• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    An extraction device for extracting liquids from liquid-solid mixtures comprising a screw rotatable in a barrel the screw having at least one flight helically disposed thereon to define the screw thread, the flight having gaps formed therein, the gaps being dimensioned so as to correspond to the diameter of pins extending radially through the barrel towards the screw axis, the pins having axial bores formed therein for the discharge of liquid the bores being open in the direction of the axis of the screw. The bores are connected to a liquid discharge network.
    公开号:SU1187709A3
    申请号:SU813354003
    申请日:1981-11-16
    公开日:1985-10-23
    发明作者:Кох Клаус
    申请人:Херманн Бершторфф,Машиненбау Гмбх (Фирма);
    IPC主号:
    专利说明:

    2. The device according to claim 1, characterized in that the pins with drain holes are placed between the sections of the screw auger rib separated by grooves, in the latter there are radial holes and in the screw core the connected
    with holes in the edge of the axial hole.
    3. The device according to p. 1, OTLI7
    Of course, grooves are made inside the press cylinder, and pins with drain holes are mounted in the press cylinder in the slot placement area.
    4. The device according to claim 1, characterized in that the face parts of the pins facing the heart7709
    the auger nickname is made of antifriction material under dry friction conditions in combination with the material of the auger core.
    5. The device according to PP, 1 and 4, is characterized in that the face parts of the pins facing the screw core are made of bronze.
    6. The device according to paragraphs. 1 and. 5, it is characterized in that it is provided with tubes with tapered holes, each of which is mounted in a corresponding drain hole of the pin at its end j, facing the core of the screw, and facing the latter conically.
    one
    The invention relates to a design of presses for squeezing a liquid fraction from a substance, for example, beet tops, beet pulp, sludge.
    The purpose of the invention is to reduce pressure losses in the press and increase the degree of spin.
    1 schematically shows the proposed device, a longitudinal section in FIG. 2 - / section AA in FIG. 1i in FIG. 3 - the device with the detail of the holes in the screw edge and drain holes in the pins.
    The driven screw (not shown) screw 1 is rotatably mounted in the press cylinder 2. In the latter, on its inner surface there are longitudinal grooves 3, which are filled with triangular cross sections. However, they may also be rectangular or semicircular.
    The grooves extend along the entire length of the cylinder both in the zone of 4 loads and in the zone 5 of the placement of the pins 6. The latter are fixed radially. in the press cylinder and income to the core 7 of the screw. The position of the pins correspond to the notches 8 in the screw edge 9, which passes along a helix and precisely to the pyrin, which corresponds.
    the diameter of the pin 6. The latter are screwed into the cylinder 2 and fixed with nuts 10. In this case, the gap between the screw core 7 and each pin 6 can be adjusted. Sets of pins 6 are located in the workshop x 11-13. The kit-pins, placed in the plane 12 (Fig. 2), consists of four pins. However, placement around the auger is possible and much
    more pins depending on the moisture content of the mass of material to be dehydrated. The drain holes 14 of the pins 6 are connected to the sewage network 15. The holes 14 of the pins 6 on the side facing the core J are fitted with tubes 16 with tapered holes facing the narrow side of the core 7 When the squeezer does not have a releaseable material , the end parts 17 of the pins 6 do not touch the heart 7. If pressure builds up inside the press cylinder, it is not excluded that these parts will come into contact with the core, so that the end parts of the 17 c. of the pins are made of antifriction material udx dry friction of the screw in combination with the core material, for example of bronze, to minimize wear. The conical shape of the tubes 16 prevents them. obstruction, since only such solid components that are smaller than the gap between the end part 17 of the pin and the screw core can enter the hole. The fluid with solid material through the bell 18 is loaded into the space between the turns of the screw 1 and the screw is rotated in the direction of the arrow 19 to the outlet 20, in the loading booster 4, the material is first compressed and the liquid easily drains through the drain holes 21 into the collector 22. The material is then fed to zone 5 of the cylinder, where pins 6 entering the cylinder 2 prevent its rotation together with the screw. Before pins 6 the material briefly lingers and forms a backwater, due to which the pressure in the turns Nek povsh1aets until material sleduyu1tsy him, does not advance further portion where Nogo portion reaches freedoms rotatable volume content of turns of the screw, wherein the pins 6 do not interfere with its vraschenikh. Since the grooves 3 can be placed between the individual planes 11-.13, where the pin sets are located, extending in the direction of the screw axis, the material being pressed between the pin placement planes will not rotate with the screw. presses c in grooves 3 (this creates an obstacle to its joint rotation with the screw), a longitudinal movement of the material occurs. As a result of this movement of material, as well as the decelerating effect of the pins 6, the pressure increases, which leads to a higher feed performance by the screw. This significantly increases the pressure in the space inside the cylinder, for example, to a pressure in excess of 500 bar, in particular between the planes 11-13 pins. Thus, the pressed mother is subjected to the greatest pressure on the section of the cylinder, equipped with pins, due to which the water of the cellulose is released and the content of dry matter is up to 90% or more, depending on the amount of matter. The outlet 20 is sealed with a power shut-off member 23 and opens only under a predetermined pressure. This also achieves a further increase in pressure in zone 5 of the cylinder. A high degree of drainage of the mixture of liquid with a solid is also achieved by the presence of axial drain holes 14 in the pins 6, since this creates the possibility of draining the free liquid in the area of the pressing device where water from the cellulose is pressed through a very high pressure. In this case, it is possible to discharge once released liquid, if possible, at the place of its extraction without mixing it with a solid substance in any significant volume. By arranging the drain holes 14 in the pins 6, it is also achieved, in particular, that free pressed liquid from the fiber can be withdrawn without significant loss of pressure in the pin area 5 of the cylinder 2. In addition, a significant increase in pressure is used to extract water from the fiber to obtain high solids content. The beet tops are loaded into the funnel and continuously pass through the squeezer. "The dry matter content of 40% is obtained in one pass only. Pins with drain holes (FIG. 3) can be mounted between the sections of the screw screw ribs with radial holes 25 that are separated by grooves, the latter being connected to the screw screw axial hole 26. The rib sections 24 can also be provided with a groove 27 in the back of the rib that collects fluid passing through the region 24 and retracts to the radial holes 25 of the rib. Thus, through the groove 27 in the back of the rib, all the fluid passing through the region is captured. 24 edges of the screw, and its withdrawal. Such a device (FIG. 3) is preferable because the free liquid that is accumulated at the base of the auger stroke is pressed out can drain through the drain holes 14 in the pins 6 reaching the auger core. Free water from cellulose, which is supposed to be on the opposite side of the inner surface of cylinder 2, can flow through the rib section 24 into the back edge groove 27, into the rib hole 25, and from here into the axial hole 26, Similar installation of pins 6 forms, therefore, Within the screw stroke there are a lot of different drain channels for pressed free fluid, which itself finds its way due to the very large pressure drop between the screw passage and the drain channels. Due to the pressure differential, smaller solid particles are again flushed out of the various channels. The processed material is loaded into the bell 18. Then the material is captured by the auger. The pins 6 prevent the mass of the material from rotating together with the auger, which ensures high feed rates and, therefore, high pressure at the cylinder section with pins. The liquid can be easily withdrawn through the drain holes in the pins due to the high pressure differential, for example 300 bar in the press cylinder — 1 bar (atmospheric pressure) in the drain holes. Since the distance between the ends of the pins and the core body of the screw is relatively small, e.g. 0.3 mm, only very small particles of solid material that cannot block the drain holes are removed and removed. The ends of the pins are rounded according to the rounding of the core of the screw. The pins, provided with drain holes, can be installed between (sections of the screw edge 24 having radial holes connecting to the axial hole in the screw. Thus, the freedoms on the liquid at the base of the stroke are perceived as drain holes in the pins, and pressed free liquid on the inner surface of the hydraulics, the radial holes in the ribs and the axial hole in the auger are discharged through the backs of the ribs. the free fluid is pressed out directly and is withdrawn, as a result of which there is no noticeable decrease in pressure. Pins with drain holes can be mounted on a section of the cylinder. 2 with internal grooves that extend in the axial direction or along a helical line according to the pitch of the screw edge sections or along a helical line against this step. At the same time, an improved mass supply is also maintained between the individual planes of 11-13 sets of pins, since the grooves of the cylinder prevent the rotation of the mas Sy material together with the screw. Thus, a suppressed pressure is created due to the reinforcement of the feeding effect, which is necessary for a good squeezing action, which makes it possible to release the water contained in the fiber, and thereby obtaining a substance of high dryness in a single stroke during a continuous process. In addition, it is ensured that the pressed free liquid is drained directly at the site of its occurrence without a noticeable loss of pressure. With the concentration of several. provided with drain holes of the pins in one plane, the pressed free liquid can be drained in many places along the perimeter of the volume. The ability to adjust the pins by the depth of their immersion has an effect on the change in the flow rate of the feed and thus on the pressure increase, as well as on the adjustment of the pressing device to the different size of the constituent particles of the solid. Making the end sections of individual pins, sometimes touching the core of the auger, with a sliding surface made of antifriction material in combination with a core material with dry friction properties, such as bronze, guarantees a long, relatively non-susceptible wear of the ends of the pins. When inserting the conically outward-extending tubes into the ends of the drain holes of the pins, the inlet versions of the drill holes are made of a smaller diameter. This prevents the holes in the pins and the drainage system connected to them from blocking. External structural design details of the pins that set m 9. inside cylinder 2 (in the form of rectangular or polygonal pipes) contributes to crushing by cutting particles of solid matter, when they pass between the gaps in the screw edge and the parts of the pins, when they are forced to flow.
    权利要求:
    Claims (6)
    [1]
    1. A PRESSING DEVICE FOR SEPARATING A LIQUID FRACTION FROM SOLID COMPONENTS OF A MIXTURE OF A LIQUID AND SOLID SUBSTANCE, containing a screw mounted on a press cylinder with a screw rib 7 mounted on it along a helical line 7 and also a radial axis installed in the press cylinder and directed towards the axis to its core, pins mounted with the possibility of radial screwing into the cylinder, while the parts of the pins entering the press cylinder are made rectangular, the pins in the sets are placed equally far from one another in planes perpendicular to the axis of the press cylinder, sets of pins are placed along the axis of the press cylinder, recesses are made in the screw rib corresponding to the width of the pins, bounded by surfaces perpendicular to the axis of the screw, and a network of sewage pipes is connected to the holes of the press cylinder characterized in that, in order to reduce pressure losses in the press and increase the degree of extraction, axial openings are made in the pins, open from the side of the screw core, soy dined with a sewage network.
    5________________________9
    I * —II } 5 f figure 1
    SU „„ 1187709
    [2]
    2. The device according to π. 1, characterized in that the pins with drain holes are located between the divided recesses of the sections of the screw screw rib, in the last one there are radial holes, and in the core of the screw there is an axial hole connected to the holes in the rib.
    [3]
    3. DEVICE POP. 1, Ο Τ Л И 7, characterized in that the grooves are made inside the press cylinder, and the pins with drain holes are mounted in the press cylinder in the groove placement area.
    [4]
    4. The device pop. 1, characterized in that the end parts of the pins facing the core of the screw are made of a material that is antifriction under conditions of dry friction, in combination with material ·, of the core of the screw.
    [5]
    5. The device according to paragraphs. 1 and 4, which is repellent in that the end parts of the pins facing the screw core are made of bronze.
    [6]
    6. The device according to paragraphs. 1 and 5, characterized in that it is provided with tubes with conical holes, each of which is mounted in a corresponding drain hole of the pin at its end facing the core of the screw, and faces the tapering part of the conical hole to the latter.
    类似技术:
    公开号 | 公开日 | 专利标题
    US5833851A|1998-11-10|Method and apparatus for separating and deliquifying liquid slurries
    US7357074B2|2008-04-15|Compression screw with combination single and double flights
    US4150617A|1979-04-24|Modular split screen hydro-extractor
    GB2090542A|1982-07-14|Screw press
    SU1187709A3|1985-10-23|Squeezing device for separating liquid fraction from solid components in mixture of liquid and solid substances
    KR101495906B1|2015-02-26|Impurities disposer improved dehydration performance
    US6588331B2|2003-07-08|Screw press inlet section
    KR102025270B1|2019-09-25|Dehydration apparatus by screw press
    EP2438973A1|2012-04-11|Separator for separating solids from liquids, particularly high viscosity liquids
    DK167934B1|1994-01-03|Appliance for compressing and dewatering cellulose- containing and/or other fibrous materials
    KR200221739Y1|2001-04-16|Apparatus for proceeding garbage.
    DE202004015115U1|2005-02-24|Separator to remove sludge and solids from effluent water has cylindrical helical profile rotating within cylindrical basket and housing
    US2427446A|1947-09-16|Fluid extracting piston press
    DE102009042737A1|2011-03-31|roll press
    KR200448124Y1|2010-03-18|Screwpress for dehydrating oily and fatty impurities
    US3270663A|1966-09-06|Screen plate for pulp press and the like
    EP0736370A2|1996-10-09|Apparatus for dewatering materials
    DE102018113135A1|2019-12-05|Device for sewage sludge dewatering
    SU1507451A1|1989-09-15|Centrifuge
    KR940019356A|1994-09-14|Kitchen Waste Treatment Device
    EP0293409B1|1989-10-11|Screw press
    DE1099465B|1961-02-09|Sieve device for the spinning drum of a pusher centrifuge
    DE102013021037A1|2015-06-18|Preßschneckenseparator with device and method for safe comminution of Feststoffpfropfen at the outlet of the spring-operated double flaps. The support bearing of the worm shaft located behind the device is thus permanently protected against the ingress of abrasive particles.
    AT515250B1|2016-06-15|Screw press for dewatering wet material
    SU1196034A1|1985-12-07|Centrifuge
    同族专利:
    公开号 | 公开日
    FR2495543A1|1982-06-11|
    FR2495543B1|1987-01-30|
    CA1179549A|1984-12-18|
    SE8107350L|1982-06-10|
    ES508112A0|1982-11-16|
    AT379962B|1986-03-25|
    US4429628A|1984-02-07|
    IT8124999D0|1981-11-12|
    GB2092014B|1984-07-18|
    ES8301146A1|1982-11-16|
    CH654248A5|1986-02-14|
    DE3046384C2|1989-01-05|
    FI813723L|1982-06-10|
    IT1140493B|1986-09-24|
    JPS619919B2|1986-03-26|
    JPS57127598A|1982-08-07|
    DE3046384A1|1982-07-08|
    BR8107975A|1982-09-14|
    GB2092014A|1982-08-11|
    ATA487081A|1985-08-15|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US1333249A|1918-07-24|1920-03-09|John C Fiddyment|Fluid-extracting press|
    DE335649C|1919-05-16|1921-04-07|Emil Neufeldt|Schnitzel press|
    DE963230C|1951-09-18|1957-05-02|Walter Spielvogel|Schnitzel press|
    DE1846103U|1960-10-15|1962-02-01|Weigelwerk G M B H|SCREW PRESS.|
    US3981658A|1972-01-14|1976-09-21|International Basic Economy Corporation|Screw type apparatus for drying moist polymeric materials|
    DE2335385C3|1973-07-12|1979-09-13|Fried. Krupp Gmbh, 4300 Essen|
    DE2456187A1|1974-11-28|1976-08-12|Alf Soennecken|Screw press for removal of juice oil etc - from fruit vegetables without pre-treatment|
    DE2915538C2|1979-04-18|1982-12-02|Fried. Krupp Gmbh, 4300 Essen|Method and device for extracting oil from purified oil crops and oil seeds|DE3219089A1|1982-05-21|1983-11-24|Hermann Berstorff Maschinenbau Gmbh, 3000 Hannover|Bark processing equipment|
    DE3248059A1|1982-12-24|1984-07-05|Hermann Berstorff Maschinenbau Gmbh, 3000 Hannover|EXPRESSING DEVICE|
    DE3406940C2|1983-03-23|1985-02-07|Hermann Berstorff Maschinenbau Gmbh, 3000 Hannover|Squeezing device with self-cleaning separation gaps for separating the liquid from the solid components of a liquid-solid mixture|
    IT8419501D0|1983-03-23|1984-02-08|Berstorff Gmbh Masch Hermann|SCREW PRESS FOR THE EXTRACTION OF WATER PRESENTING SEPARATION SLITS FOR THE EXTRACTION OF THE WATER IN WHICH VERY HIGH CONTENTS OF DRY MATERIAL ARE OBTAINED BY A PRESSURE OF UP TO 500 BAR.|
    DE3772991D1|1987-08-21|1991-10-17|Schumacher Walter|DEVICE FOR EXTRUDING, EXPANDING AND / OR THERMALLY TREATING SUBSTANCES AND SUBSTANCE MIXTURES.|
    CA1295179C|1988-02-19|1992-02-04|Douglas B. Brown|Apparatus for feeding a mass of particulate or fibrous material|
    DE102012215953A1|2012-09-10|2014-03-13|Voith Patent Gmbh|screw Press|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    DE19803046384|DE3046384C2|1980-12-09|1980-12-09|
    [返回顶部]