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序号	专利名	申请号	申请日	公开（公告）号	公开（公告）日	发明人
21		JP8716489	1989-04-07	JPH0729296B2	1995-04-05	UINFURIITO SHUARUTSU; PEETAA SHUTOMERU

22		JP18743383	1983-12-02	JPS6329530Y2	1988-08-09

23	Mixer	JP13810185	1985-06-26	JPS6128432A	1986-02-08	FURANKU JIYONSON; HEMURUUTO HOOMAN; HAINTSU ROOSAA; GIYUNTAA BUIKAARU

24	JPS5182181U -	JP215575	1974-12-25	JPS5182181U	1976-07-01

25	The method of mixing the resin and additives	JP2000122201	2000-04-24	JP3736280B2	2006-01-18	和正守田; 博行河崎; 裕之石川; 智亮金政

26		JP2000560391	1999-06-17	JP2002520565A	2002-07-09

27		JP6707495	1995-02-28	JP2668661B2	1997-10-27

28	PLASTICIZING DEVICE FOR PLASTIC MOLDING	JP4340095	1995-02-08	JPH08216204A	1996-08-27	ISHIKAWA TAKETOSHI; SUGANO HIROSHI; SUZUKI KATSUYUKI; NARUKAWA FUJIHIKO
PURPOSE: To enable the degree of kneading to change optionally and at the same time, make it easy to adjust the feed amount of a material in a first stage and a second stage by dividing the specified length of a thermal cylinder into sections in an axial direction and making the inner diameter facing movable normally and reversibly in the rotating direction of a screw. CONSTITUTION: A thermal cylinder 10 has a sectional cylinder 14 which consists of a fixed cylinder 17 and a rotating cylinder 19 supported axially, in a freely rotatable manner, on a bearing by the fixed cylinder 17. In addition, a spline 23 is provided on the outer peripheral face of the rotating cylinder 19, and is rotatable in a normal and a reversed direction to the rotating direction of a screw by engaging with a gear 24. If the rotating cylinder 19 is caused to rotate in an opposite direction to the rotating direction of the screw, the degree of kneading increases but the extrusion amount remains unchanged. On the contrary, the rotating cylinder 19 is caused to rotate in the same direction as the rotating direction of the screw, the degree of kneading decreases but the extrusion amount remains unchanged.
29	MANUFACTURE OF LIGHT-WEIGHT MATERIAL	JP2079185	1985-02-05	JPS60183107A	1985-09-18	HANSUYOHIMU BURUGAA; FUUBERUTO SHIYUSUTAA

30		JP215675	1974-12-25	JPS5331497Y2	1978-08-05

31	RUBBER COMPOSITION MANUFACTURING METHOD AND TIRE MANUFACTURING METHOD	US17534532	2021-11-24	US20220195150A1	2022-06-23	Sho Taniguchi
A rubber composition manufacturing method in accordance with the present invention comprises an operation in which at least rubber, silica, and silane coupling agent are kneaded in an internal kneader while kneading temperature is controlled so as to suppress occurrence of a coupling reaction between the silica and the silane coupling agent, wherein for at least a portion of time during which the operation is being carried out, at least the rubber, the silica, and the silane coupling agent are kneaded while a ram of the internal kneader is in a nonpressing state.
32	Extruder device	US910357	1997-08-13	US5783226A	1998-07-21	Huo Teng Chi
An extruder device includes a rotor rotatably received in a housing and a tube secured to the rotor and having a helical screw formed in the outer portion. A screw member is engaged in the bore of the rotor and secured in the tube and rotated in concert with the tube and the rotor. The material to be extruded is supplied onto the tube and moved by the helical screw and then by the screw member. The helical screw includes a pitch greater than that of the screw member for allowing the helical screw of the tube to squeeze the material.
33	Centrifugal mixer having vacuum means	US3521863D	1968-02-01	US3521863A	1970-07-28	GRAHAM ROBERT A

34	Mixing machine	US12788193	2010-05-26	US08979354B2	2015-03-17	Ulrich Tölle; Wolfgang Rüberg; Matthias Herfeld
A mixer 1 for thermal treatment of a material for mixing consisting of solid particles comprises a mixing vessel 2 for admitting the material for mixing. The vessel 2 has at least one thermal medium channel that with its surface gets at least partially in contact with the solid particles to be heat-treated, through which thermal treatment media are fed when the mixer 1 is in operation. Additionally, the mixer 1 has available a device for circulating the material for mixing found in the container 2. The container 2 is turnably supported about an axis R that penetrates the two front sides 7, 20. A motorized drive 17, 18, 18.1 serves as a circulating device to turn the container 2.
35	Dry blending	US41671264	1964-12-08	US3318538A	1967-05-09	NEEDHAM DONALD G

36	Apparatus for the preparation and mixing of foundry moulding materials	US29926852	1952-07-16	US2826794A	1958-03-18	ERWIN KNIPP; KARL JELLINGHAUS

37	MIXING MACHINE	JP19498697	1997-07-04	JPH1119926A	1999-01-26	NAKAGOME MATSUJI
PROBLEM TO BE SOLVED: To make it possible to perform a shutter function by storing a freely rotating inner cylinder and a stirring blade monolithically in a casing, then forming openings in the inner cylinder and a receiving aperture and a delivery aperture in the casing against the respective opening in the inner cylinder, and opening/closing the openings by rotation of the inner cylinder. SOLUTION: A freely rotating inner cylinder 10 and a stirring blade 20 are stored monolithically in a casing 30. The rotary shaft 21 of the stirring blade 20 is mounted concentrically with the rotary shaft 11 of the inner cylinder 10, and these shafts rotate independently of each other. In addition, openings are formed, across the entire length of the axial direction, on the peripheral face of the inner cylinder 10. Further, a receiving aperture and a delivery aperture 36 are formed against the openings, on the upper and the lower face of the casing 30 respectively. The receiving aperture is closed by movement of the opening following the rotation of the inner cylinder 10 and then the delivery aperture 36 is opened by movement of the opening to the delivery aperture 36 below. Thus the shutter function of the inner cylinder 10 and the casing 30 opens/closes the openings by rotation of the inner cylinder 10.
38	KNEADING DEVICE	JP16775195	1995-07-03	JPH0910572A	1997-01-14	ABE ETSUHISA
PROBLEM TO BE SOLVED: To obtain various kneading states only by simple rotary controlling operation. SOLUTION: A kneading device is equipped with a cylinder 1 and a built-in screw 2 in the cylinder 1. One or both of the cylinder 1 and the screw 2 are rotated and material is kneaded by kneading gaps 5 formed between the cylinder 1 and the screw 2. One or both of the screw 2 and the cylinder 1 are split into two or more and a plurality of kneading gaps 5 are formed between the cylinder 1 and the screw 2, so that kneading drive of material is unsynchronously carried out.
39	ROTARY CYLINDRICAL VESSEL TYPE CONTINUOUS MIXER	JP6707495	1995-02-28	JPH08229380A	1996-09-10	SUGIYAMA SHUKO
PURPOSE: To perform uniform mixing without lowering the capacity by dividing a cylindrical vessel into plural mixing chambers by spiral partition plates and also setting the proceeding directions of the spirals of the adjacent spiral partition plates being reverse to each other. CONSTITUTION: On the inner peripheral wall surface of a rotary cylindrical vessel 12, plural spiral partition plates concentric with a rotation center line O are vertically installed to divide the inner space of the vessel 12 into plural mixing chambers 23-26 along the rotation center line O. The proceeding directions of the adjacent spiral partition plates 22 are set being reverse to each other. Passes 27 for making the mixing chambers 23-26 adjacent to the spiral partition plate 22 communicate with each other are formed to alternately repeat the normal and the reverse rotation of the rotary cylindrical vessel 12. In this way, a variation of residence time of the mixing chamber 23-26 is small to heighten the uniformity of a mixture.
40	DEVICE FOR MIXING THERMALLY PLASTICIZED PLASTIC AS DEVICE INSERTING ADDITIVE INTO FLOW COMPOSED OF THERMALLY PLASTICIZED PLASTIC	JP8716489	1989-04-07	JPH0222009A	1990-01-24	BUINFURIITO SHIYUBUARUTSU; PEETAA SHIYUTOMERU
PURPOSE: To mix an additive uniformly by disposing an array of a rotor in the circumferential direction so that it is shifted from the array of a stator in the circumferential direction by half of the length of a mixing chamber, in a polymer kneader. CONSTITUTION: A rotor 2 and a stator 1 are incorporated with a gap 3 formed between them and also have mixing chambers 4 disposed in arrangement in the circumferential direction and in the axial direction. An array of the rotor 2 in the circumferential direction is shifted from the array of the stator 1 in the circumferential direction by half of the length L of the mixing chambers 4. Each mixing chamber 4 has a groove of a circular-arc radial section having a guide radius R, which is formed on the front and rear sides of the chamber. An additive can be dispersed uniformly in molten plastic, since it is inserted with a higher static pressure than the one with which thermoplastified plastic is put in an apparatus.

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