RU198396U1 - SCREW PRESS MACHINE - Google Patents

Abstract

The invention relates to auger pressing equipment and can be used to remove moisture from plastic and pasty substances. The machine contains a body in the form of a truncated cone, in which a spiral conical screw is installed with a pitch of turns decreasing from the base of the cone. The auger is mounted on bearings of an angular contact type, fixed in the housing at both ends of the auger shaft. The loading hopper is made in the upper part of the body. In the lower part of the body there is an opening for moisture removal, in which a sieve is installed on the outer side of the body by means of runners, which can be replaced. The auger electric drive is installed on the side of the loading hopper. On the side of the truncated top of the cone there is an adjusting device in the form of a ball valve. The body is made with the possibility of supplying a coolant to it. As a result, the moisture content of the outgoing product is reduced. 1 ill.

Description

The invention relates to presses for squeezing bird droppings, using a screw press device, and can be used to remove moisture of plastic and paste substances.

The well-known "Press for the extraction of wet materials" (RU No. 93738, V30V 9/12), containing a cylindrical grain chamber, inside which is placed a screw with a decreasing pitch of turns, a loading hopper, a juice collector and a locking device that creates pressure in the grain chamber.

The disadvantage of this press is the unsatisfactory loss of moisture during the spin of the litter, due to slight compression of the material, due to the housing in the form of a cylinder, as well as the impossibility of changing the humidity of the squeezed material.

Known, selected as a prototype, a manual screw juicer "Motor SICH SBA-1" (https://otzovik.com/review_5743282.html), which consists of a housing made in the form of a truncated cone, a spiral cone-shaped screw, a bearing mounted on the end auger, juice collector, loading hopper, drive, adjusting device.

The disadvantage of the prototype is the lack of moisture loss during the extraction of the material, which does not allow it to be used for squeezing bird droppings in an industrial environment.

The objective of the invention is to reduce the moisture of the squeezed material.

The technical result is achieved in that the screw press machine has a case in the form of a truncated cone, in which a spiral cone-shaped screw is located with a pitch of turns decreasing from the base to the top of the truncated cone. The screw, like the machine body, has a conical shape, which allows you to create more pressure during the pressing process (pressing the material). The cone-shaped spiral screw is mounted in the housing on two angular contact bearings mounted in the housing at both ends of the screw shaft to absorb reverse axial load and fix the shaft in the axial direction.

The loading hopper is made in the upper part of the housing. A hole for removing moisture is made in the lower part of the housing, in which a sieve is installed, which is installed with the help of runners on the outside of the housing, to prevent moisture from escaping. Runners allow you to replace the sieve. The sieve is made with different diameters of the holes, which makes it possible to regulate the humidity of the pressed material. The moisture guide is located under the sieve to prevent splashing. The pressure on the squeezed material is adjusted by installing a ball-type valve at the end of the housing from the side of the truncated top of the cone.

The screw drive is made electric and installed on the side of the discharge hopper, which allows to increase the productivity of the machine.

The housing is hollow with the possibility of supplying coolant through the hole. The heating medium is supplied from the side of the ball-type valve, and its exit from the side of the loading hopper. The heat transfer of the screw press machine is based on the conductive method. The main advantage of conductive drying is its significant intensity, due to the high heat transfer coefficient between the hot surface, which is the body and the material (bird droppings), so it is quickly dehydrated [Krasnikov V.V. Conductive drying. M .: "Energy". 1973].

A possible technical result when using a screw press machine is achieved by reducing the moisture of the pressed material.

The arrangement of the screw press machine is illustrated in FIG. 1.

The device consists of: a hollow body 3, in which a spiral cone-shaped screw 4 is installed with a pitch of turns decreasing from the base of the cone, mounted on angular contact bearings 9 mounted in the housing 3, at both ends of the screw shaft; loading hopper 2, made in the upper part of the housing 3; a hole for removing moisture 8 is made in the lower part of the housing, in which a sieve 6 is fixed, mounted on the outside of the housing 3 using skids 10; moisture guide 7; an electric drive of the screw 1 mounted on the side of the feed hopper 2; adjusting device is a ball-type valve 5, made at the end of the housing 3 from the side of the truncated top of the cone.

The device operates as follows.

The source material to be processed enters the feed hopper 2. From the feed hopper 2 it enters the feed zone I, where it is compacted, then it is captured by the parts of the spiral cone-shaped screw 4, where the litter is compressed due to the case 3 being made in the form of a tapering cone. During the pressing process, moisture is extracted through the moisture removal hole 8 and through a sieve 6 mounted on the runners 10 in the housing 3. The processed material leaves the housing 3 through a ball valve 5.

The use of skids allows you to replace sieves with different hole diameters, which allows you to adjust the output of the compressible material with different humidity. Moisture guide 7 eliminates moisture spray. The rotation of the spiral screw conical shape 4 occurs due to the drive of the screw 1 and installed in the housing bearings angular contact type 9. Performing an electric drive allows you to increase the amount of processed material. In the zone of intense compression III, due to the decreasing pitch of the turns and the execution of the screw conical shape is more intense compression. In the bandwidth zone IV, due to the ball valve type 5, the force on the compressible material is adjusted, which allows you to change the humidity of the output product.

Claims (1)

A screw press machine containing a truncated cone-shaped hollow body, in which a spiral-shaped cone-shaped screw is installed with a pitch of turns decreasing from the base of the cone, a loading hopper made in the upper part of the body, and a hole for removing moisture is made in the lower part of the body, in which a sieve is installed to prevent the exit of the product, a moisture guide located under the sieve, a screw drive installed on the side of the loading hopper and an adjustment device located on the end of the casing from the side of the truncated top of the cone, characterized in that the auger drive is electric, the spiral cone-shaped screw is installed in the casing on bearings of angular contact type mounted in the housing at both ends of the screw shaft, the sieve is installed on the outside of the housing by means of runners with the possibility of replacing it, the adjusting device is made in the form of a ball type valve, and the hollow housing is configured to supply heat body.

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