SE452055B - SET AND DEVICE FOR REMOVING THE WATER FROM A LIQUID OR PASTERY MIXTURE - Google Patents

Description

452 055 In one embodiment, the axis of rotation of the container is hollow to accommodate and effectively protect the microwave generator (s).

In another embodiment, the microwave generators are enclosed in a glass tube which is arranged centrally in the lower part of the container in line with its axis of rotation.

The invention will be described in more detail with reference to the accompanying drawings, it being noted that the description given below is intended for exemplary purposes only.

Fig. 1 shows a schematic side view of a device according to the invention, the device being shown partly in cross section and with certain parts removed.

Fig. 2 shows a cross section along the section marking II - II in Fig. 1.

Fig. 3 shows a side view of a different embodiment of the object of the invention than that shown in Fig. 1, this embodiment being shown partly in cross section.

Fig. 4 shows diagrammatically from the side a preferred installation of the device according to Fig. 3 in a line for concentration and drying of a liquid mixture.

From Fig. 1 it can be seen that the device basically comprises a container 11, which is rotatable about a vertical line of symmetry which in reality consists of a hollow shaft 12. The device further comprises three microwave generators 13, 14 and 15 (generally called magnetrons) which are arranged placed in the container 11 or more precisely placed internally in the hollow shaft 12. This is held in the vertical position by means of bearings 16a and 16b in a frame 16.

In the exemplary embodiment shown, the container is essentially composed of two coaxial, convex parts 17 and 18, which are joined at their respective largest ends. The lower cone-shaped part 17 is very blunt so that it can form a receiving vessel for the mixture to be treated. The mixture is fed via a lower tube 19, which opens into the reinforced part 17 via an annular space 20 around the shaft 12.

This annular space is limited by a fixed, lower collar 21 and an upper 452 055 collar, which is made in one piece with the container and pierced by side openings, the inner diameter of the outer collar being adapted to the outer diameter of the fixed collar. A radial wall 23 is welded at its inner part in the shaft 12 and in its outer part placed between two mounting flanges 17a and 18a on the two cone-shaped parts 17 and 18, respectively. This is where the container 11 is caused to rotate. Large openings 24 in this radial wall 23 in the vicinity of its outer edge allow passage of the mixture into the upper part of the device under the influence of the centrifugal force. An upper layer 25, which is located in the upper part of the container, is limited by a sleeve 29 and improves the stability during the rotation of the container about the shaft 12.

A drive device which forms a helical screw conveyor 28 faces the inner surface 27 of the container 11 and is mounted rotatably about the same line of symmetry as that, i.e. about the shaft 12, the drive device being rotatable at a different speed. To achieve this, the device which forms the helical screw conveyor is connected to a sleeve 29 arranged on the shaft 12 which extends from the upper part of the container and which has a pulley 30 driven by a belt 31. Coupled otherwise has the container rotating device a further pulley 32, which is attached to the shaft 12 over the sleeve 29 and which is driven by another belt 33. The belts 31 and 33, which are parallel to each other, are connected to the same motor, not shown. The difference in rotational speed between the container and the device forming the helical screw conveyor can be incorporated into the construction by providing for an insignificant difference in diameter between the pulleys 30 and 32. The drive device forming the helical screw conveyor has the general shape of a cage whose longitudinal struts are joined by wings 36 extending towards the inner surface of the container and forming a spiral pattern. To slowly move the thickest parts of the mixture towards the upper part of the device during the treatment. Upper cross members 37 rigidly connect the longitudinal struts 35 to the sleeve 29 and lower cross members 37b rigidly connect the longitudinal struts to a lower mounted bearing 37 which is rotatable on the shaft 12. A device for removing the dry product is placed on it. upper part of the container. It comprises an annular container 38 which surrounds the upper part of the container 11 and a discharge tube 39 which expands the container 38. Furthermore, the container has a plurality of lateral openings 40 which are located in the vicinity of the upper 452 055 part of the device forming a helical screw conveyor 28 with these lateral openings opening into the annular container 38. Since the drive device 28 cooperates with the conical surface 27, it naturally has the same general shape. In other words, the longitudinal struts 35 are arranged at regular intervals on the mantle surface of an imaginary, truncated cone coaxial with the hollow shaft.12. This is divided into two parts where the lower part 42 encloses the axially aligned microwave generators in this part of the shaft and where the upper part 43 (separated from the part 42 by means of a closure 44) continues on the inside of the container over the frame. 16 and is provided with internal, lateral openings 45 which lead into the container so that it is possible to evacuate gases and / or steam produced during the treatment of the mixture. The tubular part 43 thus ends axially in an evacuation channel 46 which is provided with a suction device 47. The microwave generators 13, 14 and 15 are supplied electrically via lines 48 which are inserted through the lower axial end of the shaft 12. Openings 49 are made in the side of the shaft 12 in the middle of each generator and these openings are radially extended by means of hollow guides 50 (microwave conductors) in the middle of the inner surface 22 and the drive device which forms the helical screw conveyor.

The mixing works as follows: The container 11 is set in rotation and the microwave generators are electrically fed while the mixture to be treated is gradually fed into the container formed by the conical part 17 of the container 11. Under the influence of the centrifugal force the mixture moves gradually towards the base of the drive device 28. Under the influence of the helical screw conveyor, the mixture moves slowly towards the upper part of the container while the mixture is spread out to a relatively thin layer located surrounding the microwave generators 13, 14 and 15. The heat which produced by the generators will thus act with a maximum of efficiency on the mixture which is continuously divided during the feeding while at the same time being maintained in a thin layer near the inner surface 27. The steam which emits is sucked up via the openings and transported away by the channel 46 and the suction device 47. The dried product falls into the container 38 and is diverted via r Fig. 3 shows a modified embodiment of the device according to Fig. 1, in this modified embodiment the effect of the microwaves is noticeable in the entire area of the inner surface of the container so that the combined centrifugation and effect of the microwaves provides an optimal removal of water.

To achieve this, the respective hollow guide, which is arranged in the middle of the microwave transmitters, has several differently inclined guide tubes which are separated by rings with triangular cross-sections.

In the drawing, the parts which are identical to the corresponding parts in the embodiment in Fig. 1 have been given the same reference numeral, but with the addition 100.

As shown in Fig. 3, each hollow guide 150 (waveguide) has an axially funnel-shaped configuration and includes several guide tubes 150a, 150b and 150c, which are separated by rings 151 of triangular cross-sections. In addition, peripheral washers 152 are arranged between two axially adjacent guides to the shaft 112, these having, for example, hexagonal cross-sections.

Dispersion vanes 153 and 154 are arranged above and below the guides 150, near the radiating antennas.

Thus, a resonant chamber is defined between the wall 127 of the outer shell surface 111, the cross members 152 and the walls adjacent the waveguides 150. The surface sections defining this enclosure 155 are for best results made of a material reflecting the microwaves emitted by the antennas 113 and 114. These waves emitted by the antennas will thus be divided at the waveguide outlets 15Da, 150b and 150: into a plurality of wave patterns reflected with substantially no reduced strength against the wall 127, the sides of the cross members 152 and the outer sides of the guides 150 whereby the waves seeks the mixture subjected to centrifugation on the inner peripheral surface of the container in a much more regular and comprehensive and consequently more efficient manner.

It should be noted that the purpose of the rings 151 with triangular cross-sections which separate the guide tubes is to give the departing waves well-defined, oblique directions relative to the wall 127 which they will hit.

Furthermore, the rings 151 have the purpose of reflecting with their outer, substantially parallel sides with the wall 127 the waves reflected by the wall 127 so that they participate in the scattering of the waves in the mixture treated as above. 452 055 It should also be noted that all parts intended for reflecting the microwaves, in particular the guides 150, the cross members 152 and the inner wall 127 of the container must be made of a microwave reflective material such as stainless steel.

In the described embodiment, the microwave transmitters or magnetrons 113 and 114 are located internally in a glass tube 156, which is located internally in the hollow shaft 112. They may also be rotatably mounted, their power supply being provided by a unit with rotating, not shown contacts.

In order that the waves emitted by the microwave transmitters are not unnecessarily scattered outwards, grids 157 are arranged to enclose the waves in the device.

The grids are arranged in the transverse direction inside the glass tube 156 and at the distal end 143 of the hollow shaft 112.

Fig. 4 shows a possibility for inserting the device for removing water according to the invention into an installation for concentrating and drying sludge, liquid mixtures or the like. The input material is led along a line 202 to a storage or buffer tank 203, from which it is taken out at the bottom and via a pump 204 is led to a separation and thickening unit 205 with combined centrifugation and ultrasonic action. The water separated in this unit is diverted through a line 207 for possible recirculation. The outlet of the unit 205 for thick products is fed via a pump 206 to a dewatering unit 208, for example according to the invention. The dried products come out through the inclined tube 209, which ends at a belt conveyor 210. Steam is removed through another tube 211. It should be noted that the belt conveyor 210 can be replaced with a screw conveyor depending on the condition of the dried products.

The device described above can be used with great advantages in a number of applications. In the food industry, it can first and foremost be used in slaughterhouses for the recovery of blood for the purpose of producing a powder constituting a raw material which is particularly rich in protein. The same device can be used in the dairy industry for the treatment of milk serum (more well known under the name whey). In treatment plants, treatment of sludge with the device can provide raw materials for the production of biological fertilizers and / or biogas. Drying and reduction of waste products from the beet processing industry can also be carried out with a device of this type. Finally, a device according to the invention with a smaller capacity can meet a large number of needs in the pharmaceutical industry and in laboratories.

Of course, the invention is not limited to the described applications but includes any variation or modification that those skilled in the art can make within the scope of their ordinary ability.

Claims (18)

452 055 8 P A T E N T K R A V 1. Ways to dry a liquid or paste product. whereby the product is simultaneously subjected to centrifugation and microwave energy, characterized in that the product is applied at a first end of a surface and distributed over it. that the product is carried along the surface and taken out from it at a second end, whereby the microwave energy is emitted from an area which is closed by the surface. 2. A method according to claim 1. k ä n n e t e c k n a t thereof. that the product is spread over the surface to a thin layer. An apparatus for drying a liquid or pasty product comprising a rotatable container (11) for receiving the product, a microwave generator (13. 14, 15) for delivering microwave energy to the product in the container. characterized in that the container (11) is arranged to close the microwave generator (13. 14, 15), that the container at a first end has a supply device (19, 20, 24) for supplying the product and at a second end a removal device (38, 40) for receiving dried product and that a transport and distribution means (28) is arranged in the container which is arranged to move the product from the first end of the container to its second end and distribute the product over the inner surface of the container (11). Device according to claim 3, characterized in that the container (11) is arranged rotatably about a hollow shaft (12) which encloses the microwave generator (13, 14. 15). 452 055 Device according to claim 3 or claim 4, characterized in that it comprises a drive device, which forms a helically screwed screw conveyor (2B), which is arranged along the inner surface (27) of the container (11) and mounted rotatably about the same axis of symmetry with a different rotational speed, and means (38, 39) for diverting the product to be dried, a container (38) communicating with an outlet (40) in the upper part of the container (11). Device according to claim 5, characterized in that the drive device (28) is in the form of a cage which is provided with wings (36) 'which extend towards the inner surface (27) and which follow a spike. ralformat pattern. Device according to one of Claims 5 or 6, characterized in that the drive device (28) is connected to a sleeve (29) which is rotatable about the shaft (12), in that the sleeve extends to the outside of the container (11). ) and that a pulley (30) or the like is connected to the sleeve. Device according to one of Claims 4 to 7, characterized in that the hollow shaft comprises two parts, a lower part (42) which encloses at least one microwave generator, and an upper part (43) which extends to the outside of the hollow shaft. container (11) and has lateral openings (45) which open inwardly to form means For diverting gases and / or steam produced during the treatment of the mixture. Device according to one of Claims 4 to 8, characterized in that openings (49) are made in the side of the hollow shaft (12) in the middle of the generator or each generator (13, 14, 15) and that these openings are extended radially by means of respective hollow guides (50) which open in the middle of the inner surface (27). Device according to any one of claims 5 - 9, characterized in that the container (11) comprises two cone-shaped parts (17, 18) which are joined at their largest ends, the drive device (28) being arranged substantially in the middle of the inner surface of the upper cone-shaped part while the lower cone-shaped part forms a container for the mixture. 452 055 Device according to claim 9, characterized in that the hollow guides (150) for controlling the waves provided by the microwave generators have a plurality of guide tubes (150a, 150b, 150c) with different slopes and separated by rings (151) with triangular cross section. Device according to claim 11, characterized in that it further has between two wall guides (150) axially adjacent the cross members (152) and peripherally relative to the shaft (112) a resonant chamber (155) for microwaves with the wall adjacent the guides and the device inner surface (127) of the outer outer surface of the container (111). Device according to claim 12, characterized in that the cross members (152), the guides (150) and the inner surface (127), which delimit the resonant groove (155), are made of microwave-reflecting material. Device according to claim 13, characterized in that the micro-reflective material is stainless steel. Device according to one of Claims 11 to 14, characterized in that the microwave generators (113, 114) are arranged inside a glass tube (156) located inside the hollow shaft (112). Device according to claim 15, characterized in that a wave-blocking grid (157) is arranged inside the glass tube (156) across it, wherein an identical grid can finally be arranged in the opposite part (143) of the hollow shaft ( 112). Device according to any one of claims 11 - 16, characterized in that it comprises dispersion wings (153, 154) which are arranged axially next to the guides (150). Device For carrying out the method according to claim 1, characterized in that it is used in a concentration and drying plant for liquid mixtures comprising a separation and thickening unit operating with centrifugation and ultrasound (205).