WO2024009364A1 - 飼育装置 - Google Patents

飼育装置 Download PDF

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Publication number
WO2024009364A1
WO2024009364A1 PCT/JP2022/026627 JP2022026627W WO2024009364A1 WO 2024009364 A1 WO2024009364 A1 WO 2024009364A1 JP 2022026627 W JP2022026627 W JP 2022026627W WO 2024009364 A1 WO2024009364 A1 WO 2024009364A1
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WO
WIPO (PCT)
Prior art keywords
water supply
breeding
water
rearing
supply member
Prior art date
Legal status (The legal status 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 status listed.)
Ceased
Application number
PCT/JP2022/026627
Other languages
English (en)
French (fr)
Japanese (ja)
Inventor
望 三浦
晃浩 中村
重和 河合
正和 古吉
康弘 村田
崇人 渡邉
太郎 三戸
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
JTEKT Corp
University of Tokushima NUC
Original Assignee
JTEKT Corp
University of Tokushima NUC
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 JTEKT Corp, University of Tokushima NUC filed Critical JTEKT Corp
Priority to PCT/JP2022/026627 priority Critical patent/WO2024009364A1/ja
Priority to JP2024531772A priority patent/JP7728553B2/ja
Publication of WO2024009364A1 publication Critical patent/WO2024009364A1/ja
Anticipated expiration legal-status Critical
Ceased legal-status Critical Current

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Classifications

    • AHUMAN NECESSITIES
    • A01AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
    • A01KANIMAL HUSBANDRY; AVICULTURE; APICULTURE; PISCICULTURE; FISHING; REARING OR BREEDING ANIMALS, NOT OTHERWISE PROVIDED FOR; NEW BREEDS OF ANIMALS
    • A01K67/00Rearing or breeding animals, not otherwise provided for; New or modified breeds of animals
    • A01K67/30Rearing or breeding invertebrates
    • A01K67/34Insects
    • A01K67/36Industrial rearing of insects, e.g. insect farms
    • A01K67/368Feeding; Watering
    • AHUMAN NECESSITIES
    • A01AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
    • A01KANIMAL HUSBANDRY; AVICULTURE; APICULTURE; PISCICULTURE; FISHING; REARING OR BREEDING ANIMALS, NOT OTHERWISE PROVIDED FOR; NEW BREEDS OF ANIMALS
    • A01K67/00Rearing or breeding animals, not otherwise provided for; New or modified breeds of animals
    • A01K67/30Rearing or breeding invertebrates
    • A01K67/34Insects
    • A01K67/36Industrial rearing of insects, e.g. insect farms
    • A01K67/362Containers or crates

Definitions

  • the present disclosure relates to a breeding device.
  • Patent Document 1 describes a breeding device for breeding living things.
  • This breeding device includes a stop member on which living things can stop in a breeding area in a breeding case.
  • a conveyor belt forming a floor is arranged below the stop member of the rearing area, and as the conveyor belt moves, deposits and the like accumulated on the belt surface are carried out.
  • this conveyor belt is provided with a water supply belt that goes around the circumferential direction.
  • the water supply belt is made of a water-retaining material capable of retaining water supplied from the water supply device. Therefore, the water held inside the water supply belt can be supplied to living things by using the movement of the conveyor belt.
  • the present disclosure aims to provide a rearing device that allows creatures such as insects to obtain a stable water supply.
  • a breeding device for breeding living things a breeding case having a breeding area for the living thing and a wall section dividing the breeding area; a water supply member provided along at least one wall of the breeding case so as to face the breeding area;
  • a breeding device comprising: It is in.
  • the breeding area of the breeding case is divided by walls, and the living things are raised in this breeding area.
  • the water supply member forms a water supply field for living things in the rearing area.
  • the water supply member has a wide water supply surface, a sufficient water supply area can be secured, and even when there are a large number of organisms to be raised, it is possible to distribute water to all the organisms. As a result, living things can calmly receive water from the wide water supply surface of the water supply member, and cannibalism of living things due to lack of water can be suppressed.
  • FIG. 1 is a perspective view of the rearing device of Embodiment 1 seen diagonally from above;
  • FIG. 2 is a front view of the rearing device of Embodiment 1,
  • FIG. 3 is an enlarged view showing the peripheral structure of the water supply member in FIG.
  • FIG. 4 is a perspective view of the water supply member and escape prevention member in FIG. 3, viewed diagonally from above;
  • FIG. 5 is a perspective view showing the breeding unit in the breeding apparatus of FIG. 1 when it is moved from the initial position to the ready-to-carry position;
  • FIG. 6 is a front view corresponding to FIG. 2 of the rearing device of Embodiment 2, FIG.
  • FIG. 7 is an enlarged view corresponding to FIG. 3 of the rearing device of Embodiment 3
  • FIG. 8 is an enlarged view corresponding to FIG. 3 of the rearing device of Embodiment 4
  • FIG. 9 is an enlarged view corresponding to FIG. 3 of the breeding apparatus of Embodiment 5.
  • the first direction which is the vertical direction of the breeding device installed on a horizontal surface
  • the second direction which is the width direction of this breeding device
  • the third direction which is the longitudinal direction of this rearing device
  • both the width direction (second direction) and the longitudinal direction (third direction) are directions orthogonal to the up-down direction (first direction).
  • the living thing to be bred is, for example, a small creature such as an arthropod.
  • the breeding target is, for example, an organism used for food, feed, research, or the like.
  • insects such as crickets, locusts, and grasshoppers can be raised.
  • the organisms to be reared are arthropods that undergo incomplete metamorphosis, in which larvae directly metamorphose into adults, and larvae that undergo incomplete metamorphosis are particularly preferred.
  • insects crickets and locust larvae of the order Grasshopper order will be described as suitable examples of organisms to be reared.
  • adults completely metamorphosed arthropods that have emerged
  • the breeding device may be used for breeding from eggs or for breeding organisms after hatching.
  • the breeding apparatus 1 of Embodiment 1 is used to raise a living creature C to be reared.
  • a cricket which is a type of insect, is illustrated as an organism C.
  • the breeding device 1 includes, as its basic configuration, a breeding case 10, a water supply member 17, a breeding unit 20, a water supply section 30, and a transport device 40.
  • the breeding case 10 is placed on the installation surface for the breeding device 1.
  • This breeding case 10 is formed using a plurality of frames.
  • the plurality of frames include two first frames 11 provided on both end sides in the third direction Z, two second frames 12 that connect the two first frames 11, and two first frames 11 that connect the two first frames 11.
  • two third frames 13 that connect the two first frames 11, and two fourth frames 14 that connect the two first frames 11.
  • the two second frames 12 are spaced apart in the second direction Y and extend parallel to the third direction Z, which is the longitudinal direction.
  • the two third frames 13 are spaced apart in the second direction Y and extend parallel to the third direction Z, which is the longitudinal direction.
  • the two fourth frames 14 are spaced apart in the second direction Y and extend parallel to the third direction Z, which is the longitudinal direction.
  • the breeding case 10 has a plurality of walls that partition a breeding area 10a that is a breeding space for the living creatures C.
  • the plurality of wall parts include side wall parts 16 provided on both sides of the rearing area 10a in the second direction Y, a holding part 21 located above the rearing area 10a, and a covering part that covers the rearing area 10a from other directions. (not shown for convenience).
  • the rearing area 10a is a closed space that is always closed during the rearing period, and this closed space is appropriately set to an environment suitable for the growth of the living organisms C.
  • FIG. 1 illustrates a case where two breeding units 20 of the same shape (ie, a first breeding unit 20A and a second breeding unit 20B) are accommodated in the breeding area 10a.
  • the first breeding unit 20A and the second breeding unit 20B are housed in the breeding area 10a in a state where they are juxtaposed in the third direction Z. Since the first rearing unit 20A and the second rearing unit 20B have the same shape, in FIG. 1, for convenience of explanation, the entire first rearing unit 20A is shown as a solid line, and the second rearing unit 20B is shown as a part thereof. Only the holding portion 21 is shown with a two-dot chain line. Note that the number of breeding units 20 accommodated in the breeding area 10a is not limited to two, and may be one or three or more.
  • the two second frames 12 of the breeding case 10 are support elements for supporting the breeding unit 20 so as to be slidable in the third direction Z. For this reason, a plurality of support rollers 15 are provided along the third direction Z on the inner surface of each second frame 12 in the second direction Y.
  • Each support roller 15 is a rotatable member such as a roller or a bearing, and is configured to rotate upon receiving an input in the third direction Z.
  • the breeding unit 20 includes a holding part 21 and a plurality of stop members 22.
  • the holding portion 21 is a plate-shaped member whose thickness direction is the first direction X. This holding portion 21 is configured to serve as a wall portion (top plate portion) that partitions the upper side of the rearing area 10a.
  • the stop member 22 is for the creature C to stop in the rearing area 10a.
  • the plurality of stop members 22 are fixed to the holding part 21 and are configured to form a hideout for the living creature C. For this reason, the breeding unit 20 having the plurality of stop members 22 is also referred to as a "hideout unit".
  • the portion 22a extends downward to hang down to a lower end portion 22b.
  • the plurality of stop members 22 are arranged in the second direction Y with gaps 23 having the same size in between. That is, the plurality of stop members 22 are arranged at substantially equal intervals in the second direction Y.
  • the gap 23 is dimensioned to allow movement of the creature C and to serve as a hideout depending on the body size of the creature C.
  • the stop member 22 is a plate-like member that extends in the first direction X along a plane defined by the first direction X and the third direction Z, with the second direction Y as the plate thickness direction.
  • the perching member 22 is configured so that the living creature C to be reared can perch on its surface.
  • the stop member 22 may be formed into a flat plate shape or may be formed into a corrugated shape. In this example, the stop member 22 is formed into a flat plate shape.
  • the material of the stop member 22 is not particularly limited, and for example, metals such as iron and aluminum, resin, rubber, wood, paper, etc. can be used as appropriate. It is preferable that the stop member 22 has a mesh structure in which a large number of through holes are formed over the entire surface so as to serve as a scaffold for the living creature C.
  • the stop member 22 can be formed of punched metal, wire mesh, or the like.
  • the water supply member 17 is provided along the side wall portion 16 of the breeding case 10 so as to face the breeding area 10a. That is, the water supply member 17 is provided along one wall of the rearing case 10.
  • This water supply member 17 is a sheet-like sheet member whose thickness direction is the second direction Y, and is configured to extend in the first direction X, which is the vertical direction, along the vertical surface, which is the inner surface of the side wall portion 16. There is.
  • the water supply member 17 absorbs water and temporarily retains it inside.
  • the water supply member 17 has a main body portion 17c that serves as a substantial water supply source for the living organisms C between the upper portion 17a and the lower portion 17b.
  • a main body portion 17c that serves as a substantial water supply source for the living organisms C between the upper portion 17a and the lower portion 17b.
  • the water supply member 17 may be configured as a single sheet member that covers the entire or part of the inner surface of the side wall portion 16, or the water supply member 17 may be configured as a single sheet member that covers the entire or a part of the inner surface of the side wall portion 16. May be constructed.
  • the material of the water supply member 17 is not particularly limited, and various water-retentive materials that can absorb water and temporarily hold it inside can be used.
  • a material called "gauze" made of natural materials such as silk, cotton, linen, or chemical fibers can be used as a material that is relatively inexpensive and has excellent water absorption.
  • the water supply unit 30 functions to supply water to the water supply member 17.
  • the water supply section 30 is configured to supply water from both sides of the upper part 17a and lower part 17b of the water supply member 17.
  • This water supply section 30 includes a drip nozzle 31, an on-off valve 32, and a water storage tray 33.
  • the drip nozzle 31 is for supplying water to the water supply member 17 from the upper part 17a side thereof, and is arranged directly above the upper part 17a in a downward state so as to drip water from above the upper part 17a of the water supply member 17. has been done. Further, an on-off valve 32 is provided upstream of this drip nozzle 31.
  • the opening/closing valve 32 has its opening/closing timing and valve opening degree automatically adjusted as appropriate by a sequencer (not shown). Thereby, the supply water can be dripped from the dripping nozzle 31 onto the upper part 17a of the water supply member 17 in an amount according to the user's intention at a timing according to the user's intention.
  • the water supply section 30 has a structure in which water is automatically supplied from the dripping nozzle 31 using an on-off valve 32, but instead of this structure, a manual on-off valve is used in place of this on-off valve 32, The user may manually operate the manual on-off valve.
  • the water storage tray 33 is for supplying water to the water supply member 17 from its lower portion 17b side.
  • This water storage tray 33 is box-shaped with a bottom, and is provided directly below the lower part 17b of the water supply member 17.
  • This water storage tray 33 is configured to be able to store water for soaking the lower part 17b of the water supply member 17. According to this configuration, the lower portion 17b of the water supply member 17 is immersed in the water collected in the water storage tray 33.
  • water dripped from the dripping nozzle 31 to the upper part 17a of the water supply member 17 is absorbed by the upper part 17a, and then flows down to the lower part 17b along the main body part 17c according to gravity (Fig. 3 (See “Downward flow Fa" in By using the drip nozzle 31, water can be supplied to the water supply member 17 using a simple structure.
  • the main body portion 17c of the water supply member 17 becomes almost uniformly wet. Therefore, the surface of the main body portion 17c can be used as a water supply surface, and a wide range of this water supply surface can be used as a water supply field for the living creatures C.
  • the water storage tray 33 when the rearing area 10a side is inside and the opposite side is outside in the second direction Y, the water storage tray 33 is configured such that the height of the outside wall 33b is lower than the height of the inside wall 33a. It is configured. According to this configuration, overflow wastewater overflowing from the water storage tray 33 due to excessive water supply is collected in the collection container 34 (see FIG. 2) placed in advance below the water storage tray 33. Thereby, overflow drainage water overflowing from the water storage tray 33 can be prevented from leaking into the rearing area 10a of the rearing case 10.
  • This function can be implemented, for example, by arranging the water storage tray 33 in an inclined state so that the old water that has accumulated in the water storage tray 33 is automatically discharged as overflow drainage and replaced with new water, or the old water that has accumulated in the water storage tray 33 is This is achieved by adopting a structure that forcibly drains some of the water using a drainage pump (not shown). This makes it possible to prevent old water from remaining in the water storage tray 33 for a long period of time and causing bad odors.
  • the water supply member 17 has an upper portion 17a extending in the second direction Y, which is the thickness direction, and a lower portion 17b, which is a portion excluding the upper portion 17a, and a dimension in the second direction Y of the upper portion 17a. and the dimension in the second direction Y of the main body portion 17c. That is, the upper part 17a of the water supply member 17 is a widened part whose width in the second direction Y is increased by bending. On the other hand, the lower part 17b and the main body part 17c of the water supply member 17 have substantially the same dimensions in the second direction Y.
  • the breeding apparatus 1 of the first embodiment includes an intrusion prevention member 18.
  • This intrusion prevention member 18 is for preventing the creatures C from intruding from the rearing area 10a into the installation area 10b of the water storage tray 33.
  • the intrusion prevention member 18 is a plate-shaped member having a predetermined thickness, and is tilted and leans against the conveyance surface 42a of the conveyor belt 42 and the main body portion 17c of the water supply member 17.
  • the water storage tray 33 can be placed outside the rearing case 10 by providing the intrusion prevention member 18.
  • the term "outside the rearing case 10" as used herein refers to an area that the creature C cannot access from the rearing area 10a. According to this intrusion prevention member 18, it is possible to prevent living things C from entering the installation area 10b of the water storage tray 33, entering the water stored in the water storage tray 33, and drowning.
  • the intrusion prevention member 18 has an access passage 18a that allows the living organisms C to move between the conveyance surface 42a of the conveyor belt 42 and the water supply member 17 in the rearing area 10a.
  • the access passage 18a is formed so as to extend linearly by one side of the intrusion prevention member 18 facing the rearing area 10a.
  • the intrusion prevention member 18 of this embodiment not only has an intrusion prevention function of preventing creatures C from entering the water storage tray 33, but also has a connection function of connecting the rearing area 10a and the water supply member 17. For this reason, this intrusion prevention member 18 is also referred to as a "connection member.” According to this connection function of the intrusion prevention member 18, the living creature C can freely move between the conveyance surface 42a of the conveyor belt 42 and the water supply member 17. In particular, it becomes easier for living organisms C on the conveying surface 42a of the conveyor belt 42 to access the water supply member 17 through the access passage 18a of the intrusion prevention member 18 for water supply.
  • the intrusion prevention member 18 is not limited to a plate-shaped member. Instead of using a plate-like member as the intrusion prevention member 18, for example, an arch-like member or a step-like member may be used.
  • the rearing device 1 of the first embodiment includes an escape prevention member 19 for the living creature C.
  • This escape prevention member 19 is provided on the upper part 17a of the water supply member 17, and is fixed to the side wall part 16 so that the upper part 17a of the water supply member 17 is sandwiched between it and the side wall part 16 of the rearing case 10.
  • the escape prevention member 19 has a shape similar to a so-called "mouse return”. That is, the escape prevention member 19 has a substantially L-shape when the breeding apparatus 1 in FIG. It has a protruding piece 19a (see FIG. 4). Therefore, the escape prevention member 19 can prevent the living organisms C from moving from the main body portion 17c side of the water supply member 17 to the upper portion 17a side. As a result, the creature C can be prevented from climbing the water supply member 17 from the rearing area 10a of the rearing case 10 and escaping to the outside of the rearing case 10 over the upper part 17a.
  • the shape of the escape prevention member 19 is not limited to a substantially L-shape. Various shapes can be adopted as the shape of the escape prevention member 19 as long as the purpose of preventing or suppressing the escape of the living creatures C from the rearing area 10a can be achieved.
  • the breeding device 1 includes a transport device 40 below the breeding area 10a of the breeding case 10.
  • the conveyance device 40 includes a pair of rollers 41, 41 arranged apart from each other in the third direction Z, an endless conveyor belt 42 that is stretched over the pair of rollers 41, 41, and a motor that drives one of the rollers 41. 43.
  • the conveyance surface 42a of the conveyor belt 42 continuously moves in the conveyance direction. do.
  • the conveyance surface 42a of the conveyor belt 42 forms the floor surface (bottom surface) of the rearing area 10a.
  • the conveying direction of the conveying device 40 means the moving direction of the conveying surface 42a of the conveyor belt 42.
  • the motor 43 and the rollers 41, 41 may be rotatable in only one direction or may be rotatable in both directions. That is, when the motor 43 is rotatable in only one direction, the transport direction of the transport device 40 is one of the third directions Z. When the motor 43 is rotatable in both directions, the transport direction of the transport device 40 is both the third direction Z.
  • the transport device 40 carries at least one of the following: the living creature C itself to be reared, food and water supply materials for the living creature C, shells and dead bodies of the living creature C, eggs of the living creature C in the early stage of growth, feces, food residue, and dust. It serves the function of transporting one object.
  • the transport device 40 can be used to transport food and water supplies from the outside into the rearing area 10a.
  • the living creature C is reared in the rearing area 10a of the rearing case 10 during the rearing period.
  • the first rearing unit 20A is placed at the initial position P1.
  • the collection work begins. In this collection work, an operation of sliding the first rearing unit 20A in the transport direction Z1 is performed.
  • the operator can slide the first rearing unit 20A in the transport direction Z1 by directly grasping the first rearing unit 20A with fingers and moving it manually. can be done.
  • the first rearing unit 20A is provided with a driving means such as an actuator, the first rearing unit 20A can be automatically slid in the transport direction Z1 using the driving means.
  • the first rearing unit 20A slides in the transport direction Z1 with both ends of the holding part 21 in the third direction Z being supported from below by a plurality of support rollers 15.
  • the first breeding unit 20A is carried out from the breeding case 10 from the initial position P1 through the carrying-out preparation position P2.
  • the living organisms C are then collected from the first rearing unit 20A that has been carried out.
  • the breeding area 10a of the breeding case 10 is divided by two side walls 16 on both sides in the second direction Y, and the living creature C is raised in this breeding area 10a.
  • the water supply member 17 forms a water supply field for the living creatures C in the rearing area 10a. If this water supply member 17 is provided along the side wall portion 16 of the rearing case 10, the water supply member 17 can have a surface structure having a wide water supply surface. Therefore, the living creatures C to be kept can calmly receive water from the wide water supply surface of the water supply member 17, and even when there are many living creatures C, it is possible to distribute water to all the living creatures C.
  • the water supply member 17 Since the water supply member 17 has a wide water supply surface, a sufficient water supply area can be ensured, and even when there are a large number of organisms C to be reared, it is possible to distribute the water supply to all the organisms C. As a result, the living creatures C can calmly receive water from the wide water supply surface of the water supply member 17, and cannibalism of the living creatures C due to water shortage can be suppressed.
  • the breeding apparatus 1 that can stably supply water to the living creature C to be bred.
  • a structure may be adopted in which two separate members have each of the two functions that the intrusion prevention member 18 also serves. You can also do it. That is, a dedicated first member having an intrusion prevention function to prevent the living organisms C from entering the water storage tray 33 and a dedicated second member having a connection function to connect the rearing area 10a and the water supply member 17 are provided. It can be done.
  • the breeding apparatus 2 of the second embodiment differs from the breeding apparatus 1 of the first embodiment in that a water supply member 17 is provided at an additional location.
  • the water supply member 17 is provided so as to face the breeding area 10a along the side wall portion 16 of the breeding case 10, and also to face the breeding area 10a along the holding portion 21 of the breeding unit 20. It is set up to do so.
  • the holding part 21 is configured as an upper wall part that partitions the breeding area 10a of the breeding case 10.
  • the water supply member 17 provided on the lower surface of the holding part 21 is extended to extend through the water supply member 17 to the upper surface of the holding part 21, and water is supplied to the water supply member 17 from above the holding part 21. can be configured to drip.
  • the other configuration of the rearing device 2 is the same as that of the first embodiment.
  • water supply for the living organisms C is achieved by providing the water supply member 17 not only on the side wall portion 16 of the rearing case 10 but also on the holding portion 21 which is the upper wall portion of the rearing case 10. You can increase the number of places.
  • the breeding device 3 of Embodiment 3 also includes a breeding area 10a of the breeding case 10 (in particular, both ends of the plurality of stop members 22 in the second direction Y).
  • the breeding apparatus 1 is different from the breeding apparatus 1 of the first embodiment in that it includes a connecting member 18A that connects the side stop member 22) and the water supply member 17.
  • the connecting member 18A is a plate-shaped member having a predetermined thickness like the intrusion prevention member 18, and is provided so as to extend in the second direction Y.
  • this connecting member 18A is different from the intrusion prevention member 18 which also serves the above-mentioned two functions, and is dedicated to connecting the rearing area 10a and the water supply member 17.
  • Both surfaces (upper surface and lower surface) of the connecting member 18A in the first direction X serve as access passages 18a through which the living creature C can move. This makes it easier for the creature C present in the stop member 22 to access the water supply member 17 through the access passage 18a of the connection member 18A for water supply.
  • the other configuration of the rearing device 3 is the same as that of the first embodiment.
  • the rearing device 3 of the third embodiment by including both the intrusion prevention member 18 and the connecting member 18A, it is possible to increase the number of access routes for the living organisms C from the rearing area 10a of the rearing case 10 to the water supply member 17. can.
  • the breeding apparatus 4 of the fourth embodiment has the following features: the water supply section 30 supplies water to the water supply member 17 only from the upper part 17a side thereof, and the water storage tray 33 is replaced by a drainage gutter 35. This is different from the breeding apparatus 1 of the first embodiment in this point.
  • the drain gutter 35 does not store much of the water that has flowed down from the lower part 17b of the water supply member 17, and directly stores it as drainage water in the collection container 34 (see FIG. 2). It serves the function of guiding you towards the destination. Therefore, the water dripped onto the upper part 17a of the water supply member 17 is distributed throughout the main body portion 17c only by the downward flow Fa.
  • the other configuration of the rearing device 4 is the same as that of the first embodiment.
  • the water flowing down from the lower part 17b of the water supply member 17 can be drained through the drain gutter 35 without being accumulated, thereby preventing this drainage water from leaking into the rearing area 10a of the rearing case 10. It is effective for
  • a structure in which the intrusion prevention member 18 is omitted may be adopted when considering that the living creature C will not be drowned by the water flowing down from the lower part 17b of the water supply member 17. can.
  • the breeding apparatus 5 of the fifth embodiment is different from the breeding apparatus 1 of the first embodiment in that the water supply section 30 supplies water to the water supply member 17 only from the lower part 17b side. There is.
  • the dripping nozzle 31 of the water supply section 30 is arranged so as to drip water directly from directly above the water storage tray 33. Therefore, the water dripped from the dripping nozzle 31 of the water supply section 30 and accumulated in the water storage tray 33 is sucked up from the lower part 17b of the water supply member 17 according to capillary action, and is distributed throughout the main body section 17c only by the upward flow Fb. It looks like this.
  • the supply water is not dripped onto the upper part 17a of the water supply member 17, for the purpose of simplifying the structural structure of the water supply member 17, a structure in which the upper part 17a is bent to form a widened part is not adopted. .
  • the other configuration of the rearing device 5 is the same as that of the first embodiment.
  • a structure in which the dripping nozzle 31 and the water storage tray 33 of the water supply section 30 are arranged concentrated around the lower part 17b of the water supply member 17 can be realized.
  • the water supply member 17 is provided on the side wall 16 that partitions the breeding area 10a of the breeding case 10 or the holding part 21 of the breeding unit 20, but instead of or in addition to this, the breeding area 10a may be
  • the water supply member 17 may be provided on another partitioning wall. In short, the water supply member 17 can be appropriately provided along at least one wall of the rearing case 10.
  • escape prevention member 19 is provided at 17a on the upper part of the water supply member 17 , but for example, when the function of this escape prevention member 19 can be realized by a separate member, this escape prevention member 19 may be omitted. It is also possible to adopt a different structure.
  • the transport device 40 is provided at the lower part of the rearing area 10a of the rearing case 10 is exemplified, but a structure in which the transport device 40 is omitted can also be adopted.

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  • Life Sciences & Earth Sciences (AREA)
  • Environmental Sciences (AREA)
  • Animal Behavior & Ethology (AREA)
  • Zoology (AREA)
  • Animal Husbandry (AREA)
  • Biodiversity & Conservation Biology (AREA)
  • Details Of Rigid Or Semi-Rigid Containers (AREA)
  • Farming Of Fish And Shellfish (AREA)
PCT/JP2022/026627 2022-07-04 2022-07-04 飼育装置 Ceased WO2024009364A1 (ja)

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PCT/JP2022/026627 WO2024009364A1 (ja) 2022-07-04 2022-07-04 飼育装置
JP2024531772A JP7728553B2 (ja) 2022-07-04 2022-07-04 飼育装置

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Cited By (1)

* Cited by examiner, † Cited by third party
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