RU87386U1 - SCREW PRESS FOR REMOVING LIQUID FROM PRODUCTS (OPTIONS) - Google Patents

Abstract

1. A screw press for removing liquid from the product, including a housing with a screw shaft installed in it, kinematically connected with a drive for its rotation and a cowl mounted on its end, a funnel mounted on the housing for feeding the product into the housing cavity, and also a mechanism for separating the product into solid and liquid phases, having outputs for solid and liquid phases, characterized in that the separation mechanism is made in the form of two plates with holes, one of which is connected to the housing, and the tap for solid In the form of a funnel, a pack of compression rings is placed between the plates, elastically pressed to each other by spring-loaded studs mounted on the plates and spanning the rings, the screw shaft has the possibility of axial reciprocating movement and passes through the holes of the plates and rings, and its fairing placed in the funnel of the removal of the solid phase. ! 2. A screw press for removing liquid from a product according to claim 1, characterized in that the mechanism of reciprocating movement of the screw shaft is made in the form of a roller in contact with one of the turns of the screw. ! 3. A screw press for removing liquid from the product according to claim 1, characterized in that the compression rings on one side have a bevel at an angle of 5-30 ° to the side plane of the ring. ! 4. A screw press for removing liquid from the product according to claim 1, characterized in that in the packet of compression rings each odd compression ring has an abutment on the outer generatrix that contacts the studs during operation of the press to limit the rotation of the rings. ! 5. Screw press for removing liquid from the product according to claim 1, from�

Description

A group of utility models relates to equipment for removing liquid from products and can be used in winemaking, agriculture, food industry, in waste processing to separate the processed products into liquid and solid phases.

The claimed group of utility models relates to devices of the same type, of the same purpose and providing the same technical result.

Known screw press for dehydration of green mass of plants, containing a perforated cylindrical body with a loading neck. In the housing there is a pressing screw, on the turns of which in the zone of the loading neck with a displacement relative to each other placed vanes in the shape of a triangle. At the end of the pressing screw there is a locking device, the working position of which is regulated by the hydraulic cylinder.

During the operation of the screw press, the chopped green mass of plants enters the loading neck, which is distributed in the inter-turn space of the rotating screw. Further, the mass is captured by the blades and evenly distributed in the inter-turn space between the turns of the screw. The locking device is periodically actuated by the hydraulic cylinder, which, moving towards the loading neck, compresses the mass, squeezing juice out of it flowing into the receiving container, and the pulp is removed through the locking device.

(see RF patent No. 2147992, CL B30B 9/12, 2000).

As a result of the analysis of the design of this screw press, it should be noted that it is characterized by low productivity, as it is a batch device, and a low product yield.

Known screw press for extracting juice from plant materials, containing a frame on which a loading hopper with a perforated groove is installed. A perforated drum adjoins the end of the hopper with a screw located in it, having a main and additional turns. One end of the auger is connected to the drive of its rotation, and at the other end it is located a pressing pressure regulator made in the form of a conical fairing. In the lower part of the press, under the trough and drum, a juice collector is placed.

During the operation of the press, raw materials (for example, the pulp of crushed apples or berries) come from the hopper into the inter-turn space of the screw, to which the rotation movement is communicated through the drive. Free juice flows by gravity through the perforation of the trough into the juice collector. In the drum, a rotating screw extrudes the pulp with the extraction of juice, which is removed through the perforation of the drum into the collector. The final stage of pressing is carried out in the space between the end of the rod and the pressure regulator, which is the pressing chamber. The pulp enters the pressing chamber in the form of a spiral strip formed by the main and additional turns of the screw. The chamber creates the greatest pressing pressure. Squeezed juice is fed into the collection tank, and the mass is sent to the waste receiver.

(see RF patent No. 2065871, class C12G 1/02, 1996) - the closest analogue.

As a result of the analysis of the design of this screw press, it should be noted that this design reduces the energy consumption for pressing, the introduction of an additional screw allows loosening the squeezed mass and increasing the yield of the free liquid component, however, this design does not provide a high yield of the liquid phase.

The technical result of this utility model is the development of a group of devices that provide continuous and effective removal of fluid from products with an initial fluid content of 80% to a fluid content of not more than 50% (1 option) and with an initial fluid content of 81-96% to a fluid content of more than 50% (2 option).

The specified technical result is ensured by the fact that in a screw press for removing liquid from the product, including a housing with a screw shaft installed in it, kinematically connected with a drive for its rotation and a cowl mounted on its end, a funnel mounted on the housing for feeding the product into the cavity of the housing, and also a mechanism for separating the product into solid and liquid phases, having outputs for solid and liquid phases, new is that the separation mechanism is made in the form of two plates with holes, one of which is connected van with a housing, and on the other a branch for the solid phase is made, made in the form of a funnel, a packet of compression rings is placed between the plates, elastically pressed against each other by spring-loaded studs mounted on the plates and spanning the rings, the screw shaft is able to axially reciprocate and passes through the holes of the plates and rings, and its fairing is placed in the funnel of the outlet of the solid phase, and the mechanism of reciprocating movement of the screw shaft is made in the form of a roller, the contact of the screw with one of the turns of the screw, the compression rings on one side have a bevel at an angle of 5-30 ° to the side plane of the ring, in the packet of compression rings each odd compression ring has a stop on the outer generatrix, which contacts the studs during operation of the press, the holes of the compression rings have the shape of a circle or a polygon.

In the second embodiment, the press is equipped with a device for primary separation of the liquid phase, made in the form of a housing, inside which a sieve with cells made in the form of a truncated cone is fixed, on the upper part of the sieve there is tangent to the surface of the sieve the product supply pipe inside the sieve, with the sieve in the lower part It is connected with a conical pipe whose outlet is located in a loading funnel.

The essence of the utility model is illustrated by graphic materials on which:

figure 1 presents a diagram of a screw press for removing liquid from products;

figure 2 - the implementation of compression rings;

figure 3 - the implementation of the spring-loaded clutch;

figure 4 - the device is the primary separation of the liquid phase (option).

The press for removing liquid from the products contains a shaft 1 with turns of a screw 2, (a screw shaft) kinematically connected with a drive 3 of its rotation. The screw shaft with the screw is placed in a tubular body 4, the cavity of which is connected to the loading funnel 5. The press is equipped with a mechanism for separating the liquid phase of the product from the solid (pressing mechanism). This mechanism is made in the form of a housing 6, with an outlet pipe 7 in its lower part for removal of the liquid phase of the product. End plates 8 and 9 having openings are installed on the housing, compression rings 10 are placed between the plates, inside which a screw shaft passes. End plates and compression rings are tightened together by studs 11, spring-loaded elastic elements 12 and covering the compression rings. The end plate, left in the plane of the drawing, is connected to the housing 4. On the other plate there is an outlet 13, made in the form of a funnel.

At the free end of the shaft 1 (right in the drawing plane), a fairing 14 is installed, made in the form of a truncated cone located inside the funnel 13. The compression rings 10 on one side have a bevel 15 at an angle of 5-30 ° to the side surface of the ring. Moreover, each odd ring has on the outside the stops 16 in contact during operation of the press with the studs 11 and provide a restriction on the rotation of the odd rings. The opening of the compression rings may be in the form of a circle or polygon 17.

The press contains placed in the housing 18, a spring-loaded coupling, made as follows. Inside the housing 18, the end of the shaft 1 is introduced and the shaft 19 is aligned with it. The shafts 1 and 19 can be considered as a prefabricated screw shaft. The shaft 19 can also be considered as an output element of the drive 3 of the rotation of the shaft 1. Fundamentally, the design does not change from this. A strap 22 is fixed at the end of the shaft 19, and a strap 23 is fixed at the end of the shaft 1. The straps are connected to each other by spring-loaded elastic elements 20 by the pins 21. The coupling provides elastic axial reciprocating movement of the shaft 1 relative to the shaft 19. The law of movement is set by a turn of the screw 2, in contact with the thrust roller.

In the second version of the press, a primary separator of the liquid phase is installed above its loading funnel 5, having a housing 24, inside which a sieve 25 with 0.2-3.0 mm mesh, made in the form of a truncated cone, is installed. In the upper part of the sieve 25, a product inlet pipe 26 is tangentially installed, and the housing of the primary liquid phase separator in the lower part has a drain pipe 27 for removing the liquid phase. The lower part of the sieve is paired with a conical pipe 28, which emerges from the lower part of the housing 24 and its lower cut is placed in the loading funnel 5.

The thrust roller in contact with the turn of the screw 2 is indicated by 29.

The work of the screw press is as follows.

The product from the loading funnel 5 is fed into the cavity of the housing 4, where it is captured by a screw rotating from the drive 3 and the screw turns 2 are transferred to the mechanism for separating the liquid phase from the solid. When the screw shaft rotates due to contact with the thrust roller 29, the screw shaft makes axial reciprocating movements, that is, it moves forward along the axis (to the right in the drawing plane) when the incident part of the surface of the screw coil is in contact with the roller 29, while the springs 20 are stretched , and moves back (to the left in the drawing plane) along the axis due to compression of the springs 20 of the coupling 18, when the retreating part of the surface of the auger coil is in contact with the roller 29. Due to this, a pulsating pressure is created in the separation device on the product, as a result of which the liquid squeezed out of the product passes between the compression rings 10 and is removed through the nozzle 7, and the solid part of the product is squeezed out by the screw through the outlet 13. The pulsation of pressure on the product allows more efficient separation of the liquid from the solid phase and is created due to the reciprocating movement of the screw and fairing 14 in the funnel 13.

The effect of pressure pulsation on the product increases due to a change in the gap between the funnel 13 and the cowl 14 with simultaneous rotation and reciprocating movement of the screw. The polygonal shape 17 of the holes of the compression rings 10 also enhances the effect of pressure pulsation on the product by changing the resistance to the liquid outlet between the rings during their rotation and the rotation of the screw. The bevels 15 of the compression rings 10 create a filter layer of the solid part of the product, which reduces the removal of small solid particles with liquid.

During the operation of the press according to the second embodiment, the product supplied by the pump through the pipeline with a liquid content of 81-96% through the nozzle 26 is tangentially fed under pressure into the cone sieve 25, while the product receives a rotational movement along the surface of the sieve and the product is pressured on the sieve. Due to this pressure, part of the product liquid passes through a sieve 25 and drains into the lower part of the housing 24, from where it is removed from the primary liquid separator through a pipe 27. The solid product inside the sieve 25 under its own weight through a conical pipe 28 is lowered into the feed hopper 5 of the screw press to further remove the liquid. Further removal of liquid from the product is carried out in the manner described above.

The efficiency of the press in the first embodiment was tested on a mixture of shredded paper and sludge from wastewater treatment. The moisture content of the mixture was 80%, the particle size distribution of the solid part was 0-10 mm. With the continuous supply of the specified product with a productivity of 150 kg per hour to the press, a product with a moisture content of 40-45% was obtained at the outlet of the outlet window. These results are quite high. Moreover, the cost of continuous dehydration of the product was two times lower than with dehydration of such a product in known devices.

The efficiency of the press according to the second option was tested on pig manure, the moisture content of which was 94-96%. With a continuous supply of 3 m ³ / h of manure to the primary liquid separation device, a solid product with a moisture content of 78% was obtained, which was supplied to the screw press, where another part of the liquid was removed. At the same time, a solid product with a moisture content of 45-49% was obtained at the exit from the screw press. In this case, the cost of continuous dehydration of the product was 1.8 times lower than by known solutions.

Claims (10)

1. A screw press for removing liquid from the product, including a housing with a screw shaft installed in it, kinematically connected with a drive for its rotation and a cowl mounted on its end, a funnel mounted on the housing for feeding the product into the housing cavity, and also a mechanism for separating the product into solid and liquid phases, having outputs for solid and liquid phases, characterized in that the separation mechanism is made in the form of two plates with holes, one of which is connected to the housing, and the tap for solid In the form of a funnel, a pack of compression rings is placed between the plates, elastically pressed to each other by spring-loaded studs mounted on the plates and spanning the rings, the screw shaft has the possibility of axial reciprocating movement and passes through the holes of the plates and rings, and its fairing placed in the funnel of the removal of the solid phase. 2. A screw press for removing liquid from a product according to claim 1, characterized in that the mechanism of reciprocating movement of the screw shaft is made in the form of a roller in contact with one of the turns of the screw. 3. A screw press for removing liquid from the product according to claim 1, characterized in that the compression rings on one side have a bevel at an angle of 5-30 ° to the side plane of the ring. 4. A screw press for removing liquid from the product according to claim 1, characterized in that in the packet of compression rings each odd compression ring has an abutment on the outer generatrix that contacts the studs during operation of the press to limit the rotation of the rings. 5. A screw press for removing liquid from a product according to claim 1, characterized in that the openings of the compression rings are in the form of a circle or a polygon. 6. A screw press for removing liquid from the product, including a housing with a screw shaft installed in it, kinematically connected with a drive for its rotation and a cowl mounted on its end, a funnel mounted on the housing for feeding the product into the housing cavity, and also a mechanism for separating the product into solid and liquid phases, having outputs for solid and liquid phases, characterized in that the separation mechanism is made in the form of two plates with holes, one of which is connected to the housing, and the tap for solid In the form of a funnel, a pack of compression rings is placed between the plates, elastically pressed against each other by spring-loaded studs mounted on the plates and spanning the rings, the screw shaft has the possibility of axial reciprocating movement and passes through the holes of the plates and rings, and its fairing is placed in the funnel of the removal of the solid phase, while the press is equipped with a device for primary separation of the liquid phase, made in the form of a housing, inside which is made made in the form of a truncated cone a sieve with cells, on the upper part of the sieve, a product supply pipe is inserted tangentially to the surface of the sieve inside the sieve, while the sieve in the lower part is conjugated with a conical pipe, the outlet of which is placed in a loading funnel. 7. A screw press for removing liquid from a product according to claim 6, characterized in that the mechanism of reciprocating movement of the screw shaft is made in the form of a roller in contact with one of the turns of the screw. 8. A screw press for removing liquid from the product according to claim 6, characterized in that the compression rings on one side have a bevel at an angle of 5-30 ° to the side plane of the ring. 9. A screw press for removing liquid from a product according to claim 6, characterized in that in the packet of compression rings each odd compression ring has an abutment on the outer generatrix contacting the press with studs during operation of the press to limit the rotation of the rings. 10. A screw press for removing liquid from a product according to claim 6, characterized in that the openings of the compression rings are in the form of a circle or a polygon.