of the food.
  • the skin of the sausage can be reliably pierced by the needle portion, so that it is possible to make a cut in a desired shape on the surface of the sausage.
  • the food processing device by passing the food between the pair of flat portions, it is possible to make a notch on the surface by the cutter portion, so that the desired surface of the food can be obtained only by exchanging the cutter portion. It becomes possible to give a shape cut.
  • the sausage which is a cylindrical food product is provided with a cut on the surface skin, and then only by heating, the cut opens to expose the internal meat, and the sausage has a predetermined surface. Since the marks, characters, etc. in the shape of are displayed, the cook himself does not need to make a cut.
  • the sausage can be provided with brilliance just by heating the surface of the sausage after the cuts have been made on the surface of the sausage, and thus it is possible to provide a sausage with a design.
  • the sausage since it is possible to give the sausage a beautifulness only by heating, it is suitable for dietary education to let children cook, teaches the enjoyment of cooking to children, and It can be interesting and exciting to expect what your child will see when cooking.
  • the gravy containing fat when heated from the notch provided in the casing is on the surface of the casing. It can ooze out and moisturize the surface to improve the appearance.
  • the gravy containing fat content oozes out on the surface of the casing when heated from the cut provided in the casing. , Can increase the juiciness.

Landscapes

  • Life Sciences & Earth Sciences (AREA)
  • Forests & Forestry (AREA)
  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Meat, Egg Or Seafood Products (AREA)

Abstract

Le problème décrit par la présente invention est de fournir un dispositif de traitement de produit alimentaire permettant de réaliser rapidement des découpes de forme souhaitée (par exemple, des marques) sur les surfaces de produits alimentaires cylindriques à une échelle de production de masse ; et un procédé de production de produit alimentaire. La solution de l'invention porte sur un dispositif de traitement de produit alimentaire (1) qui est équipé d'une unité de traitement par découpe (3) comprenant : une unité de réalisation de coupe (5) qui a une partie élément de coupe (7) destinée à réaliser une découpe de forme souhaitée sur la surface d'un produit alimentaire (70) et par laquelle passe le produit alimentaire ; et une unité de transport à transporteur à courroie (20) qui sert de surface de transport d'un transporteur à courroie sans fin (21) pour transporter le produit alimentaire (70). Lorsque le transporteur à courroie (21) est actionné, le produit alimentaire (70) passe par l'unité de traitement par découpe (3) tout en tournant dans la direction circonférentielle de la partie cylindrique du produit alimentaire (70) et est maintenu par l'unité de traitement par découpe (3), de sorte qu'une découpe de forme souhaitée telle qu'une marque soit réalisée sur la surface du produit alimentaire.
PCT/JP2018/047070 2018-12-20 2018-12-20 Dispositif de traitement de produit alimentaire et procédé de production d'un produit alimentaire WO2020129221A1 (fr)

Priority Applications (1)

Application Number Priority Date Filing Date Title
PCT/JP2018/047070 WO2020129221A1 (fr) 2018-12-20 2018-12-20 Dispositif de traitement de produit alimentaire et procédé de production d'un produit alimentaire

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
PCT/JP2018/047070 WO2020129221A1 (fr) 2018-12-20 2018-12-20 Dispositif de traitement de produit alimentaire et procédé de production d'un produit alimentaire

Publications (1)

Publication Number Publication Date
WO2020129221A1 true WO2020129221A1 (fr) 2020-06-25

Family

ID=71100721

Family Applications (1)

Application Number Title Priority Date Filing Date
PCT/JP2018/047070 WO2020129221A1 (fr) 2018-12-20 2018-12-20 Dispositif de traitement de produit alimentaire et procédé de production d'un produit alimentaire

Country Status (1)

Country Link
WO (1) WO2020129221A1 (fr)

Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3902388A (en) * 1974-01-18 1975-09-02 Robert C New Frankfurter skin slitter
JPS51127345U (fr) * 1975-04-09 1976-10-15
JPS5731185U (fr) * 1980-07-29 1982-02-18
JP2006142424A (ja) * 2004-11-18 2006-06-08 Risu Pack Co Ltd フィルムまたはシートを切断するためのトムソン刃、及びこれを使用した切断方法
JP2017079723A (ja) * 2015-10-26 2017-05-18 アルベルト ハントマン マシネンファブリク ゲーエムベーハー ウント ツェーオー.カーゲー ソーセージポーションを移送する装置および方法
JP2019010684A (ja) * 2017-06-29 2019-01-24 プリマハム株式会社 食品加工装置及び食品の製造方法

Patent Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3902388A (en) * 1974-01-18 1975-09-02 Robert C New Frankfurter skin slitter
JPS51127345U (fr) * 1975-04-09 1976-10-15
JPS5731185U (fr) * 1980-07-29 1982-02-18
JP2006142424A (ja) * 2004-11-18 2006-06-08 Risu Pack Co Ltd フィルムまたはシートを切断するためのトムソン刃、及びこれを使用した切断方法
JP2017079723A (ja) * 2015-10-26 2017-05-18 アルベルト ハントマン マシネンファブリク ゲーエムベーハー ウント ツェーオー.カーゲー ソーセージポーションを移送する装置および方法
JP2019010684A (ja) * 2017-06-29 2019-01-24 プリマハム株式会社 食品加工装置及び食品の製造方法

Similar Documents

Publication Publication Date Title
EP2515662B1 (fr) Système de traitement de la viande
JP2010501441A (ja) オンエッジ錠剤の搬送及び加工方法及び装置
JP6891056B2 (ja) 食品加工装置及び食品の製造方法
WO2020129221A1 (fr) Dispositif de traitement de produit alimentaire et procédé de production d'un produit alimentaire
US5101716A (en) Apparatus for assembling biscuit sandwiches
JPH0439214A (ja) スライスされた肉の搬送および収納装置
JPS627808B2 (fr)
JP5808442B2 (ja) 選果機
JP6670575B2 (ja) 物品起立装置
JP5648228B2 (ja) 食肉スライサーおよび食肉スライス方法
JP6840401B2 (ja) 食材用切断機
WO2020255253A1 (fr) Dispositif de traitement d'aliments et procédé de production destiné aux aliments
JP6822666B2 (ja) ゆで卵の自動から割装置
JP2006069649A (ja) スライス食パン分割供給装置及び方法
JP2019115943A (ja) 食品加工装置及び食品の製造方法
JPH048499A (ja) 食パンをスライスして分割する装置
JP7482472B2 (ja) 分離装置
US20220295802A1 (en) Food production apparatus, rotation method and food production method
KR102005173B1 (ko) 육류 절단 장치
JP2000211733A (ja) 製品の搬送姿勢変更装置
JP7477984B2 (ja) 分離装置
JP2022042172A (ja) 成型米飯の可食性シート状食品巻き付け装置及び成型米飯の可食性シート状食品巻き付け食品の製造方法
JP5476065B2 (ja) トマト分別装置
NL1017897C2 (nl) Inrichting voor het op een spies brengen van vlees, vleeswaar en vis.
JP4007427B2 (ja) 横長形油揚げの立て並べによる連続送り出し方法

Legal Events

Date Code Title Description
121 Ep: the epo has been informed by wipo that ep was designated in this application

Ref document number: 18943806

Country of ref document: EP

Kind code of ref document: A1

NENP Non-entry into the national phase

Ref country code: DE

122 Ep: pct application non-entry in european phase

Ref document number: 18943806

Country of ref document: EP

Kind code of ref document: A1

NENP Non-entry into the national phase

Ref country code: JP