SE509852C2 - Harvesting device for algae - Google Patents

Abstract

The invention relates to a harvesting apparatus for removing algae from water (15). The harvesting apparatus comprises a feeding-in head (13; 32) for alga with a rotatable feeder roller (23) which is provided with fingers (24) projecting out from the envelope surface of the roller.

Description

lO 15 20 25 30 509 852 problem with this, is that the algal mass contains about 90 percent water, which means transporting large amounts of water.

This handling described above thus in itself entails an activity which negatively affects the local environmental area, e.g. beaches and beach meadows.

An improved drainage of the algal mass is needed, at the same time as the drainage must be gentle, so as not to crush algae particles spread in the water, which can give rise to new growth of algae.

Furthermore, it is desirable that the recording activities should be able to conducted in an economical manner, so that as large amounts of algae as possible to be removed, at a reasonable cost.

TECHNICAL PROBLEM An object of the present invention is therefore to achieve a harvesting device that enables one that is gentle on the environmental area uptake of algae at reasonable costs. Another purpose is to enable efficient dewatering of the algae without the risk of these are crushed and dispersed as particles in the water.

Solution For this purpose, the harvesting device according to the invention is characterized the input roller forming a break roller for a number endless band segments arranged between the fingers that run around one second breaker roller, which forms the turning point of the belt segments.

The feed head is suitably connected to a waterborne base unit with magazine for captured algae. Through this design of the catcher, it can move along shores and lO 15 20 30 pick up algae by means of the feed head from inside shallow water and even up on the beach, without damaging the beach area.

Suitably the magazine of the base unit is designed as a liquid passage. releasable sack, which can be hung up in such a way that water can run away from the algal mass. In this way a gentle is obtained IN dewatering of the algal mass, at the same time as this can be transported away without need for additional packaging.

The conveyor comprises, according to a variant of the invention, preferably a flexible hose, which extends between an adjacent water surface located feed head and a needle storage space at the base unit, which space is provided to maintain a lower fluid level than is facilitated the water surface. Hereby the transport of algae from the feed head to the base unit.

According to a further advantageous embodiment of the finning forms the feed roller breaking roller for a number of between fingers arranged, endless band segments running around one another break roller forming the turning point for the belt and in the feed head above one usage mode is located the input head. During the movement of algae from the feed roller to the collection space takes place a first separation of water from the algal mass, which increases the efficiency of the process.

The collection space is suitably separated by walls from one feed head surrounding fluid.

Conveniently, the feed head comprises a flushing nozzle for feeding of algae into the snake. In combination with the lower fluid level in collection space in _ » 10 15 20 25 509 852 the intermediate storage space, an efficient material flow is obtained with a small input of transport energy.

The feed head is suitably provided with a screw conveyor for feeding algae in the direction of the rinsing nozzle. This design makes * possible to use. an advantageous wide input head. \ The liquid level in the needle storage space is suitably maintained. through that a pump, with a capacity exceeding the inflow via a or several hoses, the algae feed on to the magazine.

According to an alternative embodiment of the invention, the trans- the two carriers next to each other, operating in parallel planes gate belts, which together form a nip for the transport of algae.

This alternative embodiment of the invention may be used below the water surface at any depth.

Preferably, the input head comprises two adjacent to each other, i parallel planar input belts, which together form a nip for feeding algae to the conveyor.

A trouble-free transfer of algal mass from the feed head to the conveyor is obtained if the input belts overlap it opposite plane arranged the conveyor belt.

A gentle dewatering of the algal mass is achieved if the conveyor belts are liquid-permeable and run over concave breaker rollers. 10 15 20 25 30 509 852 DESCRIPTION OF THE DRAWINGS The invention will be described below with reference to exemplary embodiments shown in the accompanying drawings, in which Fig. 1 shows in perspective a harvesting device according to one first embodiment of the invention, Fig. 2 shows in partially broken side view the one shown in Fig. 1 in the harvesting device, Fig. 3 shows in broken perspective view that in the device according to Figs. 1 and 2 use the input head, Fig. 4 shows a harvesting device according to a second embodiments of the invention, Fig. 5 shows in broken perspective that in the device according to Fig. 4 use the input head, and Fig. 6 shows the input head in Fig. 5 in broken side view.

DESCRIPTION OF EMBODIMENTS The harvesting device shown in Figs. 1 and 2 comprises a base unit 10 in the form of a work platform, 'which can' be anchored in the seabed by means of anchor lines 11 in such a way that one can easily behave along a section of a beach, at which algae are to be harvested. The base unit is through mooring means connected to an intermediate storage unit 12, which can form a collection space for a number of input heads 13, which are connected by means of hose 14 to the intermediate storage unit 12.

The input head 13 will be described in more detail below but is broadly designed which is as a displacing body, arranged to float at the water surface 15, to collect algae which is close to the water surface. The hose 14 is arranged to transport these algae from the feed head in the direction of arrows 16 to the intermediate storage unit 12. The hose 14 is provided not shown. = 10 15 20 25 30 509 852 with floats 17, which are arranged to maintain a smooth fall between one end at the water surface and the other end at bottom. of the intermediate storage unit 12. A znatar hose 18 with no pump means shown transport the algae on to a magazine 19, in the form of a liquid-permeable bag, on the work platform 10 deck.

Fig. 2 shows how a person 20 uses the feed nozzle for to pick up algae at a beach edge, by walking in shallow water and control the feed nozzle. Meanwhile, a continuous one happens feeding algae down to the bottom of it at greater depths the intermediate storage unit 12, the inner space 21 of which is separated by means of walls and bottom from the surrounding water. Hereby it is possible to maintain a significantly lower fluid level inside than in the surrounding water, which means that one space 21, by simple means provides a network flow between the input the head and the space 21. Of course, the supply via the hose 18 have such a capacity that it can handle an influx that wmts corresponds to the number of connected hoses 14. For example, it could be suitable for controlling the supply via the hose 18 by means of one not shown level guard.

In Pig. 2 is the work platform. replaced by a. work better with. own propulsion engine, which boat is also equipped with a crane 22 for handling of algae-filled sacks 19.

The input head 13 is more clearly shown in Fig. 3 and comprises one rotatable feed roller 23 with radially directed fingers 24, which in this embodiment are designed as teeth. Between these fingers 24 run endless band segments 25 extending along the feed roller 23 as a break roller further around a second break roller 10 15 20 25 30 509 852 26, in the direction of the arrow 27. The upper portions of these bands together form an inclined plane, on which algae are lifted out the water by means of the fingers 24. These fingers can have different shapes in depending on the species of algae to be collected. The slope of said plane is such that water. can run back off the belt at the same time as the algae are fed upwards past the breaking roller 26, whereby they can fall into a collection space 28. This space is separate from the surrounding water by means of a rounded wall portion 29 and side wall portions 30 (see Figs. 1 and 2) which also include bearings for the ends of the feed roller 23 and the breaker roller 26.

The algae mass partially dewatered in this way is moved laterally by means of a screw conveyor 30 out into a cylindrical end portion of the space 28. This end portion forms a connection for the hose 14, and on the other hand connection for a flushing nozzle 31, with the aid of which the algal mass is given kinetic energy in the direction of the hose. Because this kinetic energy is combined with the inclination of the hose in the direction of the intermediate storage space 21, relatively little flushing liquid is needed to transport algae mass a distance of about 20 to 30 meters with one fall on the hose by about 3 to 10 degrees.

The input head 13 according to Figs. 1 to 3 is provided with no shown connection lines for electrical energy for driving the belt 25 and the screw conveyor 30 by means of electric motors. Additional connections line is available for supplying 'pressurized water to the flushing paragraph 31.

Figs. 4 to 6 show a harvesting device according to an alternative practice of the invention. This harvesting device is intended to used below the water surface at any depth and is placed on one for the purpose e.g. one suitable base unit 10, ship. One lO 15 20 25 509 852 feed head 32 comprises two rotatable feed rollers 23 down respective parallel operating belt segments 25 and breaker rollers 26 to form a pinch for feeding algae. The input supported by pulleys with fingers 24, which are arranged on it one of the feed rollers.

The two belt units forming the feed head 32 cooperate with a conveyor 33, which further transports collected algal mass up to the base unit 10. The conveyor 33 with the input head 32 forms a unit which is handled by means of a crane arm 22 on the vessel 10.

The input head may be equipped with a TV camera for aquaculture, to facilitate remote control of the vessel 10.

As shown in Figs. 5 and 6, the conveyor 33 comprises two on each its side of a common plane working, endless bands 34, 35. A of the two bands of the feed head overlap one of the transport The belts 34, 35 are suitably liquid. permeable, e.g. made of metal mesh. The carrier's belt guide rollers 36 are preferably concave, form to between a space for algal mass, which makes it possible to move the mass without it being pressed too hard between_ = r the rollers.

The invention is not limited to those described above embodiments, but several variants are conceivable within the framework of requirement. For example, the input head 13 subsequent goods mounted directly on a vehicle that can move through a area with algae. Furthermore, the input head can be manufactured in any width, e.g. comprising two mirror-inverted heads 13 working against a common feed hose 14. The screw conveyor 30 can be replaced by other means for feeding 'algae past the belt segments. and into 509 852 the mouth of the hose 14. For this purpose, for example the rinsing nozzle 31 be arranged to flush the algae past the belt segments and into the mouth of the hose 14.

Claims (14)

10 15 20 25 30 509 852 10 PATENT REQUIREMENTS Harvesting device for receiving algae from water (13; 32), (15) by means of an feed head comprising a rotatable feed roller (23) provided with from the glove surface (24) of the roller, protruding fingers forming the label 1: d. from the fact that (23) a breaking roller for a number between (25) the feed roller (24) arranged, (26) the fingers endless belt segments running around a second breaking roller which forms a turning point for the belt segments. Harvesting device according to Claim 1, characterized in that the feed head (13; 32) is connected to a water-borne base unit (10) with a magazine (19) for absorbed algae. Harvesting device according to claim 2, characterized in that the feed head (13; 32) is movable relative to the base unit (10), and that a conveyor (14; 33) is arranged between the feed head (13; 32) and the base unit ( 10). Harvesting device according to Claim 2 or 3, characterized in that the magazine of the base unit (10) is designed as a liquid-permeable bag (19). Harvesting device according to claim 3 or 4, characterized in that the conveyor comprises one (14), which extends between the feed head (21) (10), flexible hose (13) and an intermediate storage space. at the base unit which space (21) is provided to maintain a lower liquid level than the water surface (15). lO 15 20 25 30 509 852 ll Harvesting device according to one of Claims 1 to 5, characterized in that the feed head (13) comprises a collecting space (28) which, in the position of use, is located below the second breaking roller (26). Harvesting device according to claim 6, characterized in that the collecting space (28) is separated by means of walls (29, 31) from a liquid (15) surrounding the feed head. Harvesting device according to one of Claims 5 to 7, characterized in that the feed head (13) comprises a rinsing nozzle (31) for feeding algae into the hose (14). Harvesting device according to claim 8, characterized in that it is provided with a screw conveyor (30) for feeding algae in the direction of the rinsing nozzle (31). Harvesting device according to any one of claims 5 to 9, characterized in that the liquid level in the intermediate storage space (21) is maintained by a pump, with a capacity son exceeding the supply via one or more hoses (14), feeding the algae to the magazine (19). Harvesting device according to claim 3, characterized in that the conveyor (33) comprises two adjacent conveyor belts (34, 35) operating in parallel planes, which together form a nip for transporting algae. 10 12 Harvesting device according to claim 11, characterized in that the feed head (32) comprises two adjacent feed belts (25) operating in parallel planes, which together form a pinch for feeding algae to the conveyor (33). Harvesting device according to claim 12, that one of the conveyor belts (25) (34). k à n n e t e c k n a d thereof, the conveyor belt arranged in the opposite plane overlaps Harvesting device according to any one of claims 11 to 13, (34, 35) is (36). is known from the fact that the conveyor belts are liquid-permeable and run over concave breaker rollers