BG3758U1 - Press for cold pressing of seeds - Google Patents

Abstract

The utility model refers to a press for cold pressing oilseeds. The press has a housing (1) with longitudinal slotted channels (2). In the front part of the housing there is an inlet opening (3), and in the middle part there are outlet openings (5) for the pressed oil. The housing has an auger (6) with a front (7) and a press nozzle (17), consisting of a cylindrical part (18) shaped like a multi-pass auger and a conical part (19). The press includes a press head (8) with a central hole (9) and a nozzle (14) with a nozzle hole (15) passing into an outlet hole (16). There are radial triangular slots (11) in the front of the press head (8). The generators k1 and k2 of the nozzle opening (15) and the conical part (19) form angles alfa and beta with the O axis, respectively, such as alfa > beta. A cylindrical part (18) is in the central hole (9) and the front part of the nozzle hole (15), and the conical part (19) is in the rear part of the nozzle hole (15) and the front of the outlet hole (16).

Description

Field of technology

The utility model refers to an auger press for cold pressing of oilseeds, which is used for the production of vegetable oils.

BACKGROUND OF THE INVENTION

WO 2013/135303 discloses an auger press for cold pressing of oils, comprising a cylindrical body in which an auger is housed for moving and pressing oilseeds from which the oil is extracted. In the front upper part of the housing there is an opening with a buffer container for loading the seeds. Between the filling hole and the rear end of the housing there is an area with holes in the housing for draining the pressed oil. From the inner wall of the hull in this area there are longitudinal grooves. Between them and the end of the housing there are longitudinal slotted channels, the width of which increases in the direction of the end of the housing. A rounded face is formed at the rear end of the auger, and a press head with a central hole and a front face sloping towards the central hole are coaxially opposite it. The known press also includes a nozzle with a nozzle opening passing into an outlet for removing the solid residue. The oil seeds introduced through the loading opening fall on the auger, which transports them forward, pressing them against the inner wall of the housing, as a result of which part of the seeds is crushed and / or cut in contact with the edges of the channels formed in the housing. The material passes between the forehead of the auger and the press head, whereby part of the oil is pressed. As the pressure in this zone is higher, the pressed oil is returned back through the slotted channels and through the porous seed mass to the zone for removing the oil from the housing, and the seed mass enters in the form of a thick thick pasta in the nozzle where the actual pressing. Due to the thickness of the layer and the high density of the material, much of the oil pressed into the nozzle cannot be returned to the discharge zone, despite the pressure difference and remains in the solid residue, which reduces the yield. Productivity is also low. For example, with a standard sunflower with an oil content of 42%, the yield of the known press is 28-30%, with a productivity of up to 50-70 kg / h.

Even lower are the indicators when pressing hard seeds, such as rosehip seeds, for example, because most of the seeds cannot be cut and broken and remain whole in the solid residue. The yield of rosehip seeds with an oil content of 4.8-7% is 1% -1.3% at a productivity of 50-70 kg / h.

The low yield and productivity of the known press reduces the profitability of the process and increases the cost of the pressed oil. Separately, the increased oil content in the solid residue reduces its shelf life and makes it difficult to absorb.

Technical essence of the utility model

The task of the utility model is to create an auger press for cold pressing of all types of oilseeds, including high hardness seeds, which have high productivity and yield, provide low temperature of pressed oil and low fat content of the solid residue and are easy to service.

This problem is solved by creating a press for cold pressing of oilseeds, including a cylindrical housing with an axis O. On the inside of the housing there are longitudinal slotted channels. An inlet is provided in the front of the housing, in which a seed buffer container is discharged. Drain holes are provided in the middle of the housing, through which the pressed oil is removed from the press. An auger with a rounded forehead is housed in the housing. Attached to the housing is a fixed press head, representing a solid cylinder with a central hole and a front face located coaxially against the front of the auger. In the front face of the press head are formed triangular spokes with a triangular cross section, which protrude radially from the central hole and are symmetrical to it, and the tips of the triangular spokes lie next to the outer wall of the press head. The press also includes a nozzle with a nozzle opening, passing into an outlet for removing the solid residue. The nozzle orifice and the outlet orifice are in the shape of a truncated circular cone with a common

4519 Descriptions to utility registration certificates № 07.2 / 31.07.2020 small base. The forming k of the nozzle opening concludes <a with the axis of the housing. Attached to the auger face is a press nozzle that includes a cylindrical portion housed in the central bore of the press head and the front of the nozzle bore, and a conical portion located at the rear of the nozzle bore and the beginning of the outlet bore. The cylindrical part of the press nozzle is shaped like a multi-pass auger, and the conical part - like a truncated circular cone. The forming k ₂ of the conical part of the press nozzle concludes 4 β with the axis of the housing, as <β is less than <a. Between the nozzle opening and the conical part of the press nozzle there is a conical gap with width b, which decreases in the direction of the narrowest part of the nozzle opening.

Preferably, the triangular slots are between 3 and 8 in number. In one embodiment, the triangular slots are 4.

Preferably, the oil outlets are located close to the inlet.

In a preferred embodiment, the outlets are located transversely to the wall of the housing 1 and have the shape of a truncated cone, the small base of the cone lying in the middle of the longitudinal slotted channels and the large base on the outer surface of the housing. The diameter d ₍ on the small base can be in the range 0.5 + 1.5 mm, and the diameter of the large base d ₂ in the range 1.5 + 2.5 mm. Preferably f = 1 mm, ad ₂ = 2 mm.

Preferably it is 15 ° <a <25 °

Preferably <β is from 2 ° to 3 ° greater than <a.

Preferably, the width of the conical gap b in the narrowest part of the nozzle opening is in the range of 0.5 mm to 1.0 mm.

In a preferred embodiment of the press, according to the utility model, the press nozzle is attached to the auger by means of a detachable screw connection.

The advantages of the press for pressing oilseeds according to the utility model is that it has high productivity and provides high yield at low temperature of the pressed oil. In addition, the press is effective for all types of seeds, incl. and in the case of high-hardness seeds, such as rosehip seeds. The solid residue has a low residual oil content, which facilitates its storage and utilization. The press, according to the utility model, is easy to maintain and readjust from one type of oilseed to another and does not require special qualification of service personnel.

Explanation of the attached figures

Figure 1 is a schematic longitudinal half-section of an exemplary embodiment of a press according to the utility model;

Figure 2 is a cross-sectional view of the housing according to AA of FIG. 1;

Figure 3 is a front view of the press head;

Figure 4 is a cross-sectional view of the press head along B-B of Figure 4;

Figure 5 is an enlarged view of the rear of the press of fig. 1.

Figure 6 is a diagram of the pressure in the individual zones of the press.

Examples of implementation of the utility model

In FIG. 1-6, a preferred embodiment of an oilseed press according to the utility model is illustrated. The press includes a horizontally arranged cylindrical housing 1 with a longitudinal axis O. Longitudinal slotted grooves 2 are formed on the inner side of the housing 1. In the front upper part of the housing 1 an inlet 3 is provided, in which a seed buffer vessel 4 is discharged. Drain holes 5 are formed near the inlet 3 in the housing 1, through which the pressed oil is drained outwards. In this preferred embodiment, the outlets 5 are arranged transversely to the wall of the housing 1 and have the shape of a truncated circular cone, the small base of the cone being in the middle of the longitudinal slotted channels 2 and the large base being on the outer surface of the housing 1. In the housing 1 shows an auger 6 which is connected to an electric motor by a gear unit (not shown in the figure). The auger 6 has a rounded face 7. A press head 8 is arranged opposite the front 7 of the auger 6, representing a solid cylinder with a central hole 9 and a front face 10. In the front face 10 of the press head 8 are formed triangular slots of triangular cross section. Triangular slots 11

4520 Descriptions of utility registration certificates № 07.2 / 31.07.2020 protrude radially from the central hole 9 and are symmetrical to it, their tips lying to the outer wall of the press head 8. In this preferred embodiment, the triangular spokes are four. The press head 8 is fixed to the housing 1 by a front flange 12. A nozzle holder 13 is arranged in the front flange 12, in which a nozzle 14 with a nozzle opening 15 is mounted, passing into an outlet opening 16 for removing the solid residue. The nozzle orifice 15 and the outlet orifice 16 are in the form of truncated circular cones with a common small base. The forming C of the nozzle opening 15 concludes with the longitudinal axis O of the housing 1. To the front 7 of the auger 6 by means of a detachable screw connection is connected a press nozzle 17, which consists of a cylindrical part 18 formed as a multi-pass auger and a conical part 19. , which is in the shape of a truncated circular cone. The cylindrical part 18 is placed in the central hole 9 of the press head 8 and the front part of the nozzle hole 15, and the conical part 19 is located in the rear part of the nozzle hole 15 and the front part of the outlet 16. The forming k ₂ of the conical part 19 of the press nozzle 17 concludes with the longitudinal axis O of the housing 1 <β, which is 2-3 ° smaller than <a, as a result of which between the conical part 19 and the nozzle opening 15 there is a conical gap with width b, which decreases by direction of the narrowest part of the nozzle opening 15.

In 72-hour samples of a press, according to this exemplary embodiment, driven by a 15 kW electric motor at a raw material temperature of 15%, the following results were obtained:

For standard sunflower seeds with an oil content of 42%:

- yield 39%;

- temperature of the pressed oil 28 ° С;

- productivity 400 kg / h.

For rosehip seeds with an oil content of 6%:

- yield 3%;

- temperature of the pressed oil 30 ° С;

- productivity 100 kg / h.

Using the utility model

The press can be conditionally divided into several zones from the point of view of the work processes taking place in them, as shown in fig. 6.

Zone A covers the section from the inlet 3 to the end of the outlets 5. The oilseeds are placed in a buffer vessel 4, from where they enter the housing 1 through the inlet 3 and fall on the auger 6. The quantity of seed in the buffer vessel 4 must provide at least 800 -900 mm seed post on the inlet 3. As it rotates, the auger 6 entrains the seed mass and transports it to the rear end of the housing 1 by repeatedly loosening it at low pressure, which makes the seed mass porous. As it moves forward, the seeds are pressed against the edges of the forks of the auger 6 and against the longitudinal slotted grooves 2 formed on the inside of the housing 1, as a result of which some of the seeds are crushed and / or cut and the pressed oil passes through the porous seed mass and exits through the outlets 5 with a temperature close to that of the raw material.

Zone B covers the area between the extruded oil discharge zone where the outlets 5 and the end of the auger 6 are located. The pressure in this zone is higher than in zone A, increasing smoothly towards the end of the auger 6, where reaches values of about 50 bar. In this area the crushing, cutting and crushing of the seeds continues. The seed mass is porous, as it is subjected to repeated loosening by the auger 6 and has a low temperature, as the pressure is low in this area - up to about 50 bar. The oil pressed in this zone is returned through the porous seed back, where the pressure is lower, and leaves the housing 1 through the outlets 5. As it passes through the porous mass, the pressed oil is filtered and cooled to a temperature close to the incoming raw material.

Zone C comprises the area between the auger head 7 and the front head 10 of the press head 8. The seed mass expelled from the auger 6 enters the space between the auger head 7 and the front head 10 of the press head 8, where it is subjected to repeated sequential pressing. in thin

4521 Descriptions to utility registration certificates № 07.2 / 31.07.2020 a layer of about 1 -2 mm and loosening of the triangular slots 11 located radially in the front face 10 of the extruded head 8. The pressure in this section increases sharply to about 300 bar. When pressed into the edges of the triangular slots 11, the seeds that have remained intact are cut and / or crushed. The oil pressed in this zone is returned in countercurrent to zone A, where it is filtered and cooled through the discharge openings 5.

Zone D covers the section from the beginning of the central hole 9 of the pressing head 8 to the middle of the nozzle hole 15, which houses the cylindrical part 18 of the press nozzle 17. Upon passing through this section, the material is repeatedly loosened by the cylindrical part 18 on the press nozzle 17 and retains its porosity. The pressure in this zone rises to about 400 bar at the end of the zone, the temperature of the material also rises. The remaining whole seeds are pressed against the edges of the forks of the multi-pass auger and cut and / or broken. The pressed oil is returned in countercurrent to the outlet openings 5, through which it is filtered and cooled.

Zone E covers the section from the end of the cylindrical part 18 of the press nozzle 17 to the end of the nozzle opening 15. The material passes into the gap between the nozzle opening 15 and the conical part 19 of the press nozzle 17, which narrows towards the end of the nozzle opening 15. this zone the pressing continues in a thin layer of 0.3 to 0.5 mm at high pressure, which reaches about 700 bar at the end of the nozzle opening 15, where the gap is the smallest. Due to the small thickness of the layer and the large difference in pressure, the pressed oil passes in countercurrent back to zone D and from there through the porous seed mass reaches the outlet openings 5, through which it is filtered and cooled to a temperature of 20 - 40 ° C depending on the raw material temperature. .

Zone F covers the area of the outlet 16. The solid residue enters the outlet 16 in the form of a thin-walled hose, which is sprayed when leaving the outlet 16, because the oil content in it is very small.

The press can operate in continuous operation for 11 months, after which the press nozzle must be replaced, which due to high friction wears out faster than other parts of the press.

The press can press all types of oil-bearing seeds, and depending on the hardness of the seed, the motor speed changes.

The service of the press is easy and does not require special qualification of the staff.

Claims (10)

Claims A press for cold pressing of seeds, comprising a cylindrical housing (1) with an O axis with longitudinal slotted grooves (2) on the inner side of the housing (1), with an inlet opening (3) provided in the front part of the housing (1) with a seed buffer container (4) discharged in it, and in the middle part of the housing (1) are provided drainage holes (5) for draining the pressed oil, as in the housing (1) is placed an auger (6) with a rounded forehead. 7), the press further comprising a press head (8) fixed to the housing (1) and representing a solid cylinder with a central hole (9) and a front face (10) located coaxially against the face (7) of the auger (6), and a nozzle (14) with a nozzle opening (15) passing into an outlet opening (16) for removing the solid residue, characterized in that symmetrically triangular slots are formed in the front face (10) of the extruded head (8). ) with a triangular cross-section extending radially from the central hole (9) and with tips located next to the outer wall of the pressing head (8), where the nozzle the orifice (15) and the outlet orifice (16) are truncated circular cones with a common small base, the forming k of the nozzle orifice (15) concluding with the axis O of the housing (1), whereby to the forehead (7) of the auger 6) a press nozzle (17) is provided, consisting of a cylindrical part (18) formed as a multi-pass auger, placed in the central hole (9) of the pressing head (8) and the front part of the nozzle hole (15), and a conical part (19) formed as a truncated circular cone located in the rear part of the nozzle opening (15) and the front part of the outlet opening (16), whereby the forming k ₂ of the conical part (19) of the press nozzle (17) concludes with the axis O of the housing (1) <β <<a, wherein there is a gap b between the nozzle opening (15) and the conical part (19) of the press nozzle (17), 4522 Descriptions to utility registration certificates № 07.2 / 31.07.2020 which is decreasing in the direction of the narrowest part of the nozzle opening (15). Press according to claim 1, characterized in that the number of triangular slots (11) in the pressing head (8) is between 3 and 8. Press according to claim 2, characterized in that the triangular slots (11) are four. Press according to claims 1 to 3, characterized in that 15 ° <a <25 °. Press according to claims 1 to 4, characterized in that <β is 2 to 3 degrees smaller than <a. Press according to claims 1 to 5, characterized in that the discharge holes (5) are located transversely to the wall of the housing (1) and are in the form of a truncated cone with diameters d, on the small base and d ₂ on the large one. base, the small bases being in the middle of the longitudinal slotted channels (2), where dj is from 0.5 to 1.5 mm, ad ₂ is from 1.5 to 2.5 mm. Press according to Claim 6, characterized in that d, = 1 mm, d ₂ = 2 mm. Press according to claims 1 to 7, characterized in that the discharge openings (5) are located close to the inlet opening (3). Press according to claims 1 to 8, characterized in that the gap b in the narrowest part of the nozzle opening (15) is from 0.5 mm to 1.0 mm. Press according to Claims 1 to 9, characterized in that the conical tip is replaceable.