WO2018046793A1 - Separating device for separating insects from a rearing-based material - Google Patents

Abstract

The invention relates to a separating device (100) for separating insects (204) from a rearing-based material (202, 203). The device comprises a sieve part (110) and a moving part (280) for moving the sieve part in order to sieve an unseparated material (201). The unseparated material comprises the insects and the rearing-based material. The sieve part comprises an cylindrical sieve rotor (110) and the moving part is adapted to rotate the rotor in order to separate the insects from the rearing-based material. The rotor is inclined so that its lower end (112) is lower than its upper end (111).

Description

SEPARATING DEVICE FOR SEPARATING INSECTS FROM A REARING- BASED MATERIAL

Technical field

The application relates generally to a separating device for separating insects from a rearing-based material.

Background

Known passive separation devices utilise passive separation based on the behavioural characteristics of reared insects.

In addition, the passive devices can use negative phototaxis in order to facilitate the separation of living insects from residue or active horizontal sieve assembly designs, e.g. shakers.

Other known devices utilise screw-type conveyors, conveyor belts, and sieve-belt based designs.

Existing separating devices suffer from insufficient ability to separate a rearing ma- trix material, which being liable to clogging and poor separation efficiency.

The conveyor belt-type devices are mechanically complex and, thus, more prone to breakdowns as well as being more maintenance intensive.

The horizontal vibrating sieve-type devices suffer from similar limitations to their efficacy separating the rearing matrix material and poor capacity, which hamper their operational efficiency. In addition, these devices are very noisy and demand significant occupational safety and environmental protection measures.

The passive and phototactic-type devices are slow to operate and do not facilitate the separation of the rearing matrix material from residues and waste.

Summary One object of the invention is to withdraw the drawbacks of existing separating devices, and provide a separating device that facilitates a recycling of a rearing matrix material and allows to separate a fine residue material efficiently from insects.

One object of the invention is fulfilled by a separating device according to the independent claim. One embodiment of the invention is a separating device for separating insects from a rearing-based material. The device comprises a sieve part and a moving part for moving the sieve part in order to sieve an unseparated material. The un- separated material comprises the insects and the rearing-based material. The sieve part comprises an cylindrical sieve rotor and the moving part is adapted to rotate the rotor in order to separate the insects from the rearing-based material. The rotor is inclined so that its lower end is lower than its upper end.

Further embodiments of the invention are defined in the dependent claims.

Brief description of the figures The embodiments of the invention are presented with reference to the following figures:

Fig. 1 presents a separating device

Fig. 2 presents a cross-section view of the separating device

Detailed description of the figures Fig. 1 and 2 present a separating device 100 for separating insects 204 from a rearing-based material 202, 203.

The food-grade insects 204 can be maggots, e.g. mealworms, crickets, or grasshoppers.

The unseparated material 201 can comprise the insects 204 and the material 202, 203.

The material 202, 203 can comprise a rearing matrix material 202, e.g. recyclable rearing matrices that are used for increasing a rearing surface in rearing pods. In addition, the material 202, 203 can comprise other fine material 203, e.g. residues of the insects and other fine waste. The device 100 comprises an cylindrical sieve rotor 1 10 in order to sieve the unseparated material 201 .

The rotor 1 10 has a first upper end 1 1 1 and a second lower end 1 12. The rotor 1 10 is inclined so that the lower end 1 12 is lower than the upper end 1 1 1 . The rotor 1 10 can comprise an inclined cylindrical coarse sieve 120 in order to separate the matrix material 202 from other materials 203, 204 so that the insects 204 pass through it.

The coarse sieve 120 is a coarse mesh sieve. In addition, the rotor 1 10 comprise an axis 130 in order to allow the coarse sieve 120 to rotate around the axis 130.

The axis 130 has a first upper end 231 and a second lower end 132. The axis 130 is mounted inside the coarse sieve 120 so that it runs through the coarse sieve 120 according to the figures. The upper end 231 is attached to the device 100 by means of first attachment means 234. The first means 234 allow the axis 130 to rotate.

In addition, the axis 130 is attached to the rotor 1 10, e.g to its lower end 132, and/or to other parts of the device 100 by means of second attachment means 135. The second means 135 allow the axis 130 to rotate. In addition, the rotor 1 10 can comprise an inclined cylindrical fine sieve 240 in order to separate the insects 204 from the fine material 203.

The fine sieve 240 has a first upper end 241 and a second lower end 242.

In addition, the fine sieve 240 is mounted so that it surrounds the coarse sieve 120 and rotates together with the coarse sieve 120 around the axis 130. In addition, the fine sieve 240 can comprise a cylindrical solid mantle portion 243 and a cylindrical fine sieve portion 244 at its lower end 242.

The mantle portion 243 comprises an upper end 245 (241 ) and a lower end 246.

The sieve portion 244 is mounted to the lower end 246 of the mantle portion 243.

In addition, the mantle portion 243 can be a plastic material and the sieve portion 244 can be a fine mesh sieve.

In addition, the device 100 can comprise at least one brush 248 in order to clean the fine sieve 240.

At least one brush 248 comprises e.g. one, two, or three separate brushes. The brush(es) 248 is mounted on an outer surface of the sieve portion 244 so that it can dislodge the fine material 203, which is stuck in the sieve portion 244, and the insects 204, which have been seized an inner surface of the the sieve portion 244, from the sieve portion 244. In addition, the device 100 can comprise a feeder funnel part 150 in order to feed the unseparated material 201 from the rearing pods into the device 100.

The funnel part 150 is mounted to the upper end 1 1 1 of the rotor 1 10 so that it extends partially inside the coarse sieve 120.

In addition, the funnel part 150 has an opening 252, which allows to feed the un- separated material 201 into the device 100.

In addition, the device 100 can comprise impeller blades 136, which facilitates a gravitational movement of the unseparated material 201 from the funnel part 150 towards the coarse sieve 120.

The blades 136 are mounted to the axis 130 and inside the coarse sieve 120 so that those rotate together with the axis 130, the coarse sieve 120, and the fine sieve 240.

In addition, the blades 136 facilitate the gravitational movement of the separated matrix material 202 along an inner surface of the coarse sieve 120 towards the open lower end 1 12 so that the matrix material 202 can pass through the lower end 1 12 from the coarse sieve 120 after the coarse sieve 120 has sieved the fine material 203 and insects 204 through it.

In addition, the device 100 can comprise a cover mantle part 160 in order to cover the rotor 1 10.

The fixed cover 160, which surrounds the rotor 1 10, has an upper end 161 and an open lower end 162.

The cover 160 comprises collector parts 164, 165 in order to collect the separated fine material 203 and insects 204. The collectors 164, 165 make possible the separated material 203 and insects 204 to pass from the rotor 1 10 gravitationally outside the cover 160. In addition, the device 100 can comprise a rack part 170. The rack 170 comprises a plane part 172 in order to load necessary items 176, 177 on the rack 170, wheels 173 in order to make possible to move the device 100, and support parts 174, 175 in order to support and to incline the rotor 1 10.

The necessary items 176, 177 can be e.g. a collector vessel 176 for the fine mate- rial 203 and a collector vessel 177 for the insects 204.

First support parts 174 are longer than second support parts 175.

The inclination of the rotor 1 10 is obtained when longer support parts 174 are mounted at the upper end 161 of the cover 160 and shorter support parts 175 at its lower end 162. The angle a of the inclination can be between 10-20°, e.g. 1 1 , 12, 13, or 15°.

The other dimensions of the device 100 can be followings: a lenght 11 of the rotor 1 10 can be between 2000-4000 mm, e.g. 2525 mm, a length I2 of the mantle portion 243 can be between 1 100-2200 mm, e.g. 1390 mm, a length I3 of the sieve portion 244 can be between 370-745 mm, e.g. 470 mm, and a diameter d of the rotor 1 10 can be between 650-850 mm, e.g. 749 mm.

The rack 170 facilitates a rapid change of the vessels 176, 177.

The parts 120, 130, 134, 135, 136, 243, 244, 150, 160, 170 can be made from metal and/or from composite material.

The use of metal and/or composite constructions improves hygiene and facilitates maintenance.

A mesh size in the coarse sieve 120 is larger than in the fine sieve 240. The mesh sizes can be chosen depending on specifics of the materials 202, 203, 204.

In addition, the device 100 comprises a moving part 280 in order to rotate the rotor 100 and to separate the insects 204 from the other material 202, 203. The moving part 280 can comprise a crank or a motor, which can be mounted at the lower end 132 of the axis 130.

The crank 280 makes possible to use the device 100 manually without any electrical motor or access to electricity. Alternatively, transmission parts of the motor can be coupled to the lower end 132 and the motor can locate e.g. in a space between the cover 160 and the lower end 1 12 of the coarse sieve 120, or outside the cover 160.

The device 100 is very cost-efficient, because it is simple, mechanically reliable, and it can be manufactured from comparatively cheap materials.

Fig. 2 presents how the unseparated material 201 is fed into the funnel part 150 through its opening 252.

The rotor 1 10 rotates before the unseparated material 201 has been fed or it starts to rotate by means of the moving part 280. The unseparated material 201 passes gravitationally and by means of the rotating blades 136 inside the rotating coarse sieve 120.

The fine material 203 and the insects 204 pass through meshes of the coarse sieve 120 downwards, whereas the separated matrix material 202 moves gravitationally inside the coarse sieve 120 towards the open lower end 1 12. The separated matrix material 202 exits gravitationally through the lower end 1 12 from the rotor 1 10 and it is collected by means of a third collector vessel, which is not presented in the figures.

This primary sieving stage provides the efficient recycling of the matrix material 202 and substantially reduces a clogging of the fine sieve 240 in subsequent stag- es.

The sieved fine material 203 and insects 204 moves along a space between an outer surface of the coarse sieve 120 and a solid inner surface of the rotating mantle portion 243 towards the lower ends 1 12, 242.

The fine material 203 passes through meshes of the rotating sieve portion 244 downwards and the separated fine material 203 exits gravitationally via collector 164 from the rotor 1 10, whereupon it is possible to collect the separated fine material 203 by means of the vessel 176.

On the other hand, the insects 204 moves gravitationally along a space between the outer surface of the coarse sieve 120 and an inner surface of the rotating sieve portion 244 through the sieve portion 244 towards its lower end 242. The insects 204 exit gravitationally, after it has passed the lower end 242, via collector 165 from the rotor 1 10, whereupon it is possible to collect the separated insects 204 by means of the vessel 177.

The invention has been now explained above with reference to the aforementioned embodiments and the several advantages of the invention have been demonstrated.

It is clear that the invention is not only restricted to these embodiments, but comprises all possible embodiments within the scope of the following claims.

Claims

Claims

1 . A separating device (100) for separating insects (204) from a rearing-based material (202, 203) comprising

a sieve part (1 10) and

a moving part (280) for moving the sieve part in order to sieve an unseparated material (201 ),

which unseparated material comprises the insects and the rearing-based material,

which sieve part comprises an cylindrical sieve rotor (1 10),

which moving part is adapted to rotate the rotor in order to separate the insects from the rearing-based material,

which rotor is inclined so that its lower end (1 12) is lower than its upper end

(1 1 1 ),

which rotor comprises an inclined cylindrical coarse sieve (120) and an in- dined cylindrical fine sieve (240), and

which fine sieve is mounted so that it surrounds the coarse sieve and rotates together with the coarse sieve,

characterized in that

the fine sieve is shorter than the coarse sieve,

which coarse sieve is adapted to sieve the insects through it and

which fine sieve is adapted to separate the insects from a fine residue and waste material (203).

2. The device of the preceding claim, which coarse sieve is a coarse mesh sieve.

3. The device of claim 2, wherein the rotor comprises an axis (130) for allowing the coarse sieve to rotate around it, which axis is mounted to the coarse sieve so that it runs through the coarse sieve.

4. The device of any of the preceding claims, which comprises a feeder funnel part (150) for feeding the unseparated material into the device, which funnel part is mounted to the upper end of the rotor so that it extends partially inside the rotor.

5. The device of any of the preceding claims, which comprises impeller blades (136) for facilitating a movement of the unseparated material from the funnel part towards the rotor, which blades are mounted to the axis and inside the coarse sieve.

6. The device of any of the precedings claims, which fine sieve is a fine mesh sieve.

7. The device of claim 6, wherein the fine sieve comprises a fine sieve portion (244) at its lower end (242) and a mantle portion (243), which sieve portion is mounted to a lower end (246) of the mantle portion.

8. The device of any of claims 6-7, which comprises at least one brush (248) for cleaning the fine sieve, which at least one brush is mounted on the sieve portion so that it can dislodge the lodged insects and fine residue and waste material.

9. The device of any of the preceding claims, wherein the moving part comprises a motor or a crank (280), which is mounted at a lower end (132) of the axis of the rotor.