SU899080A1 - Press filter for dewatering wet vegetable raw material - Google Patents

Description

I

The invention relates to a device for separating a liquid phase from vegetable raw materials and is recommended for use in agricultural production, preferably for separating juice from a potato porridge.

A device for reducing the moisture content of cement raw material sludge is known, which contains filter belts made in the form of two endless conveyors, envelopes drums, vacuum chambers with roller drains, blow-off chambers with perforated drains, and a feed hopper l.

However: a known device under the action of only a vacuum phase of the liquid phase could not achieve a significant decrease in humidity.

The closest to the proposed technical essence and the achieved result is a filterpress containing two vertical

infinite filter belts, envelopes of drums, vacuum chambers with pneumatic chambers and roller drains located inside them, loading hopper and drive mechanism. The filter belts have rims of elastic material around the edges that prevent the suspension from pouring over the ribbons edge.

However, the limiting total force of pressure on the drainage rollers that pneumatic chambers can develop is limited by the attractive force of the vacuum chamber and is equal to the product of the area of the normal projection of the vacuum chamber and the degree of vacuum in it. The pressure forces created by the pneumatic chambers, which are in total equal to or greater than the attractive force of the vacuum chamber, lead to the sealing of the vacuum chamber and, as a result, to the impede dehydration process.

In addition, this device has a narrow range of created adjustable compressive forces on the drainage rollers to achieve the maximum degree of dehydration of various plant materials, as well as the fact that a compressed air pressure regulator is required in the supply line of each pneumatic chamber. This does not exclude the extrusion of the dehydrated mass towards the inlet and outlet of the filter press.

The purpose of the invention is to increase the degree of dehydration of vegetable raw materials.

The goal is achieved by the fact that the filter press containing two vertical endless belts, envelopes drums, vacuum chambers with pneumatic chambers and roller drains located inside them, a loading hopper and a drive mechanism is equipped with an additional conveyor with elastic jumpers, and pneumatic chambers are equipped with membranes of the same size and overall frame, with the smaller area of the membrane connected to the GS roller drainage, and a larger area of the membrane installed on a common frame.

It is advisable to install the vacuum chambers with the possibility of moving relative to the common frame in the direction perpendicular to the flow of the raw material, and the filter belts at the points of abutment of the lateral branches of the conveyor should be perforated.

Preferably, the membranes of the pneumocameras of a smaller area are designed with dimensions increasing successively from top to bottom, and the pneumocameras are equipped with a common pneumatic actuator.

The formation of pneumatic chambers from unequal membranes in the presence of a common frame, on which conveyor belts with filter belts are also mounted, makes it possible to significantly increase the external mechanical pressure of the roller drainages on the wringing chamber, forming filter belts and an additional conveyor. Moreover, any overpressures in the pneumocameras do not lead to the separation of the vacuum chambers from the filter belts, since due to the resilience of large elastic membranes into the frame, forces equal to the products of the difference in membrane areas and the magnitude of the overpressures in the pneumatic chambers and additionally with suction forces press them to the filter belts.

In addition, the pneumatic chambers are arranged in series with the increase in the size of the membranes of a smaller area from top to bottom and are connected by a common pneumatic actuator, which allows one control device of the supplied compressed air

get an increase in the clamping effort of roller drains on the cameras pressed as they move to the exit of the filter press.

The presence of perforations in the filter belts in the places adjacent to the lateral branches of the conveyor provides for sealing the wringing chamber, and eliminating the extrusion of the dehydrated raw materials along the filter

Q ribbons are provided by the presence of elastic cross conveyor bridges.

Taken together, the creation of roller drainage that is regulated in a wide range of clamping forces on the pressure cells and preventing the extrusion of raw materials from the dewatering zone allows for a high degree of dehydration.

Fig. 1 shows the filter press, general view; in fig. 2 shows a conveyor and filter belt of a conveyor, a general view, in FIG. 3 is a section A-A in FIG. one.

The filter press consists of a loading hopper 1 and two endless filter belts 3 mounted on a rigid common frame 2, rubber conveyor k, vacuum chambers 5 with roller drains 6 and pneumatic chambers 7.

The conveyor belt 4, which is synchronously moving with conveyor belts, consists of side rubber branches 8 of an M-shaped profile and V-shaped rubber jumpers 9. Filter belts are made of metal mesh 10 and filter cloth 11 connected at the edges with metal belts 12 and rubber shoulders

0 13. Tapes 12 and flanges 13 have perforations for the teeth of the driving and driven drums and for communication with the vacuum chambers 5. For sealing the side slots

5 vacuum chambers 5 are mounted seals 15, and for sealing the inlet and outlet slits - rollers 1b with bypass covers.

Each pneumatic chamber 7 is formed by two elastic membranes 17 and 18 and the housing 19 of the vacuum chamber 5 and are interconnected by a common pneumatic actuator 20. The membranes 18 are connected and interact with the frame 2, and the membranes 17 are connected to roller drains 6. In addition, the membranes 17 are made different sizes of areas and are installed on the case of the vacuum chambers sequentially increasing their area dimensions from top to bottom.

The filter belts 3 are equipped with a drive (not shown, and the vacuum chambers and pneumatic chambers have a message with vacuum and compressed air. Injectors 21 are provided for water regeneration.

Filter press works as follows.

From the hopper 1, the shredded vegetable raw material enters the chambers formed by the filter belts 3 and conveyor k. The liquid phase in the zone of the vacuum chambers 5 is sucked from both sides and, moreover, is pressed out of the chambers under the action of the approaching roller drains 6, which at atmospheric pressure in the pneumatic chambers 7 are pressurized with a force proportional to the product of the degree of different Ages in vacuum chambers and squares .e. asymmetric membranes 17- To obtain a higher degree of dehydration. Air is compressed into pneumatic chambers. Pressure in pneumatic chambers 7 is transferred through membranes 17 on roller drains {and 6, which additionally squeeze liquid from vegetable raw materials enclosed in squeeze chambers formed by filter belts 3 and additional conveyor 4 with elastic cross bridges 9- As a result of the implementation of the membranes 17 with different areas, the additional pressure of the roller drains on the raw materials in the squeeze chambers increases as it moves from top to bottom, at which air pressure r All pneumatic chambers same.

The connection of the vacuum chambers by means of membranes with a common frame allows the vacuum chambers to move perpendicular to the direction of movement of the pressed raw material and thereby prevents the vacuum chambers from depressurizing.

The extrusion of crushed plant mass at high pressures of roller drains in the zone of convergence of filter belts is prevented by jumpers 9 of the conveyor belt k. In the area of the vacuum chambers, the planes of the side branches 8 of the conveyor 4 stick to the rubber beads 13 of the filter belts, and the branches 8 and the lintels 9 are compressed and hold the dried mass in the spin chambers as the filter belts come together.

The liquid phase is withdrawn from vacuum chambers 5 through vacuum channels,

and the dry mass is removed from the press by a conveyor.

The regeneration of the filter belts of the conveyors is carried out by the water supplied by the nozzle 21.

The proposed filter press design allows for dewatering of fluid high-moisture suspensions from plant material.

The application of the invention allows

dewatering of vegetable raw materials in a wide range of operating controlled external pressures in combination with vacuum suction and allows an increase in output by 20-25%

liquid phase. Deeper dehydration of vegetable raw materials during the subsequent drying of sediment in feed processing lines with mechanical dewatering leads to significant

reduced fuel consumption. Only by reducing fuel consumption can be saved from 1 to 3 rubles. per ton of processed plant materials.

The filter press can be used in agriculture for the production of fodder with mechanical dewatering and in other industries where it is necessary to extract the liquid phase from vegetable raw materials.

Claims (3)

Invention Formula Drainage filter press 50 moist plant materials containing two vertical endless ribbons, envelopes of drums, vacuum chambers with pneumatic chambers and roller drips located inside them, loading hopper and drive mechanism, characterized in that in order to increase the degree of dehydration, it is equipped with an additional conveyor belt with elastic jumpers , and pneumocameras are equipped with membranes of different sizes and a common frame, while smaller membranes are connected to roller drains, and larger membranes are installed on a common frame. 2. Filter press according to claim 1, which is that the vacuum chambers are installed with the possibility of moving relative to the common frame in the direction perpendicular to the flow of raw material, and the filter belts are perforated at the points where the side branches of the conveyor are attached. go 990808 3. Filter press according to claim 1, that is, the fact that the membranes of the pneumatic chambers of a smaller area are made with. dimensions increasing consistently from top to bottom, and pneumocameras are equipped with a common pneumatic duct. Sources of information, 10 taken into account in the examination 1. USSR author's certificate No. 476010, cl. B 01 D 33/1, 1973. 15 2. USSR author's certificate No., cl. B 01 D 33 / D, 1976.